JUaguna .Marine Laboratory Lacuna BeacH California Pomona College Claremont. California May. 1912 Complimentary FIRST ANNUAL REPORT of THE LACUNA MARINE LABORATORY at LACUNA BEACH, ORANGE COUNTY, CALIFORNIA POMONA COLLEGE MAY, 1912 f Published bv THE DEPARTMENT OF BIOLOGY, POMONA COLLEGE CLAREMONT, CALIFORNIA DR. A. J. COOK STATE HORTICULTURAL COMMISSIONER SPONSOR THE LACUNA MARINE LABORATORY PERSONNEL FOR 1911 'DR. A. J. COOK, Sponsor 2 MISS C. K. RICE, Chaperon PROFESSOR C. F. BAKER, Director and Editor of Report CHARLES W. METZ, Manager "CHARLES W. METZ 'DAVID L. CRAWFORD 'BLANCHE E. STAFFORD 6 VINNIE R. STOUT 'MABEL GUERNSEY 'HARRY V. M. HALL "JOHN GUERNSEY FRANK R. COLE LEON GARDNER 1 Now California State Commissioner of Horticulture at Sacramento. 2 Now Mrs. A. C. Dyer of Kinsley, Kansas. 3 Later fellow-assistant under Dr. David Starr .Ionian at Stanford t'niversity ; now ap- pointee to fellowship in Columbia University under Dr. Bashford Dean. 4 Of this group, lint with table for the summer of 1911 in Pomona College Biological Laboratory. Later fellow-assistant under Dr. Vermin L. Kellogg at Stanford Uni- versity, and assistant in State Horticultural Commission. Recently appointed an assistant in Cornell under Dr. J. G. Xeedham. 5 Fellow-assistant, 1911-1.', Department of Biology of Pomona College and candidate for ^H master's degree. Later appointed fellow-assistant in University of California under Dr. C. A. Kofoid. (i Fellow-assistant, 1911-15, Department of Biology of Pomona College and candidate for master's degree. Later appointed fellow-assistant in Cornell University under Dr. J. G. Xeedham. 7 Appointed fellow-assistant for I91J-13 in Department of Biology, Pomona College. 8 Appointed scholar-assistant for 191J-13 under Dr. Robt. H. Walcott in the University of Nebraska. 9 Accepted candidate fellow-assistant for 191.M3 under Dr. W. A. Setchell in the University of California. As a matter of contemporaneous history, and of general interest to many who are deeply concerned in all that pertains to this work, it may be mentioned that during the years 1910-12 the following Pomona graduates also pass on into advanced biological work: Elizabeth Heald and Sarah R. Atsatt to fellowships in Zoology under Dr. Kofoid in Berkeley; A. S. Crawford, to a fellowship in Cornell Medical; John A. Prizer, to post of Entomological Expert to the San Diego Land and Town Company; R. S. Vaile, to Horticultural Commissionership of Ventura county, California; A. R. Baird, to Horti- cultural Commissionership of Inyo county, California; E. (). Essig, to Secretaryship of California State Horticultural Commission; H. A. Weinland, to an assistant in the State Horticultural Commission; John E. Graf, to an Assistantship-in-charge at the Gov- ernment Entomological Station at Compton, California; C. F. Stahl, to assist Graf; H. H. Warner, to student assitantship in plant breeding under Prof. Babcock at Berkeley; A. R. Davis, to a research fellowship in the Shaw School of Botany of Washington University at St. Louis. Iebicatebto tbementoho.habing seen a great, neto opportunity to bo / something toortb tohile in the toorlb, toasteb no time, but set^eb upon it toitJj abibitp anb stapeb toith it to the men toitf) tofjom originateb tfte ibea of a permanent Jtlarine s/ ILaboratorp at Ilaguna Jieacfj, anb totofjom is bue tfjt practical bebelop ment of tfje larger possibilities for tlje project: James QT. femi 1L. fi. JSroobs 31. &. 3scfj anb to these other pioneers, tofjo, accepting the challenge of a great public serbice. fjabe been the first in abbition to those mentioneb /=/ abobe, to gibe of their means sr^/ totoarbs the founbing of this instt= tution: dhe Haguna JUeach Co. i^. (6. fi?rialpr. e found in the fishermen's nets and traps. Mr. Souder also loaned to the laboratory a skiff for use at Laguna, a favor for which he has our heartiest acknowledgments. To him are due several of our most valuable finds during the summer. Of the many thousands of specimens gathered during the summer, and preserved in best of order, not one small part has as yet been worked up, though work is in progress along many lines, either by students on the Coast, or by well known specialists elsewhere who are co-operating with us. The results presented in this report are to us simply a beginning a breaking of the ground. We have to acknowl- edge the kindly assistance in this work of many specialists through- out the world, including Prof. J. M. Aldrich, of Idaho University, Prof. Walter K. Fisher of Stanford University, Dr. M. Bernhauer of Austria, Mr. J. H. Paine of Stanford University, Mr. S. S. Berry of Stanford University, Dr. W. A. Setchell of California University, Mr. Julius Hurter of the St. Louis Academy of Science, Dr. Wm. A. Hitter of the San Diego Marine Laboratory, and others. Large col- lections of marine worms and of sponges are still untouched, and will be at the disposal of interested special students. Acknowledgments should also be made to many friends at Laguna, notably our host, Mr. Smith, whose kind and helpful interest was with us always ; to Mr. Isch, our banker and merchant ; to Mr. Brooks, who gave us many a boost; to Mr. Trefern, on whose patience we drew heavily, and to others. Col. Coulter, whose untimely death has lately been announced, was a frequent visitor to the laboratory, and 8 Jfirst annual Report was one of Mr. Smith's first converts to the idea that the laboratory ought to be a permanent institution in Laguna. Our stay in Laguna was marked by this kindliness on every hand. Laguna, unlike any other place on the coast, possesses the rare charm of a quiet and homelike country village an unusual and valuable asset which in itself is much sought and highly prized by great numbers of people. Just this feature is doubly inviting, when the village happens to be at A view of the building used for Laboratory in 1911, with surroundings. Professor Baker's tent at left, with Mr. Metz's tent back of that. Mr. Guernsey and Mr. Hall had tables on the upper porch, others had tables in the larger room on the first floor. .Mr. Gardner's tent was placed back of the house to the right. the most desirable point on the coast. We are hoping that nothing will ever destroy that unique atmosphere. During the summer several hundred visitors went through the laboratory, expressing keenest interest in all they saw there, and to them we took pleasure in extending every courtesy. Among these visitors we were delighted to number many of the friends and alumni of Pomona College. We were also visited occasionally by men from government institutions, and from neighboring educational institu- tions. Laguna lU&oratorp Especially does the laboratory group feel deep gratitude for his constant, helpful, and inspiring influence as sponsor of the whole enterprise, to Dr. Albert J. Cook, now State Commissioner of Horti- culture, then Professor of Biology in Pomona College, an earnest friend of all who strive, an active laborer for all things good and true, and an ardent believer in the possibility of the ultimate realization of all the highest in human hopes. Within the laboratory group, perfect kindness and good fellow- ship was the great distinguishing feature. A spirit of interested helpfulness pervaded all, and this constant and watchful co-operation vastly increased the possibilities of the summer work. Indeed the future watchword for this enterprise might well be Co-operation! C. F. BAKER. The a magnifi rich in life. channels just north of Laguna. These channels are very deep and contain ficent display of kelps (Eisenia and Egregia). This whole area is exceedingly l< fa 10 JTirst annual Report REASON FOR BEING are now a large number of marine laboratories in the world. These include several on our own East Coast and also several on the West Coast. Almost without exception they have been established for purposes of advanced univer- sity research of the most formal order. Reference is here made only to those laboratories which are confessedly part of great educational enterprises. A number of others have been instituted wholly or in Showing one of numerous small bays with sand beaches. At low tide, between tlie rocks in foreground and the point at left, a large bed of Phyllospadix is accessible. part, in connection with fisheries investigations. We are now adding one to the interesting list of marine laboratories, though this one is organized on a somewhat different basis than any that we know of, and for somewhat different purposes. We purpose to maintain a number of unique features in connection with this laboratory, as long as it shall exist as an annex of Pomona. Laguna Ratine Laboratory n There have been constantly in our minds the possibilities that such a laboratory might have for advanced college students. Having become thoroughly convinced of the immense importance and useful- ness in the last years of a college course, of what we have been calling "junior research work," and having been long aware of the tremen- dous effectiveness of "living interest" as a pedagogical tool, we have done our utmost to give advanced students the opportunity to try out their several abilities and capacities in scientific methods of thought and work, on some simple little piece of live investigation that they might easily carry through by faithful effort. The response to these great opportunities among our students, has been little short of marvellous. Advanced students of some special ability and capacity have constantly sought these opportunities and given to them unlim- ited amounts of time and energy largely in their own outside free hours, and usually without college credits. Their results have, as a rule, been highly commendable. For instance, the work by Hall on Acarina, Crawford on the Psyllidae and Thysanoptera, and Metz on the bees, is (according to some of the best authorities in this country and Europe) as good as any work of the same sort ever done in this country, and in some respects better. Uniformly we have encountered a great purpose on the part of the students to make their work "as good or better than anything done before" this has been their working principle. Naturally there would never be time here to develop anything more than simply some promise of their possibilities. Even when their maiden efforts are not so admirable, every day sees great and steady growth with inevitable response to the great ideals of endeavor which seem to permeate everything at Pomona. One of our students who has been a constant contributor to the Pomona Journal of Entomology for several years, still shows striking improvement in every article pub- lished, and this spirit of "getting better all the time" the spirit of "going on," has characterized all of this "junior research work." In the face of such spirit as this, it may be imagined that our profes- sors have spared no effort to furnish opportunities where they were earnestly sought by capable students. Our college curriculum being a crowded one, we had early conceived the idea of a summer marine laboratory, and have worked steadily towards it, with the result of its partial materialization in 1911. 12 JTirst annual Report In all of this work there has been no idea of aping the university to the slightest degree. Many years of experience as student and teacher in a number of colleges and universities, have convinced me that the American college has a destiny uniquely its own. I believe that there are greater possibilities in the Christian college for the building of individual character, and for laying the broadest and soundest foundations for true culture and great scholarship, than anywhere else on earth. Just so, I also believe that tremendous Showing the tide pools at Mussel Point. Here are immense colonies of mussels, barnacles, sea urchins ami coralline algae. This place is exceedingly rich collecting ground. ideals of really adequate and sane high school work can easily be built up without overlapping the college in any way, and I came to this belief while associated in practical high school work with two masters of that subject Prof. Bryan, now Assistant Superintendent of the St. Louis schools, and Miss Ernst, now Principal of the Cote Brilliante School in St. Louis. Our work in Pomona College, and all connected with it, has been developed along strictly college lines, with all of the intimate indi- vidual interest and assistance, and all of the varied and endless sacri- ILaguna fig)arine JLafioratoq) 1:3 lires for the sake of the students, that mark the best traditions of the Christian college. There is nothing' proposed or carried out in oiir work that does not articulate perfectly with real university work- mark my expression witli real university work! For it must be remembered that our universities in their present variedly undevel oped state, receive in their undergraduate courses students of exactly the same grade as those coming to Pomona or other real colleges with equally rigorous entrance requirements. Whether the univer- sity under university conditions is able to do true college work, is a very debatable question, and one not germane to the point at issue here. I have repeatedly made the statement, and have heard it made also by some of our best university men, that coming up through the well organized basic system used with such splendid effect at Pomona, together with this final chance at "junior research," stu- dents could be broadly fitted for graduate work at our American universities in real n>/ir<'rxiti/ irork who would give as fine results in certain lines at least, as students from any other possible sources, and this has worked out most conclusively in actual practice. Some of these considerations are of unusually great moment at Pomona, where, as recently shown by President Blaisdell some sixty-eight per cent, of our graduates are now "going on" into advanced train- ing. Our method of teaching in college biology has been one as free as possible from mechanical and minutely prescribed routine, rich in laboratory and field work, full of first-hand training and of personal discussion and guidance, in every phase of the work, for every stu- dent. This opens up that higher and better college possibility of handling students, not in groups, en masse, by the ordinary "class" system, but as individuals, each for his own sake, and with methods adapted to his own peculiar needs and capacities, and by this inviting avenue we shall pass onward and upward to some of the greatest possibilities in modern education. Finally, among our lines of "junior research," we have included a great deal of work in limited aspects of comparative anatomy which invariably furnishes great treasures of deep interest to all of our students, numerous simpler possibilities in ecology, life histories, economic relations, faunal, floral, and distributional studies, many of these being capable of the finest possible treatment at the hands of advanced college students 14 Jfir0t annual Report who have had the necessary basic training. Of course, all subjects requiring extensive apparatus, complicated technique, great numbers of highly specialized courses, or more than ten to fifteen hours per week, are taboo here and belong to the real university. For such work as we undertake, our equipment is unusually adequate, and will lie so maintained. Some of the best students we have are earning their way through college, wholly or in part, and are desperately crowded for time throughout the semesters. For these and for others with a limited number of extra hours, a great opportunity in the summer is a God- send! The Marine Laboratory at Laguna Beach gives us exactly the fullness of possibility in this direction that we formerly lacked. The professorial staff gives unlimited time to this seaside enterprise without tuition charges, even standing on the same basis as the stu- dents in matters of running expenses, bearing their share of the burdens of support as well as of work, and thus placing the oppor- tunities within the reach of any who may desire them. This attitude has established an "esprit du corps" that is remarkable in its sin- cerity and intensity. When an educational enterprise is put on foot and carried forward on the strength of free-will interest and desire in a group of students, the success of its work will be assured. So we submit this report and the principles it involves to the kindly criticism of the world of science and of education, above all other things as a study in practical pedagogy and more natural methods of instruction. C. F. BAKER. JLagtina S@arine laboratory 15 FOR THE FUTURE "CTING on the suggestion which originated with Mr. James T. Smith, a movement was started by the people of Laguna looking towards the permanent establishment of a marine laboratory at that place. This would involve, first of all, the erection of a suitable building, with aquaria, with facilities for the handling of a small stream of salt water, and with adequate labora- tory facilities for students. The Laguna Improvement Association took the matter up, and has pushed it along with most commendable perseverance. Their efforts were most generously met and sup- ported by the Laguna Beach Company this company offering to give a large plot of land and one thousand dollars towards a fund of four thousand to set the enterprise on foot and get the building started. The Laguna Improvement Association set out to raise the additional three thousand, and this has been partly subscribed. A tremendous effort is now being made to complete this amount. The matter of the publication of results was taken up at a joint meeting of the Laguna Improvement Association, representatives of the Laguna Beach Company (Mr. Bumstead and Mr. Jahraus) and representatives of the College (President Blaisdell, Dr. Cook and Professor Baker), and funds were at that time pledged, sufficient for the first year Dr. Cook, with his splendid optimism, assuming the heaviest share of this pledge. In the raising of his share of the pledge, Dr. Cook has had the sup- port of his friends, Mr. C. E. Harwood, Mr. N. W. Blauchard, Mrs. Eenwick, Mr. C. C. Eeynolds, the Kingsley, Mason and Collins Co., and three others. The Laguna contribution to the publication fund came from Mr. H. Gr. Heisler (for the Laguna Beach Company), Mr. L. N. Brooks, Mr. J. N. Isch, and Mr. James T. Smith. After a building becomes a reality, then we shall take up the fight for proper facilities especially aquaria, books and boats. More than any other one thing, we shall need a strong, large, power boat, for extending the radius of our activities up and down the coast, and for work in the deeper waters off shore. We shall need most urgent- ly a fuller equipment of nets, traps, tangles, and other collecting devices. We shall need a fuller equipment of aquaria than we can get 16 jfim annual deport with funds in sight. An immediate necessity facing us is the need for books, the larger works of reference, standard works on marine exploration, the reports of other marine laboratories, and many special papers. All of these things we shall push hard for, and we are hoping that all friends of such work will stand witli us loyally in this great effort. We hope to establish important co-operative relations with other laboratories of the sort, exchanging publications and material with them, and perhaps also, table facilities. There is not a point on the whole coast where the great west coast lobster (Panulirus intcrrup- tiix) could lie better investigated, or where abalones are more abundant, and none better for investigations along many other lines of marine biology, so that we hope to interest the Fish Commission in our efforts, get them to contribute full sets of their invaluable reports and bulletins, and perhaps to co-operate in other ways. The future is big with possibilities for this enterprise, educational and otherwise. It will take energy and hard work to realize these possibilities, but we are confidently expecting that many who appre- ciate great effort in great educational enterprises, will participate in it with us. We invite all such to join us ! C. P. BAKER. Laguna 0arinc Laboratory 17 TABLE OF CONTENTS 1. MKTX, C. W. Tlu> Fishes of Laguna Beach, California, I. '2. HUBTER, JULIUS Ain]iliil)ians and Reptiles collected at Laguna Beach. .'!. GUERNSEY, MAUEL Observations on Certain Mollusca of La- guna. 4. BERRY, S. S. On a Cephalopod new to California with Note on Another Species. 5. BAKER, C. F. Some Echinoderms collected at Tjaguna. (i. HALL, H. V. M. Studies in Pycnogonida, I. 7. BAKER, C. F.^-Notes on Crustacea of Laguna, I. 8. STAFFORD, BLANCHE E. Studies in Laguna Isopods. 9. STOUT, VINNIE E. Studies in Laguna Amphipods. 10. COLE, F. E. Some Diptera of the Beach at Laguna. 11. DYAR, H. G. Lepidoptera collected at Laguna Beach, California. 12. BUSCK, AUGUST Microlepidoptera from Laguna Beach. 13. BAKER, C. F. Some Coleoptera of the Beach at Laguna, with descriptions of new species by Dr. M. Bernhauer. 14. PAINE, J. IT. Mallophaga from Birds of Laguna Beach. 15. HALL, IT. V. M. Some Marine and Terrestrial Acarina of Laguna Beach. IH. GARDNER, LEON Notes on Birds of Laguna Beach. 17. GUERNSEY, JOT-IN Notes on the Marine Alga 1 of Laguna Beach. 18 Jfirst annual Ueport Showing region just north of pier are very accessible here. at Imv tide. A large area of rich tide pools ilaguna Marine ILaboratorp THE FISHES OF LACUNA BEACH, CALIFORNIA, I. CHARLES W. METZ The present paper is a result of a study of the tide-pool and in- shore fishes found in the vicinity of Laguna Beach and Newport Beach, Orange County, California. The material for the work was obtained during July and August, at the 1911 session of The Laguna Marine Laboratory. The main object of the study has been to make as complete as possible a survey of the local shore fishes, together with observations and dissections bearing on their ecological rela- tions. In the immediate vicinity of Laguna Beach is an unusual abundance of tide-pools, large, varied, and rich in aquatic vegeta- tion, offering exceptional opportunities for shore work. For this reason an especial effort was made to work the pools and in-shore waters exhaustively throughout the limited time of our stay. No attempt has been made to cover the deep water fishes, or fishes that are not typically shore forms. Occasionally, however, representa- tives of the deej > water species were brought in by fishermen or accidentally taken near the shore, and these have been mentioned in their places. Likewise a few notes on species taken at other locali- ties along the coast have been included when they were of especial interest. Most of the work in this study was done at the Laboratory in Laguna Beach, under the direction of Professor C. P. Baker, to whom the author is greatly indebted for assistance in many ways. Por- tions of it, however, have been since completed at Stanford Univer- sity; and I am indebted to Dr. Gilbert, and Professors Starks and Snyder, of that institution, for kindly suggestions and advice. It is with pleasure, also, that I take this opportunity of thanking Mr. J. E. Sender, owner of the fishing launch "Ruth" of Newport Beach, for his hospitality, and his active interest in the work of collecting during the summer. The nomenclature here followed is that of Starks and Morris, in "The Marine Fishes of Southern California," except in a few cases where changes have been made since this appeared (1907). Any such changes are noted in the text. During the course of the work at Laguna the author became con- siderably interested in the gross visceral anatomy of the local fishes, especially where this related to the food and habits of species. Time did not permit of extensive investigations along this line; nor did the 20 Jfirst annual Report available material allow comprehensive work on any one group. Consequently the accompanying notes and figures relate to many widely separated species, so that little comparison can be made ex- cept iu a general way. Since, however, none, or very few of these common forms have ever been studied or described from the point of view of internal structure it is thought well to include herewith all the information gathered. It is interesting to note, even in what is included, the many modifications and variations that arise. Some of these are easily explained by the habits or food of the species, as for Figures 1 and 2. Rhinobatus productus Fig. 1, Ventral view of entire viscera, in natural position. Fig. 2, Same with organs separated to show form. The liver is thrown back, the alimentary canal stretched out, and the uro-genital organs pulled to one side. J, Liver. O, Ovary. Q, Kidney. D, Oviduct. R, Rectal gland. X, Spleen. Y, Pancreas. Numbers refer to corresponding regions of the alimentary canal. Figures 3 and 4. Aetobatus californicus Fig. 3, Ventral view of viscera entire. Fig. 4, Same with organs separated. A, Vent. D, Spleen. E, Pancreas. G, Pyloris. K, Kidney. L, Liver. M, Leydig's gland or Epididymis. O, Oesophagus. R, Rectal gland. S, Sperm sac. T, Testis. V, Vesiculae seminalis. W, Wolltian duct. Numbers relate to corresponding parts of the alimentary canal. JLaguna Q0arine Laboratory instance the similarity in internal structure of the "bat-fish" (Acto- batus californicus) and the "shovel nose shark" (Rhinobatus i>ro- ductus), whose viscera are correlated with bottom living habits and similarity of food, rather than bpdy structure or form. Other modi fications, on the other hand, such as that shown in the peculiar diverticulum or caeca! appendage of the stomach in Gymnothorax mordax, are not so readily understood, and offer interesting fields for speculation. In only one family, the Blennidae, were enough species obtained to allow any comparative study. But in this one alone some remark- able modifications are found, as shown in the accompanying figures. In this one family several extremes are typified, in regard to both form and structure of the visceral organs. The most peculiar of these is the great divergence from the comparatively short, compact viscera, with the long, coiled alimentary canal in such forms as Heterostichus or the Gibbonsias, to the extremely long, drawn out viscera and perfectly straight alimentary canal of the eel-like Xercr- pes fucorum. That this is not due solely to external form is shown by the intermediate visceral structure of Xiphidion rupestre, which in body form is extremely long and eel-like, just as is A'r rr //><. s- fucorum. Unfortunately only enough has been done to show a few of the extremes, and not enough to indicate relationships between genera. But even this indicates that a comprehensive study of this large and varied group in its entirety could not fail to bring out some important and interesting facts in regard, both to individual species and to their inter-relationships. Family EPTATRETIDAE Eptatretus stouti (Lockington). Hagfish. Not common. A few specimens taken on set lines, or brought in by fishermen at Laguna. Family CARCHARIIDAE Mustelus californicus Gill. Dog-shark, Oil-shark. Abundant at Newport and common at Laguna. Triakis semifasciatus Girarcl. Little Leopard Sharp. Found commonly in the vicinity of Laguna and Newport, but never abundant. Taken on set lines close to the shore at Laguna. Carcharias laminella Jordan and Gilbert. Two specimens seen at Newport are thought to be this species. 99 JFim annual deport Figure 2. Rhinobatus productus; female. (Explanation under Figure 1) lUgumi @arine ILabomtorp 23 Family LAMNIDAE Lamna cornubica (Gmelin). Mackerel Shark. (Plate II, Figure H) One specimen, 4!/2 feet long, taken about ten miles southeast of Laguna in a barracuda drift net on July 26. This species is not re- corded by Starks and Morris, but is said to be, "not rare in Califor- nia," (Jordan and Evermann, Fishes of N. and Mid. America, Vol. I, p. 49). The specimen taken near Laguna was brought ashore and kept for some time, so there can be no question as to the identity. The accompanying photograph shows the general appearance of the fish. Family SQUATINIDAE Squatina squatina (Linnaeus). Angel Shark. Several specimens of this species were taken by the fishermen in rather deep water off Newport. Family RHINOBATIDAE Rhinobatus productus Ayres. Shovel-nose Shark, Guitar Fish. (Figures 1 and 2, and 2 A) This was the most common ray found in the vicinity of Laguna. At Newport Beach a favorite sport of the "Sunday fishermen" is catching these large rays from the pier, where numbers take the bait and are hauled up every day. The following notes were taken on a female specimen four feet long. Measurements in hundredths of body length. Snout to pos- terior apex of pectoral, 38 ; snout to ventrals, 18 ; snout to first dorsal, 59 ; distance between dorsals, IQi/o ; tip of snout to vent, 41 ; breadth across pectorals, 34 ; height of first dorsal, 7.3 ; second dorsal same ; length of abdominal cavity, 19.5. The abdominal cavity is very broad, the anterior two-thirds being nearly square. Posteriorly it narrows decidedly, both dorso-ventrally and laterally, due to the intrusion of the vetebral column and pectoral fin cartilages. This shape is well shown by the outline of the viscera in the accompanying figure (Figure 1), which is taken from this specimen. Figure 1 shows the viscera entire, in its natural position as found in the body cavity. Figure 2 represents the same with the various organs separated from one another sufficiently to show their individual forms. The ali- mentary canal is severed just in front of the liver. In Figure 1 a somewhat distorted appearance is given to the viscera by the en- larged oviducts, each of which is swollen with a well developed egg. The liver is trilobate, the lateral lobes extending a short distance 24 JFirst Annual Report along the sides, partially covering the oviducts and ovaries, the middle lobe extending mesially an equal distance, then lapping over the left side, covering the stomach. The alimentary canal is very definitely divided into oesophagus, stomach, pyloric tract, spiral valve (or colon), rectum and cloaca. Both spleen and pancreas are well developed, the former lying along the right side of the stomach, Figure 2a. Young Rhinobatus productus the latter fastened to the intestine at the anterior end of the colon. The spiral valve in this species makes eleven complete turns, the bore in the first two or three being quite large, after which it is uniformly small to the end where it broadens out considerably in the rectum and still more in the cloaca. Exactly even with, and below the open- ing of the colon into the cloaca is the similar oviducal aperture, a single aperture since the two oviducts coalesce just before reaching ILaguna ILa&oratorp 25 Figure 4. Aetobatus calif ornicus; male. (Explanation under Figures 1 and 3) 26 jFim annual Report the cloaca. Along the base of the oviducts on each side (dor sally) may be seen the kidneys ( Figure 2 A), each of which gradually diminishes in size, ending about the middle of the oviduct. Along the anterior and ventral side (appearing on top in figure) of the oviducts are the ovaries, attached throughout their anterior part to the ovi- ducts and posteriorly to the rectal gland, (Figure 2 R). The ovaries and oviducts appear entirely out of proportion in the figure on account of the large ova in the latter. Aside from this the relation- ships of the various organs may be seen from the figures. The oviducts, instead of being separated as shown, normally extend dor- sally over the stomach (as the fallopian tubes) and then down around the oesophagus in front of the liver, fusing below except for the common opening into the abdominal cavity. The male urogenital organs of Rhinobatus productus resemble in general those of the same sex of Aetolxttux c/iHforniciix, as noted under that species, except that in the specimen examined the testes are well separated and distinct throughout their length. On August 14th a female of this species was taken just as she was about to bear young. In fact, two of the latter were just emerg- ing from the cloaca. The brood consisted of four males and one female, all of the same size. The mother was a large specimen, measuring 119 cm. in length, and 38 1 /-; cm. across the pectorals. In addition to the five young she contained seven well developed ova, each as large as a hen's egg. It is possible that she had already given birth to some young in the water before being caught. The following notes were taken on the five young secured: All were alive and normal ; the tail of one and head of another were pro- truding from the cloaca at the time of capture, indicating that they may be born either head or tail foremost. Only this one individual, however, appeared tail foremost. All five were of the same stage of development, with no signs of yolk-sac or other embryonic attach- ments. One of the males gave the following characters, with which the others essentially agreed: Measurements in mm. Length, tip to tip, 238; to spiracles, 35; to eyes, 37; to base first dorsal, 145; to mouth, 47 ; to base second dorsal, 180 ; to posterior tip of pectoral, 104; width mouth, 16; interorbital, 11; breadth across pectorals, 88; tip snout to first gill opening, 56; to vent, 112; length ventrals, 36; height first dorsal, 13; second, 13; length caudal, 34; distance be- tween two anterior gill openings, 39 ; two posterior, 26 ; length clasp- ers, 16, not quite reaching ventrals. Twenty-two spines along back in front of first dorsal ; seven more between dorsals, and two small ones behind second dorsal; two spines on each shoulder opposite fourth dorsal spine, about on a line with inner and outer borders of orbit respectively ; a row of six spines above inner margin of orbit, laguna 60arine Laboratory and tliree irregularly placed spines in front of these ; a row of twenty-two spines along each rostral cartilage, ending opposite orbit. Above tip of the snout is a broad flap or tentacle, with five short lobes on its apical margin. Skin smooth, and mostly mucus covered, except on inter-orbital where it roughened with minute prickles. Outer margin of pectorals translucent, the rays plainly visible; rostral cartilages converging for most of their length, then diverging at tip, but nowhere confluent. Claspers very small, not reaching tips of ventral rays. In the other specimens the number of dorsal spines along the back varied from twenty to twenty-five in the series before the first dorsal, and also varied a little in the series around the orbits. Food Stomachs of adults of this species all contained small Crustacea (crabs, shrimps, etc.), and a number of polychaet worms. No other food was found. Platyrhinoides triseriatus (Jordan and Gilbert). Hornback. Three specimens were secured in rather deep water off Newport, where it is reported common. Family RAJIDAE Raja inornata Jordan and Gilbert. Common Skate. A specimen seen at Newport was identified as this species. Its abundance could not be determined. Family DASYATIDAE Urolophus halleri Cooper. Round String Ray. Common at Newport and probably at Laguna, although no speci- mens were taken by us at the latter place. Pteroplatea marmorata Cooper. California Butterfly Ray. One specimen of this species was taken at Newport. No informa- tion could be obtained as to its abundance. Family AETOBATIDAE Aetobatus californicus Gill. Batfish. (Figures 3 and 4) Fairly common at Newport and Laguna. The following notes with accompanying figures were taken from a male specimen 470 mm. in length, and 790 mrn. across pectorals : Measurements in huudredths of length. Tip snout to base ventrals, 81 ; to mouth, 12 ; to eye, 5.5 ; interocular space, 16 ; width mouth, 14 ; length abdominal cavity, 49 (230 mm.) ; breadth same 28 (130 mm.). The backbone makes a deep ridge in the posterior dorsal part of the abdominal cavity, leaving a deep groove on each side in which the 28 jfirst annual deport kidneys lie. The general shape of the abdominal cavity may be seen from that of the viscera (Figure 3), which conforms to it in outline. As may also be seen, the shape quite closely resembles that of Rhino- bat us productus, in spite of the extreme difference in external form of these two species. It is interesting to note that in the batfish, having a breadth one and seven-tenths times its length, the abdom- inal cavity is even narrower and longer than in the "shovel nose" with a breadth of only one-third the length. Evidently the shape of the abdominal cavity is not determined by the external form in these species, but rather is coincident with the depressed body and similar habits of the two. The alimentary canal, liver, spleen and pancreas will be seen to closely resemble those of R. productus except that the liver is bilo- bate and somewhat larger. In Figure 4 the spleen is shown attached to the pyloric tract of the stomach, but in reality it lies between and against the two divisions, as it does also in R. productus. The spiral valve in this species has twenty-two turns (just double the number of R. pr//(/iictux), each being quite narrow, as shown in the figure. The pylori s is much farther in advance of the spiral valve than in the latter species, also. The urogenital organs are best shown in the figure (Figure 4). The testes in this specimen are united throughout the posterior half of their length, attaching at the common end to the rectal gland. Whether or not this is the normal condition of the species was not determined, as only one specimen was dissected. Dorsal of the middle of the testes extend the kidneys and Wolffian ducts, the former mainly developed posteriorly, as shown, the latter extending forward to the u'sophageal region, where they unite witli the vasa efferent ia from the testes. Posteriorly the Wolffian ducts (vesicula? seminalis) and the sperm sacs open into the cloaca by a single pore, the urogenital sinus, which is well beyond the anal opening of the alimentary canal. Other relationships may be seen from the figure. In the stomach of this specimen was found a considerable amount of meat, but so chewed up as to prevent identification, except that the remains of several polychaet worms were recognizable. No chitinous or bony remains were found, and apparently this specimen had eaten no crustacean or vertebrate food. Family CHIMAERIDAE Chimaera colliei Lay and Bennett. Chimaera, Ratfish. One specimen brought in by fishermen at Newport; presumably from deep water. Lagtina Cpirine Laboratory o Figures 5 and 6. Gymnothorax mordax No. 5, Ventral view of viscera in their natural relative positions. No. 6, Same, with organs separated. M. Liver. N, Air bladder. O, Gonads. Q, Spleen. R, Caecal pouch or diverticulum from stomach. Z, Gall bladder. Figures 7 and 8. Girella nigricans Fig. 7, Viscera entire, ventral view. Fig. 8, Alimentary canal removed. A, Heart. B, Liver, with gall bladder. C, Urinary bladder. Numbers refer to corresponding regions of the alimentary canal. so jfirst annual EUport Family MURAENIDAE Gymnothorax mordax (Ayres). Moray, Eel. (Figures 5 and 6) Very common along the shore, especially the rocky stretches. Specimens of this species were taken in tide-pools, were found under rocks both in and out of the water, were often caught by rod fisher- men and were occasionally taken on set lines at moderate depths. In visceral anatomy the "Moray" shows striking characteristics, when compared with the typical teleost forms. The most peculiar of these is probably the modification of the alimentary canal, produc- ing an extremely long extension of the stomach beyond the pyloris, so that the intestine connects with the stomach near the middle, instead of at the end of the latter. The pyloric connection is very distinct in both form and texture from either the stomach or the intestine, being a short, narrow "elbow-like" tube, thick walled and muscular. The stomach is comparatively thick walled, and definite in shape, while the intestine is thin walled and lax. Other characters may be seen from Figures 5 and 6. The organs shown as the base of the liver in Figure 5 are the divisions of the heart, and are not indi- cated in Figure 6. Family CLUPEIDAE Sardinella caeruleus (Girard). Sardine. Abundant at Newport and Laguna. Young individuals occasion- ally taken in tide-pools. Family ENGRAULIDAE Anchovia compressa (Girard). Anchovy. Very common at Newport, and probably off Laguna also. Engraulis mordax Girard. California Anchovy. Only one specimen taken at Newport, but reported by the fisher- men as being common. Family SYNODONTIDAE Synodus lucioceps (Ayres). Butter Fish. One specimen, seventeen inches long, taken at Newport. Family BELONIDAE Tylosurus exilis (Girard). Needle Fish. One specimen taken at Newport. Reported by the fishermen as being fairly common. Laguna Laboratorp Family EXOCOETIDAE Cypselurus californicus Cooper. Great Flying Fish. Common in the channel between Santa Catalina Island and the mainland. Seen occasionally along the coast near Laguna. One specimen, (photograph Figure 4a), caught in a drift net at Laguna. Figure 4a. Cypselurus californicus Family ATHERINIDAE Atherinops affinis (Ayres). Smelt, Pescadillo Del Ray. Abundant at Newport and Laguna throughout the summer. Family SPHYRAENIDAE Sphyraena argentea (iirard. Barracuda. Very common off the coast of Southern California, usually run- ning in schools. This is the main market fish taken at Newport dur- ing the summer, when it is caught in drift nets, and by trolling, or "jigging" as the fishermen call it. 32 Jftr0t annual Report Family SCOMBRIDAE Scomber japonicus Houttuyn. Mackerel. Very common in deep water. Often taken by the barracuda fish- ermen. Thunnus thunnus (Linnaeus). Tunny, Tuna. Several taken by fishermen at Newport and Laguna. Germo alalunga (Gmelin). Long Finned Albacore. At certain times during the summer these were locally taken in abundance by the fishermen on "jigs," or troll lines. Scomberomorus sierra Jordan and Starks. Spanish Mackerel. Common. Often found in the market, but not valued as food. Family CARANGIDAE Seriola dorsalis (Gill). Yellow Tail. Often taken by the fishermen off Laguna and Newport, where it is prized as food. Trachurus picturata (Bowdich). Horse Mackerel. This, in company with the Spanish Mackerel, often found in the markets, but used even less than the Spanish Mackerel for food. Family STROMATEIDAE Peprillus simillimus (. \yres). California Pompano. A few specimens taken at Newport. Apparently not very common. Family SERRANIDAE Paralabrax nebulifer (Girard). Rock Bass. One specimen, twelve inches long, taken in deep water off New- port. Apparently not abundant. Paralabrax clathratus (Girard). Cabrillo. Caught by fishermen at Newport, where it, like P. iicln/Jifcr and others, is known as "Eock Bass." Family KYPHOSIDAE Girella nigricans (Ayres). Green-Fish. (Plate I, A, and Figures 7 and 8) This is the most common fish in the tide-pools near Laguna, especially those pools having little or no vegetation in them. In the high, shallow pools the young are often found by hundreds, and are easily distinguished as they swim about, because of the conspicuous light spot on each side of the back. In the larger, lower pools older LiUwnitnrp specimens are found, some ranging to over a foot in length. The older ones, however, do not commonly remain in the pools, but live in deeper water around the rocks and beds of alga?. In individuals over three or four inches in length the light spots on the sides arc obsolete. Many specimens of various sizes were taken. The accompanying figures and notes were made from a specimen 220 mm. in length. Figure 7 shows the contents of the body cavity with all the organs in their natural position. The great number of pyloric caeca, and the long convoluted alimentary canal are very conspiciious features, re- lating to the food habits of the species. Figure 8 (reduced to one- half the scale of Figure 7) is an outline of the alimentary canal, removed to show the nature of the convolutions. Corresponding numbers in the two figures refer to corresponding parts of the canal. The stomach is not so conspicuously differentiated from the rest of the canal as it is in many of the lower fishes previously noted. As seen by the figure, the oesophagus, stomach, spleen, etc., are all cov- ered ventrally by the intestine, which winds back and forth in a devious course below them. Instead of extending in a series of turns from the anterior to the posterior regions, the intestine appears well back (Figure 7 I) and after doubling across and back it makes a sharp turn (2 and 3) and then runs well forward around its last turn to (4) where it makes another sharp turn anteriorly (5), crossing over near the liver (6) and then down along the left side (8) to the anus. In Figure 8 the liver and gall bladder are shown separated from the rest. The gall bladder lies far back near the urinary bladder in the posterior part of the abdominal cavity, and is con- nected with the liver by its long, tube-like duct. The alimentary canal in this specimen measured 550 mm. in length, or two and one-half times the total body length of the fish. The food, as one would expect, is entirely vegetable, so far as known. Specimens dissected contain only pieces of kelp, red alga?, etc. One large specimen twelve inches long had eaten several large chunks of kelp several centimeters in length. Family SCIAENIDAE Seriphus politus Ayres. Queen-Fish, White Croaker. One specimen taken at Newport. No information as to its abund- ance was secured. Sciaena saturna (Girard). Black Croaker. Fairly comnian at Newport and Laguna. 34 jfirst annual Report Genyonemus lineatus (Ayres). King-Fish. Many specimens of this species were taken at the Newport pier by rod fishermen during the summer. These were used for both food and bait. Umbrina roncador Jordan and Gilbert. Yellow-Fin, Yellow-Tailed Croaker. This species is taken in abundance at Newport, where it is valued for food. Menticirrhus undulatus (Girard). California Whiting. One specimen secured from Newport fishermen, who took it in deep water. Figure 4b. Cymatogaster aggregatus Family EMBIOTOCIDAE Abeona minima (Gibbons). Perch. This species was common at Laguna during the summer. Sev- eral young specimens were taken in the lower tide-pools. Cymatogaster aggregatus Gibbons. Viviparous Perch, Silver Perch, "Punkin Seed." (Figure 4 B) Abundant at both Newport and Laguna. Young occasionally found in tide-pools. Embiotoca jacksoni Agassiz. Black Perch, Red Perch. (Plate I, B) Very common in shallow water. Several large specimens of this species were taken in one of the larger tide-pools at Laguna. All were of the reddish brown variety. ILaguna Ratine La&oratorp Family POMACENTRIDAE Chromis punctipinnis ( Cooper ) Quite common at moderate depths around the kelp beds near Laguna, where it was easily caught with hook and line. Hypsypops rubicunda (Girard). Goldfish. The "Sunday fishermen" catch numbers of goldfish from the rocky points and coves along the coast. A few adult and young spec- imens were seen in the larger tide-pools near Laguna. Figure 8a. Sebastodes rastrelliger Family LABRIDAE Pimelometopon pulcher (Ayres). Sheep's Head. One of the commonest species taken by anglers fishing from the rocks along the shore. Halichoeres semicinctus (Ayres) Abundant near the rocks and in the kelp beds. Commonly taken by rod fishermen. It can be easily distinguished by the large black blotches, one on each side just behind the pectorals. Oxyjulis californica (Giinther). Kelp-Fish, Senorita. Abundant around the kelp beds near Laguua, where it is easily caught on hook and line. Occasionally young specimens get into the tide-pools, but normally the species is found beyond the pools. 36 jfirst annual Report Family SCORPAENIDAE Sebastodes rastrelliger (Jordan and Gilbert). Rock-Fish, Sting-Fish. (Plate I, C, and Figure 8 A) Fairly common near the rocky shores. All the species of Scor- psenidae are eommonly known as "sting-fish," "spine-fish," or other names referring to the pungent dorsal spines. Sebastodes carinatus (Jordan and Gilbert). One specimen taken in moderately deep water off Laguna Beach. Sebastodes serriceps (Jordan and Gilbert) One very dark colored specimen taken near Laguna Beach. Scorpaena guttata Girard. Sculpin, Scorpene. Besides the mature fish, which are fairly common along the shore near Laguna, one young, brilliantly colored specimen about three inches long was taken in a tide-pool. The photograph shown in Figure E and the accompanying color notes are from this specimen. Ground color cream or grayish, but almost entirely concealed by the numerous markings. Chocolate colored markings appeared as follows: Large blotch or stripe on cheek below eye, another on pos- terior margin of opercle ; broad bar across base of pectoral, and another half way between this and tip; four broad irregular bands across body, extending on vertical fins, the last including caudal base; broad band, broken by darker spots near apex of caudal; large blotches covering basal half of anal and ventrals. Band across apex of all fins, and belly behind ventrals pink. Interorbital, and numer- ous spots on dark areas of fins, rufous. Caudal membrane yellow. Premaxillary, lower jaw, branchiostigals and throat spotted with silver. Membrane of ventrals blood red, except near apex. A large, irregular ocellus with black center and rufous border on base of 4-fi rays of dorsal, extending down on back. Median light bands on pectorals and caudal, and light bands on body cream color. Dark areas more or less spotted with cream or gray, and light areas with brown or silver. The variegated pattern is shown by the figure. Family COTTIDAE Scorpaenichthys marmoratus (Ayres) One large specimen, twenty inches long, taken at Laguna. Clinocottus analis (Girard). Rock-Fish. (Figures 9, 10 and 10 A) Next to Girella iiigricaiis this is the most abundant fish in the tide- pools near Laguua, and in the darker pools, and those without vege- tation it is the most abundant. The pools within a quarter of a mile ILaguna Laboratory 37 of Laguna contain thousands of individuals, so that large numl)ers were taken at different times during the summer. Considerable in- terest attaches to this species because of its remarkable color varia- tions. In the open, lighter pools specimens are very light ; among the green algae in certain pools they have a greenish color; in pools containing a variety and abundance of plant life they are usually mottled and blotched, often with brilliant colors ; and in the deep, narrow pools they are almost invariably dark. It would be iuipos- 9 Figures 9 and 10. Clinocottus analis Fig. 9, Ventral view of visceral and branchial organs. Fig. 10, Alimentary canal removed. Showing pharyngeal teeth. H, Heart. L, Liver. T, Testis. O, Stomach. K, Kidney. F, Urinary bladder. V, Vent. P, Papilla. Numbers refer to correspond- ing regions in the alimentary canal. JFirst annual Report sible to describe all the various shades and markings found in a random series, but a few of the main color types are here given. Although the fishes vary in a rough way to correspond to the pool in which they live, yet it is by no means true that they all agree in any one place. The light and dark shades are almost uniformly found in the pools corresponding, but in color pattern and brilliancy of marking no particular correlation to surroundings holds consist- ently. Especially is this true in pools with luxuriant algae and cor- raline growths, where all sorts of color patterns are found inter- mingled. No evidence of a so-called voluntary change of color by individual specimens was observed. Change in surroundings seemed to have no immediate effect on the color of any individual. Figure lOa. Clinocottus analis The general body color pattern of this species consists of five or six dark bars extending down on the sides, and usually an irregular dark area covering the upper part of the head. The fins, except ventrals, are all barred with narrow, dark, transverse bands on the rays. Below the body is variously speckled. In other respects there is no uniformity in coloration. No. 1. Taken from a specimen three and one-half inches long. General color dark ; bands on dorsum not conspicuous, faded out in a few minutes. Ground color of under parts pale bluish green, broken by numerous round silver spots. Dorsal fin with an apical row of blood red spots on the membrane between the rays ; caudal salmon color with an apical row of red spots like that of dorsal; pectoral with a row of silver streaks on the base of rays, remainder streaked with brown. Cheeks with numerous dots and stripes of salmon pink. JLaguna eparine La&omtotp 39 No. 2. Female, three and one-half inches long. Light; entire surface presenting a very speckled appearance. An apical band of yellow on spinous dorsal; no red spots; membrane of soft dorsal greenish; caudal faint salmon color. Spots on sides and belly salmon and silver mixed. No. 4. Very dark ; body bands almost black ; fins and entire body except region around pectorals dusky ; entire head, cheeks, and throat nearly black. (In other forms the throat is almost invariably light). Not only is this species extremely variable in coloration, but it shows the same tendency, though perhaps not to such an extent, in other characters. The following tables will indicate some of these: Fin Bays of Fifteen Specimens. D. IX-16; A. 13, (four specimens). D. IX-17; A. 14, (five specimens). D. IX-17; A. 13, (six specimens). Pyloric caeca usually 7-8, often 9 or even 10. Alimentary canal in length of fish in six specimens as follows: 1, 1.12, 1.2, 1.24, 1.36, 1.45. In the last case it is seen to be almost one-half longer than in the first. In spite of the difference in length, however, the general position of the canal in the body cavity is fairly constant, the extra length being given by small kinks here and there. The other visceral organs are also quite stable in form and location. (Note the contrast with Gibbonsia elegaus, which, like this species, has many variable characters). Figure 9 shows a specimen in which the body walls, and most of the head have been removed, leaving the internal organs from the gills back. The relatively small liver, and relatively large stomach and pyloric cffica are most noticeable, the stomach occupying a large portion of the abdominal cavity. The real proportions of the stomach are better shown in Figure 10, which is an outline of the alimentary canal, including the pharynx with its peculiar patches of teeth. The pertinence of such a large stomach, a comparatively short intestine, and the peculiar pharyngeal teeth pads, is evident upon examination of the food taken. Food Mainly Mollusca, Crustacea, and annulate worms, especial- ly the first. Of Mollusca there were found principally limpets, and other small lamellibranchs, and various gasteropods; of Crustacea, many small crabs, and a few amphipods ; of worms, chaetopods. No traces of plant food were found. One specimen 82 mm. long contained among other things an abalone 15 mm. long, and a section of a chfeto- pod 8 mm. wide. 40 JFirst annual deport Note on Blennicottus recalvus Greely (Figures 11 and 12) It is of interest to notice here, another small, tide-pool cottid, Blennicottus recalvus, which is of much the same appearance, and is sometimes found in the same pools with Clinocottus analis farther north. The accompanying figures and notes were made from speci- mens taken by the author at Pacific Grove, California, in April, 1911. Blennicottus recalvus is especially interesting here because it appears to be almost or entirely herbivorous. The very different alimentary canal is evident at a glance (Figures 11 and 12), being in this species twice as long in proportion to the body length. The walls of the canal, especially the stomach, are very much thinner and more elastic. In location, however, the canal agrees with that of CliiiocottuN intnlix, in lying along the right side of the body cavity, 11 Figures 11 and 12. Blennicottus recalvus Fig. 11, Ventral view of viscera entire. Fig. 12, Alimentary canal and uro- genital organs removed. E, Liver. F, Urogenital organs, male. ILaguna Sgarine Laboratory the left side being occupied by the urogenital organs. The details of arrangement and form may be best seen from the figures (11 and 12). The latter figure is drawn to a scale one-third smaller than the for- mer. In Figure 11, the vent is seen to be located some distance in front of the end of the cavity; a character not found in any other cottids examined. The food in the five or six specimens dissected was made up entirely of vegetable remains, principally foliose alga>, mixed with which were numerous grains of sand. Family GOBIIDAE Gillichthys mirabilis Cooper Morris and Starks record this species as "taken in abundance in a slough which received some fresh water near Old Town" (San Diego Bay), and, "in Newport Bay it was found more widely dis- tributed." In a small brackish slough in "Aliso Canyon" near Laguna large numbers up to two inches in length were found. The water in this slough was apparently derived mainly from the slight drainage down "Aliso Creek," but probably also received some salt water from the bay at the mouth of the canyon during the highest tides. Typhlogobius californiensis Steindachner. Blind Goby. (Plate III, P) One specimen, about two and one-half inches long, taken in the sand under a stone above low tide mark. The water was a few inches deep over the stone when the fish was taken, but a lower tide would leave it dry. Whether the fish remains under stones in such cases was not determined, as no other specimen was found. Family ECHENEIDIDAE Echeneis remora Linnaeus. Remora. One specimen brought in from deep water by fishermen at New- port. Family MALACANTHIDAE Caulolatilus princeps (Jenyns). Whitefish. Whiting. One specimen, thirteen inches long, taken in deep water off New- port. Family BATRACHOIDIDAE Porichthys notatus Girard. Midshipman. One specimen washed up on sand at Laguna Beach ; another taken by fishermen at Newport. Apparently not rare. 42 jTirst annual Report Family GOBIESOCIDAE Rimicola eigenmanni (Gilbert) (Plate III, I, J) This species was found to be fairly common in a little cove near Laguna, where it lived in a growth of Phyllaspadix (eel grass), in shallow water. Jordan and Evermann in "Fishes of North and Mid- dle America" record two species of this genus, R. eigenmanni and R. niiixc/inini, the one greenish, the other brownish in color, and suppos- edly differing in fin rays. They have since been shown to be simply forms of one species (J. (). Snyder, Proc. U. S. Nat. Mus. XXXV; 183, Oct. 1908). Both forms were found, presumably clinging to Plti/IIuxitddi.i', the green form resembling the living plants, the brown the dead ones. Whether or not the two forms actually selected the plants of their own color upon which to attach themselves could not be ascertained. A careful search was made to find individuals so attached, but it was unsuccessful. They detached themselves as soon as they were taken out of the water, if they were ever attached, and no specimens were seen in the water. The only way they could be taken at all was by means of a small hand net swept through the eel grass. Fifteen or twenty specimens were secured in this way. When put into vessels of water with live and dead Phyllospadix they seemed to show no preference in regard to color, attaching them- selves to either brown or green blades indiscriminately. In size the series ranged from one-half to one and one-half inches in total length. The following color notes were taken from fresh specimens: Green form: Upper parts translucent green, uniformly speckled with minute dark dots of brown ; head with two transverse rows of spots which intersect before the eyes and extend forward on the sides of snout, and backward to near the base of pectorals. A brown band extends from snout, through eye, to opercle; a similar one extends along the side of body through base of pectorals, becoming obsolete on tail and opercle. Caudal rays speckled like body, a dark band of spots across tip ; other fins white. Under parts before vent white, behind similar to dorsum. Some specimens have spots on head ir- regular, some have anterior and posterior lateral bars fused into one long one. Brown form : Quite similar to the green form in markings, but ground color brownish, like dead leaves, instead of green. One specimen is covered with olive green mottlings on a brown back- ground. Another has a row of large light spots on the posterior part of each side behind the pectorals. A wide range of variation is shown in even this small series of specimens. The two types of color, however, appear to be constant and equally common. After ILaguna Marine Laboratory 43 death specimens change color in water, the green fading to white. All specimens examined have live dorsal and five anal rays. Arbaciosa rhessodon (Rosa Smith) (Plate III, M, N, 0) Quite common in the tide-pools throughout the range worked over. Nowhere found in large numbers, however. Family BLENNIDAE Heterostichus rostratus (lirard. Kelp-Fish. (Plate II, (!, and Figures 13 and 14) Very common in the kelp close to the rocky shores, and in the outlying beds. Taken commonly by rod fishermen, who dislike it because of its bait-stealing proclivities. There are two color types in this species. The one a plain dull olive or drab, as shown in the photograph (Figure G), the other distinctly marked with longitudinal or transverse bands, much as is Gibbonsio critics. The latter form is described by Starks and Morris (Marine Fishes of Southern California, p. 232), as having "ground color light green; yellow on belly and under parts. Back and sides with three or foiir longitudinal dark green stripes, more or less broken up into spots, darker toward the edges and outlined with white. A similar stripe running from snout through eye, to upper edge of gill opening. Dorsal and anal mottled with alternate dark green and translucent spots; tip of mandible dark." In the transversely banded form of this the colors are the same, but the longitudinal bands are obsolete, being broken into eight or nine sec- tions forming irregular bars, which extend on the vertical fins form- ing dark blotches. At a glance this form might be confused with the similar form of Gibbonxiii evides (Figure Z), but the forked caudal, pointed snout, etc., readily distinguish it. Viscera The abdominal cavity is long and compressed, conform- ing to the shape of the fish, as indicated by Figure 13. The liver, as shown, is very large, underlying the whole anterior half of the ali- mentary canal and associated organs. The gall bladder is closely attached, and conspicuous, showing in Figure 13 through the slit just in front of E. Posteriorly a large air bladder is present, closely adhering to the dorsal wall of the abdominal cavity and extending two-thirds of its length. Perhaps the most conspicuous feature, how- ever, is the pair of gonads lying dorso-laterally, with posterior ear- shaped projections extending into a cavity behind the vent, as shown in the figure. The alimentary canal, which is shown diagrammatic- ally in Figure 14, is moderately elongate, (four-fifths length of fish), 44 jFirst Annual Hcport 13 Figures 13 and 14. Heterostichus rostratus Fig. 13, Ventral view of viscera entire. Fig. 14, Alimentary canal of same. G, Liver. E, Spleen, J. Gonads. H, Heart. Numbers refer to corresponding regions of the alimentary canal. Figures 15 and 16. Gibbonsia elegans Fig. 15. Ventral view of viscera. Fig. 16, Alimentary canal removed. A. Liver. B, Spleen. D, Oviduct full of ova. Numbers refer to corresponding regions of alimentary canal. laguna Racine ILa&oratorp rather thin walled, and little differentiated into stomach and intes- tines. Other details may be seen from the figures. Food So far as observed the food consists principally of soft Crustacea, (amphipods and isopods). The evidence would indicate carnivorous habits, but not enough specimens were examined to show whether they are exclusively so. A Study of GIBBONSIA Specimens examined: elegans. evides. Fort Bragg, California 3 Monterey, California .. ...160 65 Laguna Beach, California ...130 27 San Diego, California .. . 61 3 San Martin Is., Mexico 1 355 95 17 Figure 17. Gibbonsia elegans Diagrams to show variation in form and location of visceral organs. Measurements are as follows : Length : Tip snout to base caudal. Eye : Diameter. Snout to dorsal: Tip snout to base first spine. Eye to dorsal: Shortest distance between eye and first dorsal spine. Head : Tip snout to inner edge of notch on upper, posterior part of opercle. Scale counts : Three counts are used. One from anterior end of lateral line, along the lateral line until it curves down, then in a straight line to base of caudal; second from lateral line to base of dorsal just above axil of pectoral where the lateral line arch is high- est ; third above lateral line at the angle behind pectoral, the anterior end of straight portion. 46 jfirst annual deport Ocellated spots behind pectorals present; soft dorsal of 6-8 rays, very rarely 9; scales above lateral line (from lower angle) about 20-24; small, usually not over 100 mm. long'; color rich, usually variegated. cl No ocellated spots; soft dorsal of 11-10 rays, rounded; scales above lateral line, (counted as above) 32-36; larger, usually 100-200 mm.; brilliant colors lacking. ev'nlc* Gibbonsia elegans (Cooper 1 ) (Plate IV and Figures 15, 16, 17) Length to base caudal 4.5 times depth at anus; head 5 in length; eye large, diameter almost or quite equal to distance from eye to dorsal, 2.7 in distance from snout to dorsal ; scales, counted along anterior part of lateral line and thence on a level to base caudal, about 135; scales above lateral line at lower angle 20-24; scales above lateral line at middle of anterior, elevated portion 10-12; dorsal usually V-XXX. 7 or S in northern, and V XX VI II, 7 or 8 in southern speci- mens, but ranging from V-XXVII to V-XXXI in spines and 7-9 in rays ; anal 11-26 to TT-2S in northern, and 11-23 to 11-25 in southern specimens. (See charts). Body rather strongly compressed and deep, tapering rapidly behind; caudal peduncle slender; head short, upper outline convex, distance from snout to dorsal equal to depth at front of dorsal; mouth small, terminal, oblique; maxillary scarcely reaching pupil; lower jaw slightly projecting; teeth on vomer, none on palatines. Dorsal with first three spines elongate, graduated; first usually about 2.5 in head, but varying from 1.5-3; fourth, fifth, and sometimes sixth spines from one-third to one-half first, and shorter than following, but quite variable; third and fourth nearly twice as far apart as fourth and fifth ; remaining spines uniform, half to two-thirds length of first; soft dorsal short, high, abruptly truncate after third or fourth ray, first three or four rays (as the case may be) equal and close together, remainder abruptly shortened, and conspicuously farther apart ; membrane connecting them usually translucent. Body variously striped and barred, or mottled; always, so far as known, with one to seven ocellated spots along each side slightly above median line; first just above base of pectoral, remainder uni- formly separated and extending to base of soft dorsal ; first and last two most commonly found. Prevailing color variable, may be red, brown, olive, green, chocolate, or other rich shades. The typical color pattern is as follows: prevailing color chocolate brown, or dull red ; head dark above, broken by line running back from eye, through opercle to base of pectoral, and by irregular lines above this; head below lighter; cheeks spotted with silvery, lower half of iris silvery; JUgtimi Qfjarine Laboratory 47 body transversely, irregularly barred by seven or eight cross bauds, all of which usually extend on dorsal, and last four or five on anal; these are usually heavier at base of dorsal and anal, and in middle of side, having broken irregularly in a line running parallel to dorsal and about half way between it and lateral line, and broken along similar space above base of anal. Over the sides, breast, and often lower part of head are irregular spots and blotches of all sizes ; these and the cross bars outlined with white. Pectorals and ventrals light red, dorsal and anal dark, corresponding to body color. Belly lighter, tinged with yellow; chin and throat pinkish white. First, and last two ocellated spots present, each black ringed with red and then again with white. Another form commonly found differs as fol- lows : General appearance mottled and spotted, but without red; body above lateral line almost wholly dark, except for light edging of blotches ; below conspicuously lighter, but irregularly spotted and speckled, and broken by five or six bars extending from above, be- tween each two of which is usually a rounded spot. Top of head dark, with continuation of body markings below; lower half silvery spotted, and lighter, similar to lower part of body. Other specimens show almost every conceivable modification of pattern and color. Some specimens are plain dull green, or olive (Figure V), almost unmarked except for the ocellated spots; others are similarly plain, but reddish brown; still others have the red, brown or green almost obliterated by silvery spots and blotches, (especially younger speci- mens). Very young individuals are usually uniform dark red, with faint traces of the adult markings and a conspicuous broad silvery baud extending in a median line backward from eye, becoming broken near tail. A great diversity of color and pattern is found in any series, and can only be appreciated by an examination of the speci- mens. Something of this diversity, however, may be seen from the accompanying cuts, which are taken from fresh specimens, and illus- trate a few of the many color variations. Gibbonsia evides (Jordan and Gilbert). (Plate V and Figures 18 and I 1 .)) Depth at anus 4.9 in length to base caudal; head 4.7-5 in length; eye smaller, almost 1.5 in distance from eye to dorsal, and 3.25 in distance from snout to dorsal; scales counted on level of anterior part of lateral line, about 185 ; scales above lateral line at posterior angle 30-36 ; scales above lateral line at middle of anterior, elevated portion 18-22. Dorsal usually Y-XXX, !) or 10 but ranging from V-XXIX to V-XXXII in spines and from 8 to 10 in soft rays, (very rarely 8) ; anal II, 2(5-11, 27, rarely II, 28. (See figures). 48 Jfirst Annual Report Body as in G. elegaus, but more slender, tapering gradually be- hind ; head usually more slender ; caudal peduncle deeper. First three spines of dorsal not usually so high as in G. elegans, but quite vari- able; soft dorsal longer, outline rounded, not conspicuously truncate; rays usually all equidistant from each other; pellucid area small and not terminal. Shade and color pattern usually quite unlike that of G. eli'f/diix, neither the rich colors nor the ocellated spots being found. Usual color greenish or yellowish, "kelp color"; sides each with three or four dark longitudinal stripes, the upper running from snout through upper part of eye and along base of dorsal to caudal, 18 Figures 18 and 19. Gibbonsia evides Fig. 18, Ventral view of viscera entire. Fig. 19. Alimentary canal removed. L, Liver. S, Spleen. Numbers refer to corresponding regions in the alimentary canal. JLafftina e^arinc Laboratory 4!) 678 9 10 27 28 29 30 31 32 24 25 26 27 28 29 H 6 7 8 9 27 28 29 30 31 22 23 24 25 26 27 28 29 8 9 10 29 30 31 32 26 27 28 Diagram A. Variation of Gibbonsia so jFirst annual Report median sometimes appearing as two, extending from eye to tail ; lower one extending from base of pectoral toward tail. The dark hands are separated by lighter, sometimes silvery ones, and are often broken into blotches by a tendency toward cross-banding; distinct cross bands, however, are lacking except in rare cases. Belly and throat often bright yellow. The detail of color pattern is variable, but the general form is quite constant, much more so than in the preceding species ; and the fine, variegated, silvery or other bright colored mottlings are always lacking, although young specimens may have bright silvery bands. DIAGRAM A. Curves of Variation in Fin Bays of Gibbonxia riff/mix and GibboHsia evi(Jt <. A, B, C. Specimens collected at Monterey, California. Continuous lines Gibboiiftia elcgans, (curves plotted from 1(50 specimens); broken lines Gibbonsia rriWr.s, (from (55 specimens). A. Rays of soft dorsal. B. Spines in spinous dorsal. C. Bays in anal. D, E, F. Variations in G. elegaux.* Continuous lines Monterey specimens, (!(>()) ; broken lines Laguna Beach and San Diego specimens, (190). D. Rays in soft dorsal. E. Spines in spiuous dorsal. F. Rays in anal. G, H. I. Variation in G. evides. Continuous lines Monterey specimens ((15) ; broken lines Laguna Beach and San Diego specimens, (30). G. Rays in soft dorsal. H. Spines in spinous dorsal. I. Rays in anal. Numbers at the bottom from left to right indicate fin rays. Num- bers at the side from bottom to top indicate percentage. The curves are plotted on a percentage basis. Not all are drawn to the same scale, however, as may be seen. Extuiipli' . In G. the continuous line shows that of the Monterey (northern) specimens, 37> have 8 rays, 63 r /< have 9 rays and .'!4'. have 10 rays. The broken line shows that of the Laguna and San Diego (southern) specimens, 10 '/ have 8 rays, 6.'5'/< have 9 rays and 277' have 10 rays. Gibboitxin I'li'f/aiis may usually be distinguished from G. evides at a glance, by its rich colors, variegated markings, and the presence 'Specimens from Laguna Beach and San Diego are almost identical, i. e., show almost identical variation curves, so are here combined to represent the southern specimens. JLaguna 0arinc JLaftoratorp of ocellated spots. Otherwise the two species differ in the number and size of scales, G. elegant having fewer, larger scales than G. ecides; also in shape and in number of rays of the soft dorsal, in shape of caudal peduncle, in size of eye and its distance from dorsal, and in general shape of body. On the Southern California coast the two species may be readily separated by the difference in fin rays, G. elegans having a dorsal of V-XXVII to V-XXIX spines and 6-8 rays, and an anal of 11-22 to 11-25, while G. evides has a dorsal of V-XXVIII to V-XXXI spines, and 9-10 rays, and an anal of 11-26 to 11-28. Farther north, however, the species overlap, except in the rays of soft dorsal. In size both the average and full grown speci- mens of the two species differ greatly, G. evides being much the larger, averaging about 125 to 150 mm. in length, where G. elegans averages about 70 to 80 mm., and reaching a length of over 200 mm. while the largest specimens of G. elegans are less than 125 mm. Formerly these two species have been separated by the fin counts alone, which resulted in many northern specimens of G. elegans being included under G. evides. Such a distinction, however, will not hold. I have examined all the material in the Stanford University collec- tion, upon which nearly all reports on this species have been based, and find that northern specimens of both species having an increased number of fin rays have been called G. evides. Starks and Morris, (Marine Fishes of Southern California, p. 233), state that at Mon- terey Bay only one specimen of G. elegans was found among about a hundred of G. evides. An examination of 225 specimens from this locality, including the latter lot, shows both species present, and G. eli'f/ans represented by 160 specimens, to 65 of G. evides. Both of these species are very common in the tide-pools about Laguna Beach, and probably continue so along the coast in favorable localities from San Diego to San Francisco or farther. Apparently G. eli't/ans is always the more abundant of the two. This is certainly true on the southern coast, and judging from the material taken at Monterey it holds true in the north also. The species are commonly found associated in the same pools, living among the algaB, and other kinds of vegetation, where their singularly variegated markings render them inconspicuous. rise-era : G. elegans Internally, in the size, form and shape of the visceral organs, Gibbonsia elegans shows the same tendency toward wide variation that appears in external characters, but not in any way conformable to this. A typical specimen is shown in Figures 15 and 16, but from this type there are all sorts of variations in form and arrangement of organs, a series of which are represented dia- gramatically in Figure 17. The liver in some specimens is twice as large as in others ; in some it is elongate, in others broad and short, 52 Jfitst annual Report or intermediate. The alimentary canal is ordinarily as shown in Fig-ure 16, being about three-fifths the length of the fish, but in some specimens it is much longer. It lies mainly in the right side of the abdominal cavity, never in the left. The stomach is only slightly differentiated from the remainder of the canal, and has no pyloric ca?ca. The food of Gibbonsia elegans is both vegetable and animal, with perhaps a predominance of the latter. Many of the specimens con- tained small molluscs (especially limpets), crustaceans (crabs, am- phipods, etc.), and minute worms, while a few contained large amounts of foliose red alga?, which are common in the pools. Viscera : Gibbonsia critics In the larger species, G. evides, the viscera is little different from that of G. elegans, except that the ali- mentary canal is normally longer, being about nine-tenths the length of the fish. Figures 18 and 19 indicate the principal features of im- portance. The stomach in Figure lil is shown distended with food, which makes it appear quite different from that of G. elegans, a difference which is only apparent, however. The alimentary canal is very thin walled, and easily distended in both species. The food habits of this species are apparently not appreciably different from those of G. elegans. In the specimens examined about the same range of food materials was found, i. e. small molluscs, crustaceans, worms and bits of alga\ Neoclinus satiricus Giranl (Figures 20 and 21) One specimen, nine inches long, taken alive in a baited trap off Newport Beach. It was very pugnacious while alive in the rowboat, and would snap viciously at anything put near it. It would turn round and round in the water, always keeping its eye on any object moving close to it. The writer, while observing the fish, incautiously got his fingers a little too near the fish's head, with the result that they were savagely snapped and the fish was thrown several feet away on the beach by the backward jerk of his hand. The specimen is slate blue all over, without any bars or spots. The accompanying notes and figures were taken from this speci- men : Abdominal cavity placed far forward, extending in front of ventrals to between pectorals ; very short ; vent at posterior end. Liver very large, broad. Alimentary canal of large bore, short, (one- half length of fish), thick walled and muscular; stomach well differ- entiated from remainder; rectal portion thickened and tough, like a gizzard. No pyloric caeca. Figures XX and XXI show the gross characters of the viscera in their natural positions, and of the ali- mentary canal separated from the rest. From the latter figure the ILaguna Ratine Laboratory 53 differentiation into stomach, small intestine, and rectum may be plainly seen. Food The alimentary canal was empty except for one or two fish bones. This, and the fact that it was taken in a baited trap, would indicate that the species is carnivorous. A conclusion with which the visceral organs, teeth, etc., fully accord. Auchenopterus integripinnis (Rosa Smith) (Plate III, K, and Figures 22, 23) Not uncommon in the tide-pools about Laguna Beach. Females with fully matured ova were taken in July. A richly colored, varie- gated species, of one to three inches in length. The accompanying figures and notes were made from fresh specimens taken in July. r T 21 Figures 20 and 21. Neoclinus satiricus Fig. 20, Ventral view of viscera, entire. Fig. 21, Alimentary canal removed. H, Liver. G, Gonads. Numbers refer to corresponding regions in the alimentary canal. 54 Jfirst annual Eepoct No. 1. Ground color ochraceous, lighter on throat and belly ; sides with five fairly distinct transverse bands of brown extending on vertical fins; caudal peduncle with a similar bar; a dark narrow band across base of caudal, and a similar one across middle of pectoral. Caudal membrane yellow, rays spotted with rusty ; anal light at base, darker apically; apical half of pectorals similar to caudal. Cheeks and mandibles speckled with dark brown. Ocellated black spot with yellow margin at base of dorsal behind twentieth soft ray. Other specimens have pink where this had yellow, with ground color rosy. Some are very dark, with cross bars on sides indistinct. One specimen has pink between the cross bands on sides, and yellow 22 Figures 22 and 23. Auchenopterus integripinnis Fig. 22, Ventral view of viscera, entire. Fig. 23, Alimentary canal removed. A, Liver. E, Spleen. O, Oviduct. Numbers refer to corresponding regions of ali- mentary canal. JLaguna egarine laboratory 55 on fins as above. Another has neither yellow nor pink on body, but has a large livid purple spot on opercle and another at base of pectorals, and has belly and brancheostegals tinged with purple. The ocellated spot on all specimens begins behind the twentieth ray of soft dorsal. Ten specimens have dorsal rays as follows : 111-28 (one specimen). 111-29 (four specimens). 111-30 (two specimens). IV -28 (one specimen). None has 27 soft rays as stated in Jordan and Evermann. Four specimens dissected, show almost no variation in the form and location of the visceral organs. All are essentially as shown in Figures 24 and 25. Hypsoblennius gilberti Fig. 24, Ventral view- of viscera, entire. Fig. 25, Alimentary canal removed. A, Liver. B, Spleen. C, Gall bladder. D, Oviduct. Numbers refer to correspond- ing regions of alimentary canal. 56 .first annual deport Figures 22 and 23. The abdominal cavity is quite short, and de- pressed rather than compressed, except anteriorly, where it narrows decidedly, the liver extending well forward along the oesophagus. The spleen is very small, the liver large. No pyloric caeca are present. Food The specimens dissected contained only small crustaceans (amphipods, etc.), no traces of plant food being found. Hyposoblennius gilberti (Jordan) (Plate II, F, and Figures 24 and 25) One specimen taken in a tide-pool near Laguna Beach. This species is reported by Starks and Morris (Marine Fishes of Southern California, p. 238), as abundant in the tide-pools near Point Loma and at San Pedro. Our observations show a decided contrast to this in the region of Laguna Beach, however, as only one specimen was obtained during the summer's collecting. The following notes and figures are taken from this specimen, a female 27 mm. long : Abdominal cavity greatly compressed, over twice as high as broad in front; no pyloric caeca; liver greatly compressed, nearly as high as long, triangular in lateral view; its right side not developed apically, but stopping in a straight line back from tip, as shown in Figure 24. The gall bladder is not enveloped by the liver, but lies on the right side as indicated, being connected with the liver by a long neck. The alimentary canal (Figure 25) is long, being seven-eighths of the body length, and not distinctly differentiated into definite re- gions. The inner lining of the stomach is densely covered with rela- tively long papilla?, looking like minute tentacles. Food Only traces of food were found. These were evidently plant remains, but so disintegrated as to make further identification impossible. Hypsoblennius gentilis (Girard). (Plate III, E, G, and Figures 26 and 27) One specimen taken in a tide-pool near Laguna Beach, and about twenty-five specimens at Long Beach. The latter were found among green algae in some small pools at the base of a number of old piles. They were all livid green when taken, but soon faded to the normal white color with gray markings. The accompanying figures and notes are from the Laguna specimen, a female 37 mm. long. This individual contained mature ova when collected in July. Visceral organs and abdominal cavity much as in H. gilberti. The long gall bladder, peculiarly shaped liver, and the alimentary canal do not differ essentially from the latter, as may be seen from Figures 26 and 27. Figure 26 gives a somewhat distorted view because of L.ujinni the swollen oviducts, which give a broadened appearance to the whole. Food Only decomposed vegetable matter was found in the in- testine. Xererpes fucorum (Jordan and Gilbert) (Plate II, D, and Figures 28 and 29) Several specimens taken at Point Firmin near San Pedro. None found around Laguna Beach although conditions almost identical with those of Point Firmin are found here. All of our specimens were taken at low tide from among the masses of eel-grass (Phyllo- xpadix) on the rocks above low water. About the roots of the grass and the irregularities of the rocks the fish can move with amazing ease, which, together with the slender, slippery body, makes it a diffi- cult object to capture. One specimen was found coiled aroiind a mass of eggs placed in a small depression in the rock, and well concealed by the matted grass Figures 26 and 27. Hypsoblennius gentilis Fig. 26, Ventral view of viscera, entire. Fig. 27, Alimentary canal removed. A, Liver. C, Gall bladder. D, Oviduct. Numbers refer to corresponding regions in alimentary canal. 58 jfirst annual IReport s w G H Figures 23 and 29. Xererpes fucorum No. 28, Ventral view of viscera, of male; separated to show the individual organs. No. 29, Similar view of female organs. G, Gall bladder. H. Heart. L, Liver. S, Spleen. T, Testis. V, Fat. O, Oviduct. LiiOoriUon> 59 above. The figure shows a photograph of the egg mass with the fish around it, (not in situ). Visceral anatomy: The abdominal cavity is long, slender and compressed, corresponding to the general shape of the fish. The alimentary canal is peculiar in being perfectly straight from mouth to vent, a condition not found in any other blennies examined. Three divisions, fore, mid and hind-gut are made evident by constrictions as shown in the figures, but no differentiated stomach, and no caeca are found. The gonads of each sex are apparently single, as shown. Lying along the alimentary canal are two characteristic, elongate bodies (v) which are apparent in all of our specimens, and which appear to be definite organs, but a histological examination shows 30 31 Figures 30 and 31. Xiphidion rupestre Fig. 30, Ventral view of viscera entire. Fig. 31, Same, with organs separated. A, Liver. B, Spleen. C, Pyloric caeca. D, Urogenital organs. E, Pyloris. st'n-luis group of blennies, and has pyloric cseca. The con- trast in general characters is best shown by the figures (30 and 31). Family PLEURONECTIDAE Hippoglossoides stomata Eigenmann and Eigenmann One specimen obtained from Newport Beach fishermen who took it in bottom nets near Newport. This species lias seldom been taken except in deep water, and is nowhere common so far as known, al- though it has been reported from several California ports. Paralichthys californicus (Ayres) Very common at Newport, as well as other Southern California fishing stations. Pleuronichthys ritteri Starks and Morris P. ritteri, Starks and Morris. Marine Fishes of Southern Cali- fornia 1907, p. 243. Commonly taken by the fishermen using bottom nets near New- port. Hypsopsetta guttulata (Girard) This species is also common on the sandy bottom near Newport. Laguna Qparine Haboratocg ci EXPLANATION OF PLATES Plate I A, Girella nigricans. B, Embiotoca jacksoni. C, Sebastodes rastrelliger. Plate II D, Xerepes fucorum, coiled around egg mass. E, Scorpaena guttata, young. P, Hypsoblennius gilberti. G, Heterostichus rostratus. H, Lamna cornubica. Plate III I, Rimicola eigenmanni, dark form. J, Rimicola eigenmanni, light form. K, Auchenopterus integripinnis. L, Hypsoblennius gentilis, dorsal view. M, Arbaciosa rhessodon, light form, dorsal view. N, Arbaciosa rhessodon, light form, ventral. 0, Arbaciosa rhessodon, dark form, dorsal. P, Typhlogobius californiensis. Q, Hypsoblennius gentilis. Plate IV. Gibbonsia elegans S, Very young. T, U. W, Progressive ages of the usual variegated form. V, Olive green, almost unmarked form. M, Chocolate colored, slightly marked form. X and Y, Odd forms. Plate V. Gibbonsia evides Z, Typical form, transverse markings emphasized. (Dorsal fin not extended). AA, Typical form with longitudinal marking emphasized. BB, Dorsal view. CC, Very young. DD, Somewhat older. EE, Odd form. 62 Jfirst Annual Report -A > / > . .:)'A^ c Plate I Plate I A, Girella nigricans. B, Embiotoca jacksoni. C, Sebastodes rastrelliger. Ctfurinr 1L allocator? 63 Plate II D, Xererpes fucorum and eggs. E, Scorpaena guttata, young. F, Hypsoblennius gilberti. G, Heterostichus rostratus. H, Lamna cornubica. 64 .first annual Report Plate III I, Rimicola eigenmanni, dark form. J, R. eigenmanni, light form. K, Auchen- opterus integripinnis. L, Hypsoblennius gentilis. M, N, O, Arbaciosa rhessodon. P, Typhlogobius californiensis. Q, Hypsoblennius gentilis. Laguna Laboratory 65 r J'/.,/c. IF Plate IV. Gibbonsia elegans 66 JFir0t annual /.-A Plate V. Gibbonsia evides ILaguna 6g)arine ILaboratorp <>7 REPTILES AND BATRACHIANS OF LACUNA BEACH JULIUS HURTER, SR.* ACADEMY OF SCIENCES, ST. LOUIS AMPHIBIA Bufo columbiensis Baird and Girard This large toad is quite common at Laguna. Hyla regilla Baird A number of specimens of this tree frog were taken one night after dark about the water tap behind the laboratory. REPTILIA Uta stansburiana Baird and Girard Common on the cliffs along the coast. Cnemidophorus stejnegeri VanDenburgh Occasional along the hills. Phrynosoma blainvilli Gray In the dry mountains back of Arch Beach. Eumeces skiltonianus Baird and Girard One specimen taken. Diadophis amabilis Baird and Girard One specimen of this small snake taken near the laboratory. Thamnophis hammondi Kennicott This water snake was taken in the slough at Aliso Creek. Rhinocheilus lecontei Baird and Girard One specimen taken just as it was entering a squirrel burrow. Crotalus spp. Rattlesnakes of perhaps several species certainly several marked color forms, are to be found in the hills about Laguna, as is indicated by numbers of fine skins in the possession of people living at Laguna. Good specimens of all these forms for study are great desiderata. Clemmys marmorata Baird and Girard This turtle was common in the brackish water slough at Aliso Creek, and eight good specimens were taken there. *Mr. Hurter spent a couple of days at the laboratory and used them most indus- triously, making in these two days a good beginning for a study of the amphibians and reptiles of the region. Especially interesting to us was the lizard, Uta, living practically within reach of the salt spray, and the turtle living in brackish water. Ed. 68 jfirst annual deport SOME OF THE MOLLUSCA OF LACUNA BEACH MABEL GUERNSEY Wishing to study the gross anatomy of the soft parts of some of the common mollusks of our Coast, and spending some time at Laguna in the pursuit of this object, I improved the opportunity to bring together all such species as came in my way to serve as the beginning of a faunal list of the local mollusks of the tidal zone. A set of most of the shells collected was sent to Dr.Dall, who very kindly gave us the determinations. Some of my anatomical work is not at all complete, but I am hoping to continue it another season. GASTEROPODA AMPHINEURA Ischnochiton clathratus Roe Ischnochiton magdalensis Mds. (Figure 3'2) Mopalia hindsii Gray Mopalia muscosa Gld. Nuttallina scabra Roe All of the above five chitons are found clinging to rocks between tides. The second species is by far the most common, while the last is quite rare. PROSOBRANCHIATA Acmaea scabra Roe (Figure 33) Common in tide-pools. Acmaea persona Esch. Common on rocks covered only by the highest tides. Acmaea spectrum Roe Distribution the same as Acmaea persona but much rarer. Acmaea asmi Midd. Found on other shells, usually of other limpets in tide-pools, and fairly common. Lottia gigantea Gray ( Figure 34) Found in a few channels where there is constant and violent wave action, and fairly numerous where found. Laguna egarine JLa&oratorp 69 B C Figure 32. Ischnochiton magdalencusis A, Alimentary canal. B, Reproductive organs. C, Alimentary canal and liver. Figure 33. Acmaea scabea 70 J7ir0t annual Ueport c Figure 34. Lottia gigantea A, Ventral view. B, Longitudinal section pharynx. C, Dorsal view after re- moving shell. D, Alimentary canal in liver (left side). E, Alimentary canal in liver (riijht side). F, Alimentary canal in liver (upper side). G, H, Alimentary canal. I, Radula. jtaguna Ratine Laboratory 71 Fissuridea volcano Roe Shells common to the beach in certain localities. Living animals sometimes found in the lower tide-pools. Evidently living Lucapina crenulata Sby. (Figure 35) A fine living specimen found at very low tide, mostly below low tide. Haliotis spp. Young specimens of several species are frequent in the lower tide- pools. Large specimens could only be found below low tide. Aba- lones have evidently been very abundant at Laguna Beach, but whole- sale gathering is depleting them very rapidly. One raid by Japanese fishermen who worked with diving suits, resulted in a very large catch. These fishermen were arrested and fined a nominal amount and were then allowed to depart with their entire catch a pure travesty. It seems probable that by protection, and breeding, a fisheries asset of great value might be built up on this coast. Figure 35. Lucapina crenulata. Dorsal and ventral views Tegula gallina Fbs. Tegula fuscescens Phil. Tegula aureotincta Fbs. Norrisia norrissii Sby. Pomaulax undosus \Yond (Figure 36) The above five species are common on the rocks between tides, and extend commonly into the upper limits of the fucus zone. 72 JFir0t annual deport Epiphragmophora arrosa Gld. A few specimens found on the cliffs at Arch Beach. Opalia insculpta Cpr. Scala hindsii Cpr. Only empty shells of these two species were taken, and these were inhabited by hermit crabs. Littorina planaxis Phil. The commonest shell of the beach, found in great numbers adher- ing to the rocks from those only wet by spray at high tide down to rocks uncovered only at low tide. Littorina scutulata Gld. Occurring with L. phma.ris, but far less common. Figure 36. Pomaulax undosus Cypraea spadicea Gray Rare among the rocks between tides. Murex gemma Sby. Among the rocks between tides, not common, but the most com- mon of the Muricidiv. Not common. Purpura nuttallii Con. Ocinebra gracillima Stearns Acanthina spirata Blv. Of the above two species, only shells inhabited by hermit crabs were found. ILaguna Sgarine ILafcoratorp 73 Figure 37. Aplysia californica A, Side view. B, Dorsal view. C, Shell. D, Pharynx (opened). E, Alimentary canal. F, Stomach (opened). G, H, Reproductive organs. I, Alimentary canal and liver. 74 J?ir0t annual Ucport Thais ostrina Gld. While dead shells are fairly common between tides, living speci- mens appear to be rare here. Astyris hindsii Roe Fairly common on sea-weeds between tides. Amphissa versicolor Uall. Empty shells of this only, were encountered. Macron lividus A. Ads. Common attached to fucus. Volvarina varia Sby. Between tides, but not common. Olivella pedroana Conr. A few dead shells found. Conus californicus Con. Common, attached to fucus. OP1STHOBRANCHIATA TECTIBRANCHIATA Aplysia californica Cooper (Figure 37) These enormous purplish sea-slugs were occasionally encountered in the lower tide-pools. A good many specimens were dissected. NUDIBRANCHIATA Numerous species of remarkably beautiful nudibrauchiate mol- lusks are to be found at Laguna Beach, and they are among the most attractive objects of the tide-pools, never failing to call forth the most enthusiastic exclamations from both students and visitors. "Exquisite" is the only word that adequately described them. I determined the species so far as I could from MacFarlaud 's writings, but a large part of the species seem to be underscribed. In the works of Bergh and other writers on this group, our west coast species seem never to have been treated. Chromodoris porterae Cockerell (Figure 39 B) Color prussian blue, the dorsum of a deeper shade than the sides. Mantle narrowly white edged. On the dorsum is a median line of light blue running from between the rhinophores to the branchiae. On each side, half way between this line aud the mantle edge, a broad JLaguna laboratory 75 orange yellow band runs from the rhinophores to just beyond the branchiae In front of the rhinophores is an orange spot. Both rhinophores and tentacles are dark blue. A narrow light blue line runs down the middle of the tail. Length when in ordinary posture about 12 mm. Chromodoris sp. (Figure 39 C, D) Color prussian blue, the mantle and foot bordered with light blue. Body covered with numerous orange spots. Length 5.5 cm. The largest nudibranch seen at Laguna. A, Rostanga pulchra Doris sp. B C Figure 38 McFarland). B, Doriopsis fulva (McFarland ) Ancula pacifica MacFarland (Figure 39 G) Color translucent whitish. Gills and tentacles tipped with red- dish orange. Back striped with orange. Papillae around branchiae tipped with pale yellow. Length 1 cm. Differs somewhat from Ancula pacifica as described by MacFarland in having eight instead of six processes around the branchiae, but this is a variable character. Aegires albopunctatus MacFarland (Figure 39 F) Color opaque white, spotted with dark brown. Length 12 mm. Two specimens taken. 76 Jfirst Annual Report K Figure 39 A, Laila cockerelli. B, Chromodoris porterae. C, Chromodoris sp. (mantel removed). D, Chromodoris sp. E, Genus? F, Aegires albopunctatus. G, Ancula pacifica. H, Cuthonia sp. I, Hervia sp. J, Hermissenda opalescens. K, Spurilla sp. JLaguna S^arine Laboratory 77 Laila cockerelli MacFarland (Figure 39A) Color translucent whitish. Branchiae and clavate papillae tipped with orange red. Rhinophores orange red with white bases. Numer- ous small orange red tubercles on the dorsum. Orange red marking also occur on the tail. The one specimen taken differed from Mac- Farlaud's description in having two instead of five branchial plumes, but this is of little moment since the branchiae are constantly subject to injury. Genus and Species? (Figure 39 E) Color white, with two black stripes from mouth to rhinophores, where they unite and pass as one to the branchiae. Sides irregularly marked with black stripes and spots. Tentacles yellow. Rhinophores black, tipped with yellow. Bordering the black stripes are various spots and stripes of yellow. Many of the yellow spots occur on small tubercles. The branchiae are black, tipped with yellow. Rhinophores foliate and retractile into small sheaths. Branchiae seven, and also foliate and retractile. Six short tentacle-like pro- cesses on the head, which are joined by a thin prolongation of the mantle edge, this being practically all of the mantle that is evident. Head large and truncated. Length about 7 mm. Doriopsis fulva MacFarland ( Figure 38 B) Color lemon yellow. Mantle thickly covered with small white- tipped tubercles. Rhmophores brownish. Branchiae a paler yellow than dorsum. Front edge of foot deeply bilobed. No notch on upper lip. Rhinophores and branchiae retractile into small smooth edged sheaths. Tentacles rudimentary, attached to lateral folds on the sides of the mouth. Length 9 mm. Frequent under stones between tides. Doubtless the determination of this would not be sure with- out a comparison of the internal anatomy. Rostanga pulchra MacFarland (Figure 38 A) Color orange red, the foot pinkish. Rhinophores darker than mantle. Anterior margin of foot bilobed. Upper lip notched. Ten- tacles small. Rhinophores very short and completely retractile. Mantle covered with short spiculate papillae. Length 5 mm. Found under stones, thus differing in habit from the species as described by MacFarland for he records it from a red sponge. 78 jfir0t annual Report Doris sp. (Figure 38 C) Mantle brown, bordered with yellow, and covered with small white tuberc-les more thickly in the center than on the edges. Foot yellow, branchiae light yellow. The branchiae and rhinophores are retractile into smooth bordered sheaths. Body deep, with the dorsum highly arched. Tentacles rudimentary. Length '27 mm. Common under stones during July and August but rare in September. Cuthonia sp. (Figure :'-! II) Color translucent whitish. Cerata translucent with a dark green core. A dark green spot in front of the rhinophores. Length 5 mm. Cutting edge of mandible strongly denticulate. Uadula consisting of a single row of plates. There are usually nine teeth on a plati . the mitral one not prominent, as short or shorter than the prominent laterals. Hervia sp.? (Figure :!! I) Color translucent whitish. Rhinophores orange, and with an orange spot in front of them. Cerata with greenish-black cores, and tipped with orange. Animal very slender, the body highest in the region of the rhiuophores. Rhinophores and tentacles slender and non-retractile. Length 7 mm. Cutting edge of mandible not toothed, strongly striated. Radula consisting of a single row of plates, rsuallv eleven tt-eth on :i plate, tin- i t-ntr:il nitt prominent, the laterals Imi^ . ;M I sli-inlpr. Hermissenda opalescens (1'noper). (Figure Mil J ) Color translucent whitish, with light brown stripes on tentacles and tail. Orange markings occur on the head. Cerata translucent, with brown cores and orange markings. Animal very slender. Cerata numerous and very easily detached. Anterior margin of foot pro- longed into two tentacle-like processes. Lips bilobed, the upper narrow, the lower large. Common during the early part of the sum- mer in tide-pools. Cutting edge of mandible with about thirty strong denticles. Radula consisting of a single SITH-S nf an^ulaily urchnd plates. Thr central tuoth is large and finely denticulated on the lower edge; the laterals are small, three to four on a side. Spurilla sp. (Figure 39 K) Color white. Back and top of head orange with a finely granu- lated appearance. Cerata near head orange with brown cores, those farther back becoming browner. Tentacles white. Rhinophores foliate, and red, with white tips. Animal slender, the foot large, anterior margin slightly prolonged into tentacle-like processes. Rhinophores and tentacles slightly contractile. Mouth large, under lip bilobed, upper smooth. Cerata in constant motion and very easily detached. Common in September. Length 15 mm. Cutting edge of mandible not toothed, strongly striated. Radula consisting of a single series of low-arched, pectinate plates, notched in the center. lUguna Sgarine Laboratory Figure 40. Limax rnaximus A, Left lobe of liver. B, Right lobe of liver. C, Reproductive organs. D, Ali- mentary canal. E, Abnormal jaw. F, Normal jaw. G, Shell. 80 Jfirst annual Heport Figure 41. Limax flavus A, Liver. B, Nervous system (ventral view). C, Reproductive system. D, Ali- mentary canal. E, Nervous system (dorsal view). F, Jaw. G, Shell. Liiijmui O^.uinr 81 PULMONATA Two species of Limax are common both at Lagima Beach and Claremont. They have been provisionally determined by Mr. 8. S. Berry, as Limax maximus Linn, and Limax flavus Linn. They differ in color, both being of a yellowish-gray, but Li mar nid.fi nuts is spot- ted and streaked with black, while Limax flavus has no black spots. There are also some anatomical differences. Limax maximus is, when fully grown, about two inches long; Limax flavus is somewhat smaller. Figure 42. Circulation of Limax flavus Limax maximus L. (Figure 40) Limax flavus L. (Figures 41 and 42) PELECYPODA FILIBRANCHIATA Mytilus californianus Conr. (Figure 43) The species is gregarious, forming extensive mussel-beds on flat rocks exposed to the surf. There are several large colonies of them at Lagima, notably the one at Mussel Point, which furnishes to the villagers endless supplies for food and for bait. Mytilus bifurcatus Conr. More generally distributed along this coast than M. ralifornianus. Sometimes very numerous on rocks uncovered at low tide. 82 jTirst Annual Report Septifer bifurcatus Roe Distribution same as Mi/tHux liifitrcatiix but rarer. PSEUDOLAMELLIBRANCHIATA Ostrea lurida Cpr. Found in lower tide pools and on rocks uncovered but a short time at low tide. Not at all common. Figure 43. Mytilus californianus EULAMELLIBRANCHIATA Phacoides californicus Cuiir. Semele rupium Sby. Tivela stultorium Mawe Chama pellucida Sby. The above four shells are found washed up on the beach, the last two quite common. JUftoratorp 83 ON A CEPHALOPOD NEW TO CALIFORNIA WITH A NOTE ON ANOTHER SPECIES S. S. BEREY The two species of cephalopod mollusks (one squid and one octopus) which are the subject of the following notes were obtained by Mr. C. W. Metz during the 1911 session of the Pomona College Marine Laboratory at Laguna, Orange County, California. Although so few of this class of animals were taken, one of the two specimens submitted to me represents a species new not only to California, but apparently to the entire western coast of North America as well. I am indebted to the gentleman named for the opportunity to examine and report upon the material. Figure 44. Funnel of Onychoteuthis banksii Laid open along the medio-ventral line to show the funnel organ (semi-dia- grammatic). Onychoteuthis banksii (Leach 1817) Ferussac 1817 Loligo banksii Leach, Zool. Miseell., vol. 3, p. 141. 1826 Onychoteuthis banksii Ferussac, in D'Orbiguy, Ann. Sci. Nat. (1), vol. 7, p. 151. 1879 Onychoteuthis lanksii Tryon, Man. Couch. (1), vol. 1, p. 168, pi. 73, figs 291-294. 1908 Oin/chotriifhi* lifuiksii Pfeffer, Nord. Plankton, IV, Ceph., ' p. 65, figs. 71-77. A single female specimen of this widespread oceanic species was obtained from J. H. Souder, who captured it in a seine off the en- trance to Newport Bay, S. S. B. No. 295. In a report written some 84 Jfirst annual deport months ago and now in press, the writer expressed the opinion that 0. banksii would very likely be found to occur in the waters of our region, but so prompt a confirmation of the statement was scarcely to have been expected. From all other West American species excepting only the gigantic Moroteuthis of Alaska, 0. baiiksii is readily distinguishable by the double series of powerful hooks on the tentacle clubs as shown in the accompanying photograph (Figure 45). The curious "fixing appar- atus" at the base of the club (Figure 46) furnishes another con- spicuous character. This structure comprises a compact, rounded Figure 45 Showing hooked tentacle clubs of Onychoteuthis banksii. group of suckers and pad-like organs so arranged that the suckers on one tentacle fit perfectly over the pads of its mate, securing a most powerful adhesion at a point where such support very greatly increases the prehensile power of the tentacles. The immense rhom- boid fins are also characteristic. So far as I have been able to determine from the literature the present individual is by far the largest specimen of the species which has happened to be placed on record. D'Orbigny* gives the total length of 0. bdiikxii as 310 mm., mantle length 130 mm.; of the identical 0. anyulatirf as 400 mm.; mantle 130 mm. Tryon gives the *Moll, viv. et. foss., 1845, p. 387. j-Voy, Amer. Merid., Moll., p 43, 1845. Haguna L.ilicmuorp 85 Figure 46 Fixing apparatus of right and left tentacle clubs of Onychoteuthis banksii. Figure 47. Polypus bimaculatus 86 JTirst annual Report ordinary length of the body as six inches (i. e., about 150 mm.). Joubin* records a specimen having a total length of 195 mm., mantle 110 nun. The body of our specimen is considerably over twice as long as the largest here cited. Its more important dimensions are therefore appended below : Figure 48. Anatomical details of Polypus bimaculatus A, Circulatory system (right kidney removed). B. Male reproductive organs. C, Jaw. D, Female reproductive organs. E, Alimentary canal and liver. F, Ali- mentary canal. From dissections by Miss Guernsey. Length to tail 680 mm. ; length, exclusive of arms, 353 mm. ; length, exclusive of tentacles, 488 mm.; length of mantle (dorsal) 313 mm.; width of mantle 80 mm. ; length of fins, total, 183 mm. ; length of fins along plane of attachment 164 mm.; width across fins, 215 mm.; length of head 40 mm.; width of head 49 mm.; length of dorsal arm 101 mm. ; length of second arm 120 mm. ; length of third arm 116 nun. ; *Ceph. "Princ.-Alice," 1900, p. 63. Laguna Q9arine Laboratory 87 length of ventral arm 135 imn. ; length of tentacle 327 mm. ; length of tentacle club 73 mm. Polypus bimaculatus (Verrill 1883) (Figures 47 and 48) A specimen of this species (S. S. B. No. 324) was taken by Mr. Metz in one of the lower tide-pools at Laguua, and numerous other specimens by other members of the laboratory. It is the common shore "octopus" of Southern California and has been previously reported from White 's Point, San Pedro and San Diego. The large, eye-like, lateral markings near the base of each arm of the third pair constitute its most conspicuous specific character. In the present specimen the usual bluish ring* surrounding the central spot is obscured or absent. A microscopic examination of a portion of the integument in the neighborhood of these markings shows that the outer ring of the oculation owes its pale color chietly to a diminution in the number of cliromatophores over this area.f Similarly the dark center is due to a great and sudden increase in their frequency. The exact number is somewhat variable, but a given space in the dark center appears to contain fully twice as many as an equal area in the paler border. Even when expanded, all the cliromatophores are excessively small. In the present material the dimensions of one of these organs is .09 x.l 6 mm. expanded, and .04 x .06 mm. in diameter contracted. Their detailed structure is correspondingly difficult to make out. The illustrations accompanying this paper were prepared by Mr. John Howard Paine of Stanford University, Mr. Metz and Miss Mabel Guernsey. 'Berry, Univ. Calif. Publ. Zool., vol. IS, p. 30.', 1911. (Whether the pigment within the chromatophores themselves is likewise differen- tiated either in color or qmmtity, cannot of course he determined without examining fresh material. 88 j?ir0t Annual SOME ECHINODERMS COLLECTED AT LACUNA C. F. BAKER Starfish, serpent stars, sea-urchins, and sea cucumbers are very much in evidence between tides at Laguna, some species occurring in enormous numbers. As yet, no special effort has been made to collect the species thoroughly. Of most of those taken a set was de- termined by Prof. Walter K. Fisher of Stanford University, and he very kindly furnished the notes incorporated below under quotation marks. HOLOTHUROIDEA Synapta inhoerens (). F. Mull These beautiful pale-colored little holothurians are frequent in the sand under stones in tide-pools. Some of their movements are extraordinarily worm-like. The peculiar character of the dermal anchors and plates in this species are very distinctive. Stichopus californicus (Stimpson) The large brown sea cucumber is a common object in the tide- pools. Some grow to eight and ten inches in length and even more. We examined large numbers of them for commensals but did not happen to encounter any. ASTEROIDEA Linckia columbiae Gray The smooth red starfish is common in the tide-pools. Its capacity for arm motion is very limited compared to other starfishes here, and through frequent mutilations it is rarely normally armed. Prof. Fisher says of it: "This curious little starfish is a member of the Panamic fauna, the type having been taken on the west coast of Colombia. It has been recorded previously from California at La Jolla, San Clemente Island, Santa Catalina Island and San Pedro. Miss S. P. Monks carried on some interesting studies on the varia- bility and autonomy of this species. It is able to sever its arms, and not only to regenerate new arms, but also to regenerate new disks on the severed rays. The number of rays varies from one to nine, but there are usually five. There may also be more than one madreporic body, and as many as four anal apertures. Very rarely there are two mouths." liaguna Ratine laboratorp 89 Coscinasterias sertulifera (Xantus) The "soft starfish" is very common in the tide-pools. It is oue of the most unpleasant starfishes to handle, due to its extraordinary sliminess. Its soft body gives a very wide range of possibilities in movement. Of this species Prof. Fisher remarks: "This is the species (under the name Asterias ferreri) upon which Prof. II. S. Jennings carried on a number of experiments at La Jolla. It is a member of the southern fauna, the type locality being Cape San Lucas. The true Coscinasterias ferreri belongs to the northern fauna and is not found along shore." Pisaster capitatus (Stimpson) Not common in the tidal pools, but evidently much more numerous just at and below low tide mark. Prof. Fisher says of it: "This species grows to a large size and is characterized by the heavy, well spaced tubercles of the back. It was formerly included in the genus Asterias." OPHIUROIDEA Ophioderma panamensis Lutken Apparently the largest serpent star at Laguua, and abundant in the lower tide-pools. Its smoothish body and commonly bright and varied shades of brown and yellow make it a very conspicuous species. Prof. Fisher remarks of it: "This is a common littoral serpent star from Panama to Catalina. It has a finely granulated disk and four genital openings on each interbrachial space." Ophioplocus esmarki Lyman As this species occurred to us at Laguna, it was smaller than the foregoing, and usually unicolored, instead of variegated. Prof. Fisher records this as occurring from San Diego to Monterey. Ophionereis annulata LeConte With a heavy vestiture and comparatively small, this serpent star occurs in great numbers under stones in tide-pools, sometimes dozens under a single stone. Prof. Fisher says: "This is a common form from Central America to Southern California. It has long, cross banded arms, short arm spines, and a disk covered with fine overlapping scales." Ophiothrix spiculata LeConte We found this species only in kelp holdfasts from three to six fathoms, and common in large sponge masses. It is common in these places and is doubtless common also under other conditions. Prof. 90 jTirst Annual Report Fisher says of it : " This is one of the most beautiful of echinoderms, being characterized by many long thorny spines which are delicate and glassy. It ranges from Monterey Bay to Central America." ECHINOIDEA Strongylocentrotus franciscanus Agassiz This is the large, commonly blackish purple, long spined sea urchin, usually found singly in the lower tide-pools. As Prof. Fisher remarks, it is commonly bright purple or even reddish purple. It is far less common than the following. Strongylocentrotus purpuratus (Stimpson) The bluish-purple gregarious sea urchin occurs in large colonies in some of the lower tide-pools. One such pool at Mussel Point con- tains a remarkable display of these urchins. Many of them are seated in deep, cylindrical bores in the rock from which it is frequently impossible to extricate them. They apparently do not favor pools that are beyond the reach of low tide spray. Dendraster excentricus (Eschscholtz) "The common sand dollar of the curio store. It was formerly included in the genus Echinarachnius" (Fisher). The shells of this species are occasional on the beach at Laguna. tagtina egarine Laboratory !i STUDIES IN PYCNOGONIDA, I HARRY V. M. HALL In all our collecting but twenty-two pycnogonids were taken, twenty of which belong to the same species and one of the others to a different species of the same genus. The commonest had a spread of legs of about three-fourths of an inch, while the other species was about three times as large. The latter were so nearly the color of the fucus on which they lived and so covered with debris that it is pos- sible that they may be much more numerous than the number taken would indicate. In working out this report I am indebted to Dr. Leon J. Cole for many kind suggestions and much valuable assist- ance. I have described the species found as follows : Anoplodactylus californicus n. sp. (Figure 4!)) Body rather short, lateral processes about as long as their own diameter, radiate, with bases contiguous. First two intersegmental lines barely visible. Proboscis cylindrical with rounded end, almost as long as the length of the body. Diameter of the proboscis one- half its length. Eyes not apparent, but a large conical eye tubercle (bent to the right in the cut as is also the abdomen) arises from the anterior edge of the body which projects over nearly the first half of the proboscis. The abdomen is much the same shape as the last joint of a man's middle finger and, like the eye tubercle is deeply and closely pitted. The rest of the body is pitted but less deeply. Cheli- fores large with well developed chela? and stout shaft, the whole reaching about half their length in front of the proboscis. (In my specimen the chelae are extended straight in front but there seems to be no reason why they might not be bent in front of the proboscis.) A few short spines on the chela 1 ; basal joints grown together and apparently supporting the eye tubercle. Palpi and ovigerous legs very rudimentary and wholly within the body (see plate for details). The legs are rather long but stout, sparsely set with short spines. First coxa shorter than its diameter, second coxa over twice the length of the first and enlarged at its distal end, third coxa one and one-half times the length of the first. Femur lunger than the com- bined length of the cox*. Tibial joints each about three-fourths the length of the femur. All joints of the legs stout. Tarsus about one- half the length of tibial joints; claw two-thirds the length of tarsus 92 jTirst Annual Report Figure 49. Anoplodactylus californicus ILaguna S^arine ILa&oratorp and folding down to rows of fine hairs. Auxiliary claws very small. Genital openings not apparent. Color straw. Measurements in mm. Proboscis 1.424; body (from anterior edge to insertion of abdomen) 1.5; leg (approximately) 8; diameter of lateral (leg-bearing) pro- cesses .428. This specimen was swept from fucus at low tide and was put in a bottle with a small nudibrauch mollusk which we caught about the same time. About half an hour later we discovered this pycnogonid greedily feeding on the nudibrauch. This is of special interest as very little is known of the feeding habits of these interesting crea- tures. This species bears a superficial resemblance to Pallenopsis, how- ever it differs from that genus in the following respects, i. e. : The abdomen is neither long nor slender, there are no eyes apparent, and the ovigerous legs, instead of being ten-jointed and present in both sexes, are in my specimen reduced to the merest rudiments and are within the body wall so that externally they do not show. On the other hand it is not a typical Aiiuplodnctylus, the body being- more compact than is usual in that genus, though not nearly so compact as that of A. anarthrus (Loman). Ammothella bi-unguiculata var. californica n. var. (Figure 50) Body distinctly segmented, leg-bearing processes moderately separated and moderately developed. Their length is about one-half their diameter. Intersegmental lines all distinct. Proboscis slim, spindle shaped; in length two and one-half times the diameter, and four-thirds the length of the body; ending in front with a rounded obtuse angle as seen from above. Pour eyes in pairs on a very low eye tubercle ; well pigmented. Abdomen small, cylindrical, less than one-fourth the length of the body, with bluntly rounded tip. Anus in notch at the tip. Chelifores short, one-sixth the length of the proboscis, three-jointed; chelae undeveloped; first joint very short, shaft not quite as long as terminal joint which is nearly* spherical. Diameter of chelifores slightly less than that of the palpi. Palpi nine-jointed ; as long as the proboscis. First joint short and thicker than the others. Second joint four times as long as the third ; fourth joint almost as long as the second; fifth and sixth joints about the same length as the third. Terminal joints decrease in order. Very few hairs on the palpus except on the terminal joint. Ovigerous legs slightly longer and with slightly greater diameter than the palpi. The ten joints named in the order of their lengths (except the first which is short and much thicker than the rest) are, 4, 2, 5, 6, 3, 7, 8, 9, 10. The terminal joints are spirally rolled and on the tip of the j?tr0t Annual Report Figure 50. Ammothella bi-unguiculata var. californica JLaguna figarinc Laboratory last are three stiffly plumose hairs. A similar hair is placed on each side of the eighth joint. Legs rather long but stout, no tibial pro- cesses, very few hairs except in double row on tarsus. First coxa as long as its own diameter; second twice as long; third coxa one and one-half tiroes the length of the first. Femur about as long as the combined length of the second and third COXJP. Second tibial joint about the same length as femur; first tibial joint slightly shorter. Tarsus is less than one-half as long as second tibial joint. Tarsus has a double row of fine hairs down the "sole" and a few slightly longer hairs on the end. Terminal claw is lacking, while the auxiliary claws are unusually developed. Color light brown ; the food was slightly darker making it easy to trace the branches of the stomach into the legs as shown in cut. Measurements in mm. Body 1.3; proboscis 1.05; abdomen .36; leg 4.2; diameter of leg-bearing pro- cesses .214. About twenty specimens of this species were found under stones at low tide, well down toward low water mark. The males bore on their ovigerous legs bunches of dark colored eggs. As pointed out to me by Dr. Cole, this species agrees closely with A. bi-unguiculata (Dohrn). As he says, "if we make the proper al- lowance for his specimen being an immature one" this specimen "agrees in detail with Dohrn's description." But to say that I had found in California the mature form of Dohrn's Naples species (de- scribed, as it was from an immature specimen), would be too much of a guess without comparing mature forms from both localities. This difference of location, the fact of Dohrn's specimen being im- mature, and the desire not to duplicate names, have led me to de- scribe mine as a variety of A. bi-unguiculata. Ammothella spinosissima n. sp. (Figure 51) Body with leg-bearing processes almost circular in outline. These processes are grown together for nearly their whole length, and at their distal ends are situated large tufts of spines. No interseg- mental lines, but on the back, between the second pair of legs, is a longitudinal row of three large upright spine-covered, finger-like processes. (Bent to the side in the cut as are also the eye tubercle and the abdomen). Proboscis shorter than the apparent length of the body, but if compared with the length of the body from the anterior margin to the base of the abdomen the reverse is true. This is owing to the abdomen being inserted between the last pair of leg- bearing processes which are the only two that are separated. The proboscis is bluntly rounded in front with a notch at the tip; its diameter is about half its length. Four eyes, not conspicuously pig- 96 jTirst annual Report Figure 51. Ammothella spinosissima ILaguna e@arine laboratory 97 mented, situated at the top of a relatively small eye-tubercle, the length of which is about twice its diameter. The abdomen is about three-fourths the length of the body, (the latter measured from the anterior margin to the base of the abdomen). Along the top of the abdomen is a row of ringer-like, multi-sj due-bearing processes similar to those on the legs to which I will refer shortly, but much smaller than the three large ones previously mentioned as on the back. The diameter of the abdomen is about one-fifth its length. The chelifores are stout and slightly surpass the proboscis in length ; they are rudi- mentary in having the chela? undeveloped. The shaft is set with quite a few multi-spine bearing processes. The basal segment is about the same size as the terminal segment, but the shaft is one and one-half times as long as their combined lengths. The palpi are nine-jointed, surpassing the end of the proboscis by one-third their length. The first joint is shorter and broader than the rest; the second is the longest, being almost one-third the whole length of the palpus; third joint very short ; fourth joint not quite as long as second. A ridge across the fourth joint makes it appear like two joints as viewed from above. The terminal joints diminish in order. The first six joints have very few hairs, while the terminal joints are thickly set with hairs about as long as the diameter of the fourth joint. The second joint is thickened at the ends but the other joints are not noticeably so thickened. The average diameter of the palpus is about one-half that of the chelifores. The ovigerous legs are nine- jointed; their diameter about half way between those of palpus and chelifores. The joints in order of length (except the first, which is short and broad), 4, 2, 5, 3, 6, 7, 8, 9. Legs are rather short and powerful with numerous, multi-spine-bearing, finger-like processes, especially on the coxa and two tibial joints. On the two tibial joints these processes are arranged in a double row down the back of the joint. The first and third coxal joint are sub-equal in length, the second one and one-half times as long. The femur is as long as the combined length of all three coxae ; the tibial joints two-thirds as long as the femur and but slightly longer than the tarsus. The claw is over three-quarters the length of tarsus, folding down between two rows of stout spines on tarsus. No auxiliary claws. Genital open- ings not apparent. Color light straw. Measurements in mm. : Proboscis 1.424; body 1.2; abdomen 1.1; leg 6.35; diameter of lateral processes .5. This single specimen was swept from fucus in July and when taken, was so covered with litter which was imbedded among the spines, that no idea of the real aspect of the creature could be ob- tained until after boiling in KOII. This litter rendered it very hard to find among bits of fucus even when we knew it was there and its 98 J?ir0t annual Report Figure 52. A, Ammothella bi-unguiculata californica, terminal joints of oviger- ous leg. B, Ammothella spinosissima, terminal joints of ovigerous leg. C, Anoplo- dactylus californicus, tarsus. D, Ammothella spinosissima, tarsus. E, Ammothella bi-unguiculata californica, tarsus. F, Ancplcdactylus californicus, chelifore-terminal joints. G, Ammothella bi-unguiculata californica, palpus. H, Ammothella spinos- issima, palpus. I, Anoplodactuylus californicus, palpus J, Anoplodactylus califor- nicus, ovigerous leg. K, Ammothella bi-unguiculata, chelifore. Lagtma Cgtorinc Laboratory discovery in the towings was almost accidental. We spent much time looking for others but with no success. The spine-hearing pro- cesses with which this species is covered serve to distinguish it from all other species of the genus. In placing these last two species in Ammothella, I have followed Cole, who raised the sub-genus Ammothella (Ammothea part), of Verrill, to generic rank because of the trunk being "usually propor- tionately broader and distinctly segmented, the chelifori three- jointed, and the palpi nine-jointed." I hope that this brief explana- tion will show why they are not Ammothea proper, and avoid con- fusion. The multi-spine bearing processes on A. spiitoxixxinid may remind one of those on a Nymphopsis figured by Loman, Plate XIII of Siboga-Expeditie XL, but the arrangement of these processes, as well as generic characters, show that there can be no possible con- nection. ioo jfirst annual Report NOTES ON THE CRUSTACEA OF LACUNA BEACH C. F. BAKER From the character of the coast at Laguna one would expect a rich representation of the crabs, shrimps, prawns, and their allies, and the richness of the crustacean fauna is most forcibly impressed upon one by a little collecting. We took a great number of specimens and species of crustaceans during this first summer, of which but a very small proportion have as yet been worked up, especially among the Entomostraca. A few of these latter I have examined in some detail in cases where they happened to be conspicuous or to occur in great numbers of individuals. Miss Stout lias done a considerable amount of work on the Amphipoda of this locality, and Miss Stafford on the Isopoda. They both accumulated a great wealth of material, indicating a littoral fauna of great richness in these groups. The crabs, but few of which I have determined, are extraordin- arily abundant. The tide-pools swarm with them, a stone turned over frequently revealing a half dozen species at one time. One small crab, apparently quite rare, was of peculiar interest because it seemed to be always covered with a dense forest of small simple sponges, perhaps indicating a symbiotic relationship. A number of species of parasitic copepods (three from one shark) and isopods were taken, but these are as yet undetermined. MALACOSTRACA Order DECAPODA Epialtus productus Randall The young of the kelp crab are very common in the tide-pools clinging to fucus and other brown algae, but mature specimens are only to be found in the kelp beds. Loxorhynchus grandis Stimp. Large carapace shells of this deeper water crab are commonly washed up on the beach. Cycloxanthops novemdentatus Lock. Frequent under stones between tides. Lophopanopaeus leucomanus (Lock.) (Figure 53) Occasional under stones between tides. Examination of the ap- pendages of the head of this species, in comparison with those of Lmjiimi ILaboratorp 101 Xanthias taylori reveals some interesting resemblances and differ- ences. The mandibles and maxillipeds are strikingly similar. The antennules, however, are very unlike and present some salient char- acters. The outer flagellum in this species is three-jointed while in X. taylori it appears to be seven-jointed. The large tuft of bristles opposite the outer flagellum is as long as the inner in this species, while in X. taylori it is only half as long. Figure 53. Lophopanopaeus leucomanus A, First maxilliped. B. Second maxilliped. C, Third maxilliped. D, mandible. E, antennule. 102 jTirst annual Report Xanthias taylori Stimp. (Figure 54) Abundant under stones between tides and also in kelp holdfasts from deeper water. Pachygrapsus crassipes Randall This is the very abundant shore crab which is so common scuttling over the stones of the higher beach. It sometimes contains a large parasitic isopod in its branchial cavities. Randallia ornata (Randall) Occasional specimens from kelp holdfasts in deeper water. Eremita analoga (Stimp.) Exceedingly abundant, burrowing in sand between tides, and much used for bait. Blepharipoda occidentalis Randall This large species one of the most remarkable crustaceans on the coast is occasional on the sandy shores just below low tide. The boys locate them with their feet while in bathing and dive for them. Lepidopa myops Stimp. Occasional in the sand between tides, associated with Eranitii. Petrolisthes cinctipes (Randall) The "flat crab" is common under stones between tides. Pachycheles rudis Stimp. Abundant under stones between tides. This little crab with swollen tuberculated chelipeds is also common in kelp holdfasts. Callianassa longimana Stimp. Burrowing in the sand underneath stones in the tide-pools. Not common. This loosely built, ghostly looking animal reminds one strongly of certain cave-dwelling animals. Panulirus interruptus (Randall) Very common in the deeper waters off shore. This seems to be headquarters for this splendid lobster. We frequently saw large specimens just below low tide, and encountered young specimens frequently in the tide-pools. Crangon vulgaris L. Some specimens which cannot be distinguished from the current descriptions of this species, were taken in a bed of Phyllospadix just below low tide. ILaguna egjarinc Laboratory c Figure 54. Xanthias taylori A, mandible. B, First maxillipcd. C, Second mnxilliped. D. Third maxilliped. E, First maxilla. F, Second maxilla. G, Antennia. H. Antennule. 104 Jfir0t 3nnual Figure 55. Heptacarpus pictus A, Habit sketch, showing common attitude of body and antennules. B, C, Vari- ation in toothing of rostrum. D, Antenna. E, Antennule. F, Mandible. G, First maxilla. H, Second maxilla. I, Third maxilla. J, Maxilliped. ILaguna egarinc iLaboratorp 105 Figure 56. Heptacarpus pictus A, First peraeopods. B, Second peraeopods. C Third peraeopods. D, First pleopods. E, Second pleopods. F, Apical two-thirds of telson. G, Exopodite of uropod, showing teeth. 106 jTirst annual Report Crangon nigromaculatus Sm. Under stones in sandy bottomed tide-pools. The color is trans- lucent white, peppered with black dots, a larger dot on either side of the fifth and sixth pleon segments. When this species is exposed by the turning over of a stone, it settles immediately into the surface of the sand, and is then almost indistinguishable. Hippolysmata californica St. This extraordinarily brilliant Hippolytid with its red stripes is certainly one of the finest things to be found in the tide-pools. We frequently pointed to it as one of the most beautiful marine animals to lie found at Laguna. Alphaeus clamator Luck. Common in sponge masses and kelp holdfasts. Betaeus longidactylus Lock. A very beautiful olive green species, abundant in tide-pools. Heptacarpus pictus (Stimp.) (Figures 55 and 5(5) This small and very beautiful Hippolytid is abundant in the tide- pools and also outside in the kelp beds. Its greenish semi-trans- parency, with oblique reddish marks on the pereion, make it wholly inconspicuous almost invisible in alga-filled tide-pools. The tow- net, however, quickly reveals it as a very abundant species. Order TANAIDACEA A number of species of these minute tube-dwellers were encoun- tered among the alga? lining tide-pools, and also in kelp holdfasts. They will be worked up later. Order CUMACEA Pseudocuma lagunae n. sp. (Figure 57) We were greatly interested to encounter in one of the lower tide- pools a minute Pscitdocuint) Locality Abundant in sand of upper beach under kelp ; very abundant at high tides when driven out by the water. Color Dull gray mottled with black and white. Body ovate and convex, about twice as long as wide, 15 nun. by 7 mm. Head has frontal margin produced in the middle into a rounded lobe; autero-lateral angles into an acute process extending slightly beyond the eyes. Eyes composite and situated close to lateral margins. First pair of antennas very small and rudimentary, consisting of three small articles. Second antennae composed of five articles and a flagelluni. First two articles short, third and fourth longer and subequal, fifth over one and a half times as long as fourth. Flagellum has three subequal articles. Second antennae thickly cov- ered with small spines. Maxillipeds have a palp of three articles. Palp of mandible wanting. First segment of thorax longer than the others, which are sub- equal. On the first segment of the thorax a faint suture line extends a short distance from the posterior margin and at an obtuse angle, indicating the epimeron. On the next three segments sutures extend the length of the segments. On the last three segments epimera are not visible. Legs ambulatory, thickly spined. Abdomen consists of six segments, five subequal in length, the sixth somewhat longer. First two are covered laterally by the last thoracic segment. Last abdominal segment triangular and narrower than all the preceding segments. Uropoda very short, about the length of last abdominal segment; inner branch about half as long- as outer. The whole surface of the body is covered with minute spines. Idothea rectilinea Lockington (Figure 70) Locality Abundant in pools, under rocks, on Phyllospadix and among fucus at low tide. Color Male usually a light brown; female usually a very dark brown with antenna? and legs of light brown. Body narrow and elongate; sides almost parellel and segments very closely articulated ; five times longer than wide, 20 mm. by 4 mm. Dorsuni depressed longitudinally on either side of median line. Uujuiui laboratory 125 Figure 69. Alloniscus perconvexus (Dana) A, Dorsal view. B, Maxillipcd. C, First maxilla. D, Mandible. E, Seventh leg. F, First leg. G, Second maxilla. H, Third pleopod of male. I, Second pleopod of male. }, Mandible. K, First antenna. L, First pleopod of female M Second antenna. N, First pleopoda of male. 126 jTirst annual Report Figure 70. Idothea rectilinea (Lockington) A, Dorsal view. B, Maxilliped. C, Mandible. D, Second maxilla. E, Second antenna. F, First maxilla. G. First antenna. II, First leg. I, Second leg. J. Seventh leg. K, Posterior pleopod of male. L, First pleopod of male. M, Second pleopod of male. Laguna Ratine Laboratory 127 Head wider than long; anterior margin broadly emarginate and slightly narrower than posterior margin. Eyes very small, com- pound and placed on the middle of the extreme lateral margin. First antenna 1 have four articles; basal article enlarged much broader than the other articles. Fourth article clavate and finely haired on the superior margin. Second antenna? composed of peduncle of five articles and a flagellum of twelve. Basal article of peduncle very small. Second slightly longer than wide; third somewhat longer than second and almost twice as long as wide; fourth and fifth about equal in length and longer than the third. The maxilliped has a palp of four articles. The mandible is without a palp. The first segment of the thorax is only half as long medially as laterally. The rest of the segments are more regular in shape and sub-equal in length ; last two slightly shorter than the others ; pos- terior margins of all slightly excavate. The epimera of second and third segments occupy slightly less than half the lateral margin; epimeron of fourth occupies about half and like the other two is very narrow ; epimeron of fifth segment is broader and occupies about two-thirds the lateral margin ; epimera of sixth and seventh seg- ments occupy the whole length of lateral margin. The legs are all similar in structure; propodus di-dactylous and slightly haired with short hairs ; the three preceding segments pro- vided with longer hairs which are more abundant except on the last two pairs of legs, where they are very scant. Abdomen consists of three distinct and one partially coalesced segment. First segments are very short, last is long and produced medially to a point. Philoscia richardsonae Holmes and Gay. (Figure 71) Locality Under old seaweed on the edge of a salt marsh, La- guua Beach, California. Color Brown, microscopic examination shows distinct pigment marking's over the whole surface. Body oblong ovate ; length slightly over twice the greatest width, 6 mm. by 2.5 mm. Surface of body thickly covered with fine spines. Head twice as wide as long, with arched frontal margin and lateral angles subacute. Antenna long; first article of peduncle about half as long as second; second and third subequal in length; fourth twice as long as third and narrower; fifth somewhat longer than fourth; flagellum composed of three articles, of which the sec- ond is slightly shorter than the first or third; the latter ends in a large spine and the whole antenna is provided with numerous short spines, especially on the margins. Antennule rudimentary, only vis- 128 jfirst annual Report Figure 71. Philoscia richardsonae (Holmes and Gay) A, Dorsal view. B, Second maxilla. C, First maxilla. D, Mandible. E, Second antenna. F, Maxilliped. G, First pleopod of female. H, Second pleopod of female. I, Terminal segment of abdomen. J, First leg. K, Seventh leg. L, Third pleopod of female. M, Antennule. luigtum QDarinc Laboratory i-!> ible by dissection, composed of three small articles. Maxillipeds have a palp of three articles. Pal]) of mandibles wanting-. Segments of thorax subeqnal ; post-lateral angles of last three very marked and produced. Epimera not distinct. Legs all similar, ambulatory, very much spined and increasing in length from iirst to seventh. Abdomen abruptly narrower than thorax; first five segments sub equal. Post-lateral angles of third, fourth and fifth produced. Last abdominal segment produced medially. Median length about half the greatest width. Basal segment of uropod about as wide as long and extends beyond last abdominal segment; inner ramus a little less than half as long as the outer; both rarni are spiued. Dynamene glabra Richardson (Figure 72) Locality Found on Phyllospadix at Laguna Beach, California. Color Pale orange brown, somewhat mottled, with white spot on telson; become dark brown in alcohol. Body convex ovate, about twice as long as wide, 3 mm. by iy 2 mm. ; surface smooth. Head small and rounded anteriorly. Eyes placed in the post- lateral angles. First pair of antenna with first article of peduncle less than twice as long as wide; second and third articles subequal and narrower that first. Flagellum composed of twelve articles. Second antenna with first article of peduncle about as long as wide, small; second twice as long as first; third about the same length as first ; fourth similar to second ; fifth one and a third times as long as fourth. Flagellum composed of sixteen articles. Maxilliped pro- vided with a palp of five articles. Mandible with a palp of three articles. Thorax has first segment longer than those succeeding, which are subequal. Post-lateral angles of last three are produced. Legs all ambulatory; dactylus bi-ungulate. Abdomen has the penultimate segment composed of several coal- esced segments, though the suture lines were not clear in the speci- mens at hand at the time of the drawing. Other specimens found later showed two short suture lines. Last abdominal segment trian- gular with a median fissure at the posterior extremity. Inner ramus of uropod about as long as telson and immovable; outer branch half as long as inner, and movable. Cirolana harfordi var. spongicola n. var. (Figure 7.'!) Locality Sponges at low tide mark, Laguna Bead), California. Color White, but marked with fine black dots. 130 jTirst annual Report E Figure 72. Dynamene glabra (Richardson) A, First leg. B, Second leg. C, Third leg. D, Fifth leg. E, First pleopod of male. F, Sixth leg. G, Seventh leg. H, Maxilliped. I, Second maxilla. J, Man- dible. K, Uropod. L, Telson. ILaguna C0arinc Laboratory Body very convex and oblong, about three times as long as wide, 7 nim. by 2.5 mm. being the dimensions of a small specimen. Head twice as wide as long with frontal margin rounded. Eyes composite, occupying lateral margins of the bead. Second antenna has a peduncle of five articles ; the first three are small ; fourth about as long as first three ; fifth longer and narrower than fourth ; flagel- lum composed of twenty-two articles ; in five specimens examined the number of articles varied from twenty-two to twenty-nine, average twenty-four.. Anteuuule has a peduncle of three articles ; first two small and subequal; third half as wide and equal in length to the first two ; flagellum composed of twelve articles, average out of five specimens examined, ten articles ; maxillipeds composed of seven articles; last five provided with many long plumose spines; third article has two blunt hooks. Mandible robust, broad and strong distally where it ends in a trideutate margin. Mandibular palp has three articles. Frontal lamina short and broad and is sub-trian- gulate at the distal end. First segment of thorax longer .than the following three, which are subequal. Last three longer than the three preceding. Epiniera distinct on all but first segment. Last foi;r segments marked with an oblique, first two with a longitudinal carina. Epimera of last three, especially of last two, segments produced at post-lateral angles. First three legs prehensile, last four ambulatory. In the first pair the propodus has three spines on the inner margin which increase in size toward the distal end, where one long slender spine also occurs ; on the outer distal end there are one or two slender spines. The carpus usually has but one long spine ; the inerus has five or six thick, blunt spines on the inner margin and two or three sharp ones. On the outer distal end there are two long slender spines; the ischium has one blunt spine on the inner distal margin similar to the blunt spines on the nierus ; there is one long, stout one and one long, slender spine on the outer distal end. The propodus of the second and third legs has on the inner margin four spines increasing in length toward the distal end. The carpus has three blunt spines on the inner distal end. The merus has eight or nine large spines on the inner margin; one long and strong and from one to four shorter ones on the outer distal end. The ischium has two very blunt spines at the inner distal end, and two or three smaller spines at the outer distal extremity. Last four legs provided with many stout spines. Abdomen composed of six visible segments. Last, triangular, gradually narrows to a rounded apex which is provided with about eight teeth and numerous long hairs. Peduncle of uropod is pro- duced to two-thirds the length of the telson; inner ramus is wider 132 Jfirst annual Heport B N Figure 73. Cirolana harfordi var. spongicola A, Dorsal view. B, First maxilla. C, Mandible. D, Maxilliped. E, Frontal lamina, clypeus and labrum. F, Second maxilla. G, Second antenna. H, First an- tenna. I, First leg. J, Second leg. K, Fourth leg. L, Seventh leg. M, First pleopod of male. N, Second pleopod of male. O, Telson and uropod. Note: The extremities of both the inner and of the outer rami are very distinctly serrate, especially the outer. ILaguna cparine laboratory 133 than the outer and somewhat longer, provided with spines and teeth. Outer branch is also thickly spined. Both the inner and outer rami are very markedly serrate, especially the outer, in which the extrem- ity is so sharply divided that it appears bifurcated. These specimens found in the sponges appear to be very closely related to Cirolana hoi'fordi (Lockington) but the marked difference in the number of spines at the extremity of the telson and the evident difference in the extremities of the uropod rami, which are more rounded and much less emarginate in Ciroldiia Intrfordi seems to warrant a varietal distinction. The lateral margins of the telson of Cirolana harfordi are curved near the base; in the specimens obtained from the sponges these margins are straight. These differ- ences, with those of size and habitat, allow at least a distinction in variety. 134 jfirst annual Report STUDIES IN LAGUNA AMPHIPODA VINNIE E. STOUT Orchestia traskiana Stimpson (Figures 74 and 75) Numerous specimens taken agree very well with the description of 0. traskiana iu Das Tierreich, except in having the distance be- tween the eyes varying from considerably less to a little more than one diameter, also in having the flagellum of antenna II with the flagellum somewhat longer than peduncle and 16-18 jointed in male, all the female specimens observed having fourteen joints. Color, dull shades of grayish brown and green, with the appendages bluish. Very common under decaying algte about edges of a brackish water slough which is reached by salt water only at times of extreme high tides. Laguua Beach, California. Coll. V. R. Stout. Amphithoe corallina n. sp. (Figures 76 and 77) The color of the body varying from a fairly bright brownish green 282 (Valette) to dull orange-green 182 and 178; antennas about tone of green 203; other appendages light and transparent; back, sides, legs, and antennae spotted with white ; females carrying bright orange colored eggs. Body robust and smooth. Head very broad and deep. Eyes small, subrotund, black. Antennae one and two nearly the same in length, a little more than half as long as the body. First joint of peduncle of antenna one a little longer than the second joint and almost three times as long as the third ; flagellum about twenty-six- jointed and a little longer than the peduncle. Antenna two stouter, peduncle longer than the twenty-four-jointed flagellum ; ultimate joint of peduncle a little shorter than the penultimate. Lower lip similar to that of A. flindersi. Mandibular palp large, third joint longer than second and armed with six long spines. Maxilla two normal with inner plate fringed with compound hairs. Gnathopods one and two about the same length ; gnathopod two broader and more thickly setose. Second joint of perseopods one to five slightly expand- ed, joint of peraeopod three most strongly so. Propodus of perseopods one and two strongly narrowed distally ; propodus of peraeopod four expanded distally, and propodus of peraeopod five slightly expanded distally. Pleopods one to three thickly clothed with long setae; basal joint of raini about one-third as long as peduu- ILagtma laboratory 135 Figure 74. Orchestia traskiana A, Adult male. B, First maxilla. C. Second maxilla. D, Mandible. E, Lower lip. F, Upper lip. G, Maxillipeds. II, First antenna. I, Second antenna. J, First gnathopod of female. K, First gnathopod of male. L, Second gnathopod of female. M, Telson. 136 JFirst annual Report cle; rami subequal. Uropods one to three normal, two reaching not quite as far back as one and three ; none of the rami as long as their peduncles; outer rami in one and two shorter than inner, in three longer than inner. Telson somewhat broader than long, bluntly tri- angular, with several lateral spinules. Length 6-8 mm. Laguna Beach, California. Occasional in tufts of coralline algse between tides. Coll. V. R. Stout. Amphilochus litoralis n. sp. (Figure 78) Entire animal colored a delicate pink, varying from red 21 to 3B (Vallette). Body smooth, stout, and quite compact, the dorsum strongly arched. Rostrum long. Side-plate very small and convex in front. Antennas short and stout, less than one-fourth the length of the body. Antenna one with the six-jointed flagellum longer than the peduncle. Antenna two more setose, and with the peduncle nearly twice as long as the six-jointed flagellum. Upper lip incised, with somewhat un- Figure 75. Orchestia traskiana A, Second gnathopod of male. B, First peraeopod. D, Fifth peraeopod. E, Third uropod. F, First uropod. First pleopod. C, Third peraeopod. G, Second uropod. H, L.lijuiui 137 Figure 76. Amphithoe corallina A, Adult male. B, Second antenna. C, First antenna. D, First maxilla. E, Second maxilla. F, Lower lip. G, Maxillipeds. H, Mandible. I, First, second and third pairs of uropods, and telson. 138 jfir0t Annual Ueport Figure 77. Amphithoe corallina A, First gnathopoil. B, Second gnathopod. C, First peraeopod. D, Second peraeopod. E, Third peraeopod. F, Fifth peraeopod. G, Fourth peraeopod. H, Third pleopod. I, First pleopod. ILaguna Laboratory Figure 78. Amphilochus litoralis A, Adult male. B, Right mandible. C, Second maxilla. D, First maxilla. E, Left mandible. F, Maxillipeds. G, Inner plate of maxillipeds. H, First antenna. I, Second antenna. J, Second pleopod. K, First gnathopod. L, Palm and linger of first gnathopod. M, Second gnathopod. N, Palm and finger of second gnathopod. O, Fifth peraeopod. P, First peraeopod. Q, First, second and third pairs of uropoda, and telson. 140 jTirst annual Report symmetrical front lobes. Lower lip without inner lobes ; outer lobes edged with long, slender spiuules. Mandibles with three-jointed palp; third joint of palp longer than both the first and second, and armed with short, scarcely discernible setules. Left mandible witli inner plate, which is more finely toothed than the outer ; molar obso- lete. First maxilla with small inner plate bearing a single spine at the slightly concave apex; outer plate with seven spines at the oblique apex, and a bunch of small seta? at the inner edge of the spine-row; two-jointed palp with three short spines at the apex. Outer plate of maxilla two-tipped with three compound spines, and fringed on the outer margin with slender seta?; inner plate tipped with six com- pound spines. Maxillipeds with slender inner plates reaching about to distal end of the first joint of the palp, and bearing three short spines at the apex; outer plate broader, extending a little beyond the first joint of the palp, the broadly rounded distal margin bearing one long spine, several small spines on the inner part, and finely serrate on the outer part ; the joints of the palp gradually diminish- ing in size from the first to the finger. Gnathopod one the smaller, fifth joint with spines extending almost to the palm, which bears ten slender spines. Second gnath- opod with the sixth joint widening to the oblique palm, the front margin of which bears a row of twelve small spines, and at the apex two strong spines; in neither one does the linger extend quite to the apex of the palm. Peraopods one and two slender, nearly equal. Perseopods three to five with second joint greatly expanded into a broad, flat plate, gradually increasing in size to the fifth. The rami of the subequal pleopods bear long, finely compound setse. Uropod one extending almost to distal end of uropod three, peduncle much longer than the subequal rami. Uropod two much shorter, the peduncle of equal length with the inner ramus; the outer ramus narrow and more than half as long as the inner. Uropod three extending beyond uropods one and two; peduncle much longer than the rami ; inner ramus the longer. Telson about half as long as the peduncle of uropod three, about twice as long as broad, and con- verging slightly to the pointed apex. Length '2 mm. This species resembles most closely ^4. iinirinitix, but differs especially in the characters of the mandible, maxillipeds, uropods, and telson. Laguna Beach, California. Common in Phyllospadix. Coll. V. E. Stout. Genus Dulichiella n. gen. Body slender; peraeon segment one the shortest, sixth and sev- enth not coalesced. Pleon of six segments beside the telson, third most elongate; some of the pleou segments toothed posteriorly. Laguna O^arinc ILa&oratorp 141 Head not produced in front. Antennae strong and setose; antenna one much longer than antenna two, flagellum longer than peduncle, accessory flagellum present; antenna two with peduncle about twice as long as flagellum. Mouth parts normal. Gnathopod one sub- chelate, fifth joint longer but not broader than sixth. Gnathopod two in female and left guathopod two in male similar to gnathopod one, though with the sixth joint longest and strongest. Right gnath- opod two in male with sixth joint very large and powerful. Perae- opods one and two long and slender. Peraeopods three to five stronger and very long; much alike, fifth slightly longest; second joint ex- panded, sixth joint longer than any other except second. Uropods one and two with rather strong, unequal rami. Uropod three a con- cave, spinose plate projecting over lateral margin of telson. Telson rectangular. This genus is evidently nearest the genus Duliclna, but differs from it particularly in the character of the first antenna, second right gnathopod of male, shape of peraeopods three to five, presence of rudimentary third uropods and shape of telson. Figure 79. Dulichiella spinosa. Adult male Dulichiella spinosa n. sp. (Figures 179 and 180) Body colored a pale, delicate green 228C (Valette), speckled with dark red 27. Body slender and smooth. Head longer than broad, but not greatly produced in front. Eyes large, black, and irregular. An- tenna one with thirty-eight-jointed flagellum, which is longer than the peduncle; accessory flagellum five-jointed; second joint of 142 jfirst Annual Report Figure 80. Dulichiella spinosa A, Second antenna. B. First antenna. C. Lower lip. D, First maxilla. E, Max- illipecls. F, Mandible. G, Second maxilla. H, Second right gnathppod of male. T, First gnathopod of male. J, Second left gnathopod of male. K, First paraeopod L, Fifth peraeopod. M, First pleopod. N, First uropod. O, Second and third pair of uropoda, and telson. ILaguna Marine Laboratory 143 peduncle somewhat longer than the first joint and about three times as long as the third joint. Antenna two about two-thirds as long as antenna one; thirteen-jointed flagellum about one-half as long as peduncle. Upper lip slightly hi-lobed. Mandibular palp ([iiite large, second joint broader and longer than the third, both armed with long, slender spines. Maxilla one with rather large, triangular shaped inner plate, fringed with line seta? on the inner edge, and armed with one compound, apical spine. Maxillipeds with outer plates much larger than the inner, and carrying several compound seta? along the apical margin, finely toothed and setose along the inner margin ; palp long and strong. Pleopods rather large and very much alike, the sub-equal rami bearing long, compound setae. Tel son long. Pleon segments all toothed posteriorly. Length 5-7 mm. Laguua Beach, California. Frequent in kelp holdfasts from deep water. Coll. V. B, Stout. Genus Acanthogrubia n. gen. Head without rostrum. Side-plates one to five well developed, fifth the broadest and deepest. Antenna one not as long as peduncle, with four-jointed accessory flagellum. Antenna two, two-thirds as long as antenna one, with peduncle slightly longer than flagellum. Mouth parts prominent. Upper lip broadly rounded. Lower lip with well developed inner lobes, and bifid outer lobes with prominent mandibular processes. Mandible normal, third joint of palp broadly rounded at apex, and armed with numerous long seta?. Maxilla one armed with ten apical spines, second joint of palp broad with several spines on the apex and inner margin. Maxilla two outer plate the broader; inner plate as long as outer and thickly fringed on inner margin. Maxillipeds, outer plates large. Gnathopods one and two subchelate, gnathopod two the larger. Pera?opods one and two long, slender, second joint slightly expanded. Pera?opod three, second joint expanded, broader than long. Peraxipods four airl five the longest. Uropod three, outer ramus with two hooks. Telson short and broad, armed only with set.T. This genus differs from Amphithoe in having an accessory flagel- lum on the first antenna. It also differs from Paraf/nihin in having a four-jointed instead of one-jointed accessory flagellum, in having the flagellum of the second antenna not elongate, and the second joint of the third peraeopod as broad as long. 144 jfirst annual Report Figure 81. Acanthogrubia uncinata A, Adult male, the lines separating the two lobes of side-plate 5 to be considered as a groove. B, Upper lip. C, Lower lip. D, First maxilla. E, Mandible. F, Second gnathopod. G, Maxillipeds. H, Third pair of uropoda, and telson. ILajjuna ILa&oratorp 143 Figure 82. Acanthogrubia uncinata A, First uropod. B, Second maxilla. C, Fir>t snathopod. D, First antenna. E, Second antenna. F, First peraeopod. G, Second uropod. JTicst annual Hcport Acanthogrubia uncinata n. sp. (Figures 81, 82 and 83) Entire body varying between tbe two tones of orange-green 152 and 177 (Valette). Flagella of antenna? ringed witb white. Eyes bright rose. Body robust. Head produced in front of eyes. Side-plate one produced forward. Side-plate five with very deep front lobe and small hind lobe. Eyes small, subrotund. Antenna one, first joint of peduncle slightly longer than second, and four times as long as third; flagellum forty to sixty-jointed, accessory flagellum as long as first four joints of primary flagellum. Antenna two, stout, setose; sec- ond joint of peduncle longer than third, and about twice as long as lirst; flagellum thirty-one-jointed. Mandible, palp stout, third joint fringed with compound setae on the broadly rounded apex, principal and s ..... mdary plates dentate, toothed spines in spine-row, molar small. Maxilla one, outer plate with ten spines, second joint of palp broad with nine small spines around the apex and inner margin, with a diagonal row of slender setules around the whole joint. Maxilla two, both plates thickly fringed with compound setae. Maxil- lipeds, outer plates fringed with two rows of short spines; inner plate thickly fringed with long, compound setae. Gnathopod one, fifth joint long, but not so long as the oval sixth; sixth joint setose, palm not defined, finger faintly serrate. Gnathopod two in female thickly setose, similar to guathopod one, but with shorter and broader fifth joint; enlarged sixth joint, with palm distinct and curved, finger longer than palm and faintly serrate. Per.Topods one and two, second joint long and narrowly rectangular, sixth joint narrowing distally. Peraeopod three, second joint expanded, as broad as long, sixth joint with fine spines. Peraeo- pods four and five much longer and proportionately narrower; sec- ond joint somewhat expanded and narrowing towards the distal end ; sixth joint with six spines and not narrowing distally. Pleopods with unequal rami fringed with long compound spines. Uropods one and two, peduncle longer than the unequal rami. Uropod three, peduncle a little longer than the rami, with a transverse row of short spines on the apical margin; outer ramus with two spine-like hooks ; inner ramus broader with a transverse row of short spines, one apical spine, and a row of seta?. Telson as broad as long. Length 8-23 mm. Laguna Beach, California. Occasional in tubes in kelp holdfasts from deep water. Coll. V. E. Stout. Laguna S@anne Laboratory 147 Figure 83. Acanthogrubia uncinata A, Fifth peraeopod. B, First pleopod. C, Third peraeopod. 148 JFirst annual Beport Figure 84. Hyalella azteca A, Adult female. B, Maxillipeds. C, First maxilla. D, Mandible. E, Second maxilla. F, Lower lip. G, Second gnathopod of male. H, Second gnathopod of female. I, First gnathopod. J, Second antenna. K, First antenna. L, Second peraeopod. M, Third peraeopod. N, Fifth peraeopod. O, First uropod. P, First pleopod. Q, Second uropod. R, Third uropod. S, Telson. ILaguna S^arine ILaboratorp 149 Hyalella azteca (Sauss) (Figure 84) Body smooth, slightly compressed. Pleon segments one and two each produced into a small dorsal tooth. Side-plates one to four somewhat rectangular. Eyes nearly round. Antenna one, five to eight-jointed, flagellum longer than peduncle ; joints of peduncle suc- cessively diminishing in length. Antenna two, slightly longer, the seven to ten-jointed flagellum longer than peduncle; joints of peduncle successively increasing in length. Maxillipeds, inner plate tipped with three short, stout spines, and edged on the inner side with slender compound setae; outer plate with nine toothed spines and very small palp. Maxilla two, both plates apically fringed with fine spinules, which, on the inner plate, are edged with two plumose setae. Mandible normal, principal and secondary plates dentate, plumose spinules in spine-row, molar large, with compound seta. Gnathopod one, small, slender, fourth joint with small pellucid boss on the distal hind end ; fifth joint with bulging hind margin, fringed with row of spines and short teeth; sixth joint not so wide, but sub-equal in length, hind margin covered with fine, short hairs, curved finger reaching to end of the transverse, toothed palm. Gnathopod two in both male and female, with bulging fifth joint edged with spines, sixth joint in male very large and stout, longer than broad, oblique palm with two notches underneath the strong, curved finger. Finger not reaching to hinder margin of palm, but closing between two spines just in front of a third notch. Gnath- opod two in female, longer and stronger than gnathopod one, fifth joint considerably produced behind, sixth joint twice as long as widest part ; hind part produced somewhat beyond the small curved finger and the convex, transverse palm. Perseopods three to five, second joint broadly expanded, serrate; peraeopods four and five nearly equal in length. Pleopods plumose. Uropod three, ramus slender, tipped with setae, and subequal to peduncle. Telson, broad as long; rounded apical margin with slender seta on either side of tip. Specimens agreeing well with description of H. azteca in Da a Tierreich, except in being smaller, and in having, commonly, fewer joints in the antennae. They differ from the family description of Talitridae in having the inner plate of maxilla one tipped with three plumose setae, and in having the fine spinules of the inner plate of maxilla two edged with two plumose setae. Color varying from light bluish green to light green and brown. Frequent in fresh water pond about five miles inland from Laguna Beach, California. Coll. H. V. M. Hall. 150 Jfirst annual Report SOME DIPTERA OF LACUNA BEACH F. R. COLE Laguna Beach is an excellent collecting ground for Diptcra. The hills and inland vegetation extend almost to the ocean in many places, and with the varied topography and conditions, the insects are very varied. The beach with its rocks, sand stretches, beach plants, and decaying wrack, is swarming with Diptcra. A small, shallow brack- ish water lagoon at the inner edge of the beach gave some interesting- results in Diptcra, but Diptcra were collected on the rocks even to within reach of the salt spray. The collection of this year is but a mere beginning. I spent only a few weeks at Laguna, and a large part of this time was consumed iu anatomical studies. Most of the flies reported in the present paper are either peculiar to the beach itself, or are found in the varied vegetation of the upper beach. Without extensive assistance from Prof. J. M. Aldrich of the University of Idaho, it would have been impossible to present this paper at this time. Messrs. Knab and lliue have also kindly made determinations. The accompanying habit sketches of new species will be amplified by drawings of anatomical details, during the coin- ing summer. Figure 85. Scatcpse californiana n. sp. CULICIDAE Aedes squamiger Coq. This mosquito was common and occasionally annoying at Laguna. breeding in great numbers in the small brackish water lagoon. De- termination by Mr. Knab. Ilaguna Ratine Laboratory 151 BIBIONIDAE Scatopse californica n. sp. (Figure 85) This is a small, slender black fly with polished body. The abdo- men is about eight times as long as wide, and the head is long, narrow and flattened. The antenna? are large for the size of the head, and the eyes are long and narrow. The abdomen is thinly pilose, the hairs on the last segment and hypopygium longer than the rest. The tibia 1 and tarsi are slender and broadened at the apical ends. The body is spineless. Last joint of antenna longest. Proboscis entirely black. Wings clear hyaline. Length 3 mm. A single specimen collected by Prof. Baker. Apparently the first Scatopse noted as peculiar to the Pacific Coast. Figure 86. Euparyphus lagunae STRATIOMYIDAE Euparyphus lagunae n. sp. (Figure 86) A black, yellow marked fly, with a rather broad and flattened body. The last three joints of tarsi are black, the first two black on the distal ends. Body thinly pilose with long yellowish hair. Head flattened. Femora and tibia? orange yellow, with no bristles. Front black and very narrow. Base of antenna? with two yellow stripes, 152 jfir0t Annual mepott wliich pass part way down the face. Four basal joints of the anten- nas with long dark bristle-like hairs. Last joint of antennae slender and twice as long as any other joint. Two longitudinal narrow yel- low stripes on the thorax do not quite reach the scutellnm. Halteres lemon yellow. This fly is much darker than E. bellus or E. ornatus. Thorax above the wing with a small yellow patch, and a round yellow patch on the lower corner of each abdominal segment as seen from above. Last segment with base only black, the remainder yellow. Ventrally the first segment of the abdomen is black, the rest sordid yellow. Thorax black ventrally ; there is a lateral narrow yellow stripe running from the base of the wing, the length of the thorax. Occiput convex and black. Mouth parts yellow. Most of the sub- costal, and the end of the costal cell, is brown, the rest of the wing hyaline. Length 5.5 mm.; length of wing 5 mm. A single specimen collected by Prof. Baker at Laguna Beach. BOMBYLIDAE Toxophora pellucida Coq. Several specimens. THEREVIDAE Psilocephala costalis Lw. Psilocephala laevigata Lw. Psilocephala marcida Coq. The above three flies were taken in vegetation just back from the beach. ASILIDAE Mallophora fautrix O. S. Not uncommon. This species was described from Mexico. Stichopogon trifasciatus Say. (Figure 87) This Asilid is widely distributed in the United States. At Laguna it was common on the beach sand. It is a silver gray fly, with black markings, and its colors blend with the sand perfectly. This pro- tective coloration makes it very hard to locate when at rest. In habits it is a typical robber-fly. Determined by Prof. Hine. EMPIDIDAE Drapetis nitida Melander This fly was very common on the beach sand. It is quite small and jet black, and runs rapidly here and there over the sand, seldom flying to any distance. It is also found on the edge of the lagoon and is very quick and hard to catch. Laguna Racine ILafioratorp 153 Figure 87. Stichopogon trifasciatus Figure 88. Parathalassius melanderi 154 jTirst Annual deport Parathalassius melanderi n. sp. (Figure 88) A small black fly, silvery gray pruinose, with all the bristles white. The hypopygium is darker. The vertex is broad and concave, and the face below the antennae narrow, broadening again at the gray cly- peus. The antennae are dark brown, the first two joints small, the terminal arista slender and about twice as long as the third joint of the antennae. The lower half of eye covered with fine white pubescence. A fringe of bristles around the eye as in P. aldrichi. The proboscis is small and blackish. The abdomen has a transverse basal row of black pits on each segment. The hypopygium is large and globular, the top almost bare, and attached to the left side of the body as in P. /il/lricln. The legs are slender and covered with short white bristles, and with no apical spurs, as in P. aldrichi. Under side of front and hind femora with heavy white bristles, the knees and tarsi yellow. Halteres whitish. Three conspicuous black pits along the lower edge of each abdominal tergite. There are six pairs of long dorse-central bristles on the thorax, two scutellar bristles, but no pleural or supra-alar bristles. Anal vein not much longer than anal cross vein. The ends of the wings are broadly brownish. Length 2 mm. Two specimens collected at Laguna, on the wet sand at the very edge of the surf. PHORIDAE Trineura velutina Meig. Occasional about decaying kelp. PIPUNCULIDAE Chalurus spurius Fall. SYRPHIDAE Nausigaster unimaculatus Twns. Paragus tibialis Fall. Eristalis tenax L. The above four flies are frequent in the vegetation just back of beach. CONOPIDAE Occemyia baroni Will. Ilaguna Qfjarine JLa&oratorp i ;,:. Figure 89. Fucellia rufitibia 156 JFirgt annual deport TACHINIDAE Clausicella setigera Thorn. Plagiprospherysa parvipalis V. d. W. Senotainia trilineata V. d. W. Goniochaeta plagioides Twos. Aldrich says of this: "New to me, and one of the few that Coquillet did not include in his Revision. This is a big find." Town- send described this from Las Cruces, N. M. MUSCIDAE Chrysemyia nigripes \\ heeler Pseudopyrellia cornicina Fab. Myiospila meditabunda Fab. Muscina stabulans Fall. The above four flies were very common. ANTHOMYIDAE Hylemyia alcathoe \Ylk. Pegomyia affinis Stein Caricea nana Zett. The above three flies are common in vegetation back of beach. Fucellia costalis Stein This species is quite common on decaying kelp. They are large, quick flies. They seem to be at least partially predaceous in habit, as I have seen them pounce upon weakened sand-hoppers and by their numbers soon overcome them. Fucellia rufitibia Stein (Figure 89) There are myriads of this fly swarming over the decaying kelp. They are found with F. coxttilis, which, however, they vastly out- number. They are slow of flight and easy to catch. PHYCODROMIDAE Coelops frigida Fall. Common on decaying kelp. SAPROMYZIDAE Sapromyza flaveola Coq. Abundant in vegetation near beach. Sapromyza fraterna Lw. Occasional with the last species. Hagtina S@artne laboratory Figure 90. Lauxania pacifica n. sp. 158 jTir$t annual deport Lauxania pacifica n. sp. (Figure 90) A sliming black fly, with front arid face brownish red, base of antenna? lighter. Abdomen gray pruinose, and quite thickly covered with recliuate bristles. Antenna^ three-jointed, third joint about four times as long as wide; dorsal arista is slender and bare, and about the length of the antenna. Halteres yellowish. Legs light brown; a long spine on the under side of front femora, and a long spine on the mesopleura. There are four long scutellar bristles, and one sterno- pleural bristle. The lateral bristles of the abdomen are quite long. The length of the costal cell is about four times its width. The sub- costal cell reaches hardly half way to the tip of the wing, and the basal cells are very small. AVings yellowish hyaline. Length about 4 mm. Collected at Laguua Beach by Prof. Baker. I have compared this with descriptions of variceps, longicornis, nigrimana, ciiterea, and lutca. ORTALIDAE Chaetopsis aenea \Yd. Euxesta compta n. sp. (Figure 111) Light reddish brown, gray pruinose, the abdomen more gray. Differs widely from nutata, nitidiventris, stigmatus, fascipennis, and ubdoiiiiiHilix, which are either black or bluish in general coloration. Antennae red brown, the arista and third joint at base darker. Tin- occiput is rather convex. Legs same color as body, the last four joints of the metatarsi darkened. Head quite large, front broad, bristles black. This species is perhaps closest to laticeps in color, but darker. Like laticeps, the body is thinly gray pruinose. The antenna? are not so bare as in laticeps. Four bristles on the vertical triangle, two in front and two behind. Abdomen well clothed with bristles. Costal cell and end of wing smoky. Length 4 mm. ; wing 3.25 mm. Collected at Laguna Beach by Prof. Baker. TRYPETIDAE Eutreta sparsa YVied. Ensina humilis L\v. Euaresta abstersa Lw. Euaresta aequalis Lw. Urellia maverna \\'lk. All of the above Trypetids were frequent in the vegetation back from the beach. liaguna g)arine Laboratory 159 Figure 91. Euxesta compta n. sp. 1GO jTirst annual Report EPHYDRIDAE Notiphila quadrisestosa Thorns. Allotrichoma litoralis n. sp. (Figure 92) A very small flark gray fly. Third joint of antennae hairy, and with a dorsal pectinate arista. The femora are quite stout. Eyes reddish. Halteres whitish. Front very broad and gray pruinose. The thorax with many reclinate spines. Lateral facial spines long. Proboscis large and fleshy. Two pairs of vertical bristles and two pair of ocellar bristles, one pair of the latter very small. The upper half of the eye is hairy. There are two metapleural spines, two sternopleurals, and one mesopleural spine. The wing is very simple, the basal cells small and not clear. The wings are smoky-hyaline. Length 1.25 mm. A number of specimens taken at Laguna on the edge of the small brackish lagoon not far from the ocean, usually consorting with Linioshia. Allotrichoma ultdominalis is reported from West Indies and Brazil. Figure 92. A, Allotrichoma littoralis n. sp. B, Face of Allotrichoma ILaguna ILaOoratorp 101 Figure 93. Lipochaeta slossonae Figure 94. Milichiella nigrella 162 jrirst annual Report Psilopa atra Lw. Psilopa mellipes Coq. Both of these Psilopas were occasional about the lagoon. Ephydra gracilis Pack. Aldrich says of this : ' ' Described from Great Salt Lake, where it is inconceivably abundant, even stopping trains. I did not find it any where on my recent trip except at that lake, though the II. S. Nat. Museum has it from Salton Sea and Yuma, Arizona. The opaca of Jones is a synonym." Ephydra subopaca var. millbrae Jones Occurs with the above. Lipochaeta slossonae Coq. (Figure 93) Frequent on the beach at Laguna. OSCINIDAE Mosillus subsultans Fab. The aeneus of the Aldrich Catalog. Very common on the beach and in the vicinity of the brackish water lagoon. GEOMYZIDAE Scyphella flava L. AGROMYZIDAE Rhicnoessa parvula Lw. Milichiella nigrella n. sp. (Figure 94) A polished jet black fly, with black legs. Halteres white. Eyes gray. Antennae very short, the third joint rounded and covered with short fine gray hairs. The dorsal arista is bare and slender. The last four joints of the metatarsi very short. Last segment of abdo- men longest and with long lateral spines. One long supra-alar spine, and many short reclinate spines on thorax and abdomen. Scutellum small and rounded and with two long spines. Two pairs of vertical bristles, and one quite long heavy spine on the second joint of the antenna; two pairs of short fronto-orbital spines. The first vein of the wing is very heavy and brown in color. A dark spot at the tip of the costal cell; wings otherwise hyaline. Length 3 mm. ; length of wing 2.75 mm. A number of specimens were taken on the beach at Laguna but it is not common. Ilaguna Q^arinc La&oratorp 163 LEPIDOPTERA COLLECTED AT LAGUNA BEACH, CALIFORNIA HARRISON G. DYAR The following moths flew to light in Prof. Baker's tent at Laguua Beach the past summer. The character of these few accidental specimens indicates what very interesting work might be done at Lagnna Beach by a little systematic effort in this direction. It is to be hoped that active work in the Lepidoptera will be continued there. ARCTIIDAE Apantesis proxima autholea Boisduval One male specimen. NOCTUIDAE Copibryophila angelica Smith Nine specimens. Autographa brassicae Riley One specimen. GEOMETRIDAE Hydriomene custodiata Guenee Four specimens. Chlorechlamys chloroleucaria Guenee One specimen. Cosymbia serrulata Packard Six specimens. Eois ptelearia Riley One specimen. Sciagraphia californiaria Packard One specimen. Platea californiaria Herrich-Schaefrer One specimen. Animomyia morta Dyar Two specimens. 164 jffrst annual Report PYRALID^ PYRAUSTINAE Nomophila noctuella Dennis and Schiffermuller Two specimens. Glaphyria reluctalis Hulst One specimen. PHYCITINAE Ephestiodes gilvescentella Ragonot Three specimens. Maricopa mirabilicornella Dyar One specimen. CRAMBINAE Dicymolomia metalliferalis Packard One specimen. Thaumatopsis lagunella n. s. Thorax and fore wing ochre yellow, the wing shaded with gray in a band below median vein and on terminal third ; medial vein nar- rowly white; discal venules also white; a black streak in lower part of cell, continued beyond to apex, where it is bent sharply upward; an oblique brown median line from end of cell to inner third of wing on inner margin, flexuous in the middle ; a submarginal gray line parallel to termen ; a terminal row of black dots ; a bright leaden line at base of fringe. Hind wing gray. Expanse 26 mm. One female specimen. Type No. 14349, IT. S. National Museum. Allied to fcnu/hlcUa Kearfott, but with the cross-lines more dis- tinct, the discal venules paler and relieved on a gray ground. The identification of this form leads me to make some passing comment on Mr. W. D. Kearfott 's article on Thaumatopsis (Proc. U. S. Nat. Mus., XXXV, 386, 1909), to which I naturally turned for the identification of the specimen. An analytical key to the species is there given, but to me it proves worthless, for the characters given are quite contradictory to the actual species as I know them. For example, edonis Grote is given with a white median streak, which is in fact conspicuously absent; pexella Zeller is said to have no median streak, whereas it is always more or less evident, often distinctly white. Lest this be thought to be a transposition, due to the accidents of typography, we find gibsoueUa Kearfott and coloradella Kearfott also under the heading "median streak not white," which is certainly ILaguna Ratine laboratory 1G5 true of gibsonella, a northern degraded form of edonis, and true also to a certain degree of color adella, a small degenerate form of pexella; but the separation of coloradella and pc fella is more apparent than real, coloradella being called "whitish brown," pexella, "pale ocherous." As a matter of fact they are of the same color, colora- della being only a smaller, less distinctly marked form. Pectinifer Zeller stand under the heading "fore wing chocolate brown," where- as Zeller says in his original description that it is "bleich ockergelb. " No mention is made of daeckeellus Kearfott (Journ. N. Y. Ent. Soc., XI, 149, 1903), but this is not improbably due to the tacit acceptance of its reference to the synonymy of striatella Fernald, which I once made to Mr. Kearfott by letter. Mr. Kearfott 's article was pub- lished in the Proceedings of the U. S. National Museum, and is there- fore supposed to have been founded upon museum material. To comply with this requirement, the author of the paper deposited types of many of his species in the collection. What was my surprise to discover that of five cotypes of coloradella so deposited, two of them especially labelled by Mr. Kearfott, no less than four were spurious types, the localities from which they came not being men- tioned in the original description at all ! Moreover, two of them are true pexella, and not the form coloradella. However, it is not my purpose to write a hostile criticism of Mr. Kearfott 's paper, much as it failed me in an emergency. Perhaps if he had written by daylight instead of by electric light, he would have seen the specimens in the same colors that I do. The separation of repauda Grote and crenulatella Kearfott by the pectinations of the male antennas shows careful observation, while the description of fenialdella corrects a prevalent misidentification, this form being- still called "pectinifer Zeller," even recently in the British Museum. Diatraea epia n. s. White, silvery, the body parts grayish white; fore wing largely overwashed with pale ochre scales, in, below and beyond the cell and along submedian space; subterminally are ochre streaks between the veins, uniting to form a submarginal line, a powdering of dark brown scales about the yellow patch beyond the cell and throughout the sub- median fold, also subterminally on the veins and in diffuse patches terminally; fringe white with brown central line and brown tips. Hind wing pale gray outwardly. Expanse, 21 mm. One female. Type, No. 14351, U. S. National Museum. Diatraea prosenes n. s. White, silvery, the body parts grayish white; fore wing shaded with dull ocherous brown broadly between the veins, the streaks 166 jfirst annual Report nearly filling the cell and subcostal region, but not strongly separ- ated or contrasted from the white ground ; a curved line of this color close to the outer margin ; some brown scattened scales on the veins, forming lines outwardly on veins five and seven and more diffused marks at the bases of veins three and four; some diffused marginal groups of brown scales ; fringe interlined and tipped with brown. Hind wing pale gray outwardly. Expanse, 22 mm. One female. Type, No. 14352, U. S. National Museum. These two specimens, though very much alike, represent distinct species, I think. The collection of series only will make the matter certain. ILaguna Marine Laboratory u>? MICROLEPIDOPTERA FROM LAGUNA BEACH, SOUTHERN CALIFORNIA AUGUST BUSCK I am under obligation to Prof. C. F. Baker for some Microlepidop- tera, which flew into his tent last summer at Laguna Beach, Southern California. The collection has been deposited in U. S. National Museum and contained the following species : Platyptilia marmarodactyla Dyar U. S. Nat. Mus. Bull. 52, No. 4938, 1903. Bactra lanceolana, Hiibner U. S. Nat. Mus. Bull. 52, No. 5006, 1903. Eucosma ridingsana Robinson U. S. Nat. Mus. Bull. 52, No. 5083, 1903. Eucosma pulveratana Walsingham U. S. Nat. Mus. Bull. 52, No. 5122, 1903. Phthorimaea operculella Zcller U. S. Nat. Mus. Bull. 52, No. 5616, 1903. Gnorimoschema henshawiella Busck Proc, U. S. Nat. Mus. XXV, p. 831, 1903. Gnorimoschema laguna n. s. Labial palpi light ochreous; extreme base and a small dot on terminal joint just below apex brown. Face light ochreous. Head and thorax light reddish ochreous; pata gina deer-brown. Fore- wings deer-brown with a large basal dorsal area light reddish ochreous; this area extends from base to apical third along dorsum and is produced up beyond the fold in a large triangular spur to the middle of the cell and in a smaller wave at basal third. Cilia ochreous, dusted with brown. Hindwings light silvery fuscous ; cilia light ochreous. Abdomen ochreous, lighter underneath, with velvety deep ochreous spots on upper side of basal joints. Legs brown with the joints ochreous. Alar expanse, 19 mm. Habitat Laguna Beach, Southern California; C. F. Baker, coll. U. S. Nat. Mus. Type, No. 14335. 168 jfirgt annual Report This species belongs to the gallae-solidaginis group and is close to the type of the genus, but easily distinguished by the light ochreous head and the lighter general color. Gelechia figurella n. s. Labial palpi silvery white, dusted with stone-gray exteriorly; tuft on second joint well developed, furrowed, longer at base than at tip. Face silvery white. Head and thorax ochreous, thickly suf- fused with stone-gray and dark ochreous scales, which totally ob- scure the ground-color except on the veins, which stand forth as clear-cut thin whitish ochreous lines ; the entire venation even to the fork at base of vein I 1 ' is plainly pictured on the upper surface of the wings. Cilia silvery white. Hindwings silvery white. Abdomen and legs light ochreous. Alar expanse, 21 mm. Habitat Laguna Beach, Southern California. C. F. Baker, coll. U. S. Nat. HUB. Type, No. 14336. Allied to Gelechia striatella Busck, but a larger and much lighter and neater species. Scythris sponsella Busck Journ. N. York Ent. Soc. XV, p. 139, 1907. Paraneura simulella Dietz Trans. Am. Ent. Soc. Phil. XXXI, p. 12, 1905. Amydria coloradella Dietz Trans. Am. Ent. Soc. Phil. XXXI, p. 6, 1905. Setomorpha rutella, Zellcr Kongl. Svensk. Vet. Ak. Handl., p. 93, 1852. Setomorpha operosella Zeller U. S. Nat. Mus. Bull 52, No. 6549, 1903. Acrolophus occidens Busck Proc. Wash. Ent, Soc. XI, p. 186, 1909. Acrolophus flavicomus n. s. Labial palpi curved, ascending, short, hardly reaching vertex; loosely tufted on first joint and in less degree on second and third joint; light ochreous; terminal joint dark brown above. Head and thorax ochreous brown. Forewings light, ochreous brown with two dark ill-defined streaks, forming an irregular cross; one from the middle of dorsum to costa just before apex; the other from tornus to basal fourth of costa; the latter is often more or less broken up ILaguna agarine ILafaoratorp iro and is easily partly lost in rubbed specimens. Still more easily lost and in fact only preserved in perfect specimens is a series of five undulating lines of white raised scales across the wing; on the fold in the central one of these white lines is an ill-defined black dot and the outer crossline contains two or three small patches of black scales before the terminal edge. Cilia light ochreous. Hindwings dark fuscous. Abdomen dark fuscous. Legs ochreous fuscous with faint- ly nnnulated tarsal joints. Alar expanse, 19 mm. Habitat Laguna Beach, Southern California. C. F. Baker, coll. U. S. Nat. Mus. Type, No. 14337. This species belongs to the group, described under the generic name Eulepiste Wlsm. and comes closest to cressoni Wlsm. and maculifer Wlsm., but is amply distinguished by the ornamentation. The various genera, erected in the family Acrolophidae on the sec- ondary sexual characters of the labial palpi can not be maintained. (See Proc. Wash. Ent. Soc. XI, p. 186, 1909). 170 jfirst annual Ucpott SOME COLEOPTERA OF THE BEACH AT LAGUNA WITH DESCRIPTIONS OF NEW SPECIES BY DR. M. BERNHAUER C. F. BAKER No thorough collecting of Coleoptera was done at Laguna during the first year. However, in all our work along the beach and near the beach, beetles were collected wherever possible. Masses of de- caying kelp on the upper beach commonly swarmed with myriads of Staphylinidae, Cercyou, and AcrittiH. Common on the sand of the upper beach and driven out in considerable numbers by unusually high tides occurred Dyschirins Hiai-hutx, P/mtoin/ilota opaca, Einphy- iixtcs fucicola and Phycocoetes tcxtm-nix. The Dyscliiriuv, Pontn- malota and Phycocoetes are remarkably protected on the sand, by their color. All four of these beetles appeared to be much more ac- tive in the late afternoon. Tiie vegetation of the upper beach included the usual array of maritime plants like SaJicnn/in, Hrl'mlni/iiuni, Atriplex, Fratikcina, etc., and at the mouth of a small stream, Cypcrus, Salix, Typlia, etc. A few beetles were also taken among these latter plants. The whole locality would doubtless yield rich returns by careful collecting, as Is evidenced by the new Lappus, the new Ei/flalus found commonly on Cypcrus, and by various new Staphylinida?. The determinations of species have mostly been made by Prof. H. C. Fall, to whom we are much indebted for this and other favors. Dr. Bernhauer has worked up the Staphylinidae, a task for which he is always very willing. CARABIDAE Dyschirius marinus Lee. Common on open sand areas of the upper beach. HYDROPHILIDAE Cercyon fimbriatum Mann. Occasional in masses of rotting kelp. STAPHYLINIDAE Pontomalota bakeri Ilernhaner nov. sp. " Rufotestacea, opaca, abdomine ad apicem minus opaco, segmento sexto parum obscuriore, thorace parum transverse, angulis posticis subrotundatis; abdomine autice opaco-reticulato, postice subtiliter ILagtina C0arine Laboratory 1/1 dense punctate, segmento septimo maris asperato-punctata. Long. 3 mm. Yon Dr. Fenyes in Snd-Kalifornieu (Redondo) entdeekt. Mit Pontomalota opaca Lee. sehr nahe venvandt nnd leielit mit ilir zu verwechseln, jedoch durch den vorn ganz maten, glanzlosen Ilinter- leib sowie welters nodi duroh folgende Merkmale leicht zu unter- schieden: breiter und kiirzer. Der Halsscbild ist um ein guter Stuck breiter als lang, die Hinterecken weniger angedeutet, verrundet. Der Hinterleih ist auf den vorderen 3 frei leigenden Tergiten gleicli- inassig dieht cliagriuiert matt, wahrend bei opaca Lee. diese Tergite deutlieh und diclit punktiert, sind, auch treten melir oder minur auffallig 2 dunklere Langsflecke zu beiden Seiten der cliite dieser Tergite auf, welche nach liinteu convergieren, wahrend solclie Makeln bei opaca nioht vorlianden sind. Ursprunglich hist ich, da ich einer- zeit die neue Art imter dem Namen opaca Lee. erhalten hatte, die echte opaca Lee. fur eine neue Art. Nach der Leconte'schen Besch- reihung kann aber als opaca nur die auf den vordereu Tergiten deutlieh punktierte Art, angeschen werden, da Leconte ausdruck, lieh nur den Vorderkorper als mattchagriniert bezeichnet. Pontomalota opaca Lee. wurde von Prof. Baker in S. Kalifornien (Laguna Beach) erbeutet. " Pontomalota opaca Lee. Common at Laguna running over the sand of the upper beach. Tarphiota pallidipes Casey Common in decaying kelp. Cafius canescens Alakl. var. Common in decaying kelp. Cafius lithocharinus Lee. In myriads in decaying kelp. Cafius luteipennis Morn. Common under decaying kelp. Cafius sulcicollis Lee. Abundant in kelp. Bledius albidipennis Bernhauer nov. spec. "Niger, subopacus, subsenescens, elytris praeter basins angustam suturam que albidis, autennis oreque jiiceis, pedibus la'te flavis, thorace subcordato, sat transverse canaliculate, dense alutaeeo, sub- tiliter minus dense punctato. Long. 4 mm. 172 jTicst annual Report Sud-Kaliforuien : Laguna Beach (leg. Baker). Eine durch ihre farbuug und die Skulptur, namerlich des Halsschildes sehr ausge- zeichnete Art. Schwarz mit weisgelben flugeldecken, deren ausserste Basis und Nalit dunkel gefarbt siud, deutlich etwas erglanzend, die fuhler und der Mund schmutzig gelb, die ersteren gegen die Spitze schwarzlich, die seine blassgelb. Der Kopf ist ausserst dicht und fein cbagriniert, vollkommen matt und uber dies weitlaufig und ausserst zart kaum whr nehnibar punktiert. Halsscbild urn ein gutes Stuck schnialer als die flugeldecken, fast urn die Halfte breiter als lang, voru aus gescliuitteu mit spitzeu Vorderecken, naeli ruchwarts aus geschweift verengt die Hinterecken zahnformig vortreteud, in den Mittellinie scharf gefurcbt, uberall aussertst dicht, jedoch ziem- lich gron chragiuiert und uber dies fein und wenig dicht punktiert, mit sehr geringein Glanze. Flugeldecken fast doppelt so lang als der Halsschild, freu und sehr dicht punktiert, glanzender als der Halsschild. Hinterleib ziemlich fein und wenig dicht, an den Seiten dichter punktiert und daselbst lang begaart. Herr. Professor Baker fiend diese schone Art an der Meereskuste unter ausgeworfenem Tang." COCCINELLIDAE Hippodamia ambigua Lee. Coccinella californica Fab. Scymus marginicollis Mann. All these cocciuellids are common on the upper beach. HISTERIDAE Acritus maritimus Lee. Common under decaying kelp. MALACHIDAE Attalus trimaculatus Mots. Frequent on upper beach among plants. Trichochrous aenescens Lee. Common on upper beach. Trichochrous squalidus Lee. Frequent on upper beach. SCARABAEIDAE Cyclocephala villosa Burin. Frequent at light. Serica mixta Lee. Common at light. liaguna Ratine ILa&oratorp 173 CHRYSOMELIDAE Pachybrachys punctatus Bowditch Common ou upper beach. Glyptoscelis squamulatus Cr. Occasional on upper beach. Trirhabda flavolimbata Mann. Common on willows. Psylliodes punctulatus Mels. Occasional on upper beach. Longitarsus livens Lee. Abundant on Heliotr opium curassavicum. ANTHICIDAE Notoxus constrictus Casey Common on upper beach. Lappus n. sp. Also common on upper beach. CURCULIONIDAE Emphyastes fucicola Mann. We found this but rarely in the masses of decaying kelp, but it was common crawling over open sand just above the upper tide limit. Endalus n. sp. Found resting in ripe seed heads of a Cyperus just back of the beach, sometimes several in a head. Phycocoetes testaceus Lee. Abundant crawling over sand. Epimechus mimicus Dietz Occasional on upper beach. Both this and the preceding species present, by reason of their pale yellowish color, a most remarkable adaptation to life on the sand. 174 jrirst annual Report MALLOPHAGA FROM BIRDS AT LAGUNA BEACH, CALIFORNIA JOHN H. PAINE STANFORD UNIVERSITY. CALIFORNIA The following list of determinations, with one new species, was made from material collected at Laguna Beach, California, by Mr. Leon Gardner. Docophorus communis Nitzsch A number of specimens from Zuiinlntlui >iicl>n><-i>p]Kil'.rns12 Thorax . .38 Abdomen . . 1.16 Width Length Witltli 2.24 .30 .56 .32 .28 .38 .30 .36 1.30 .40 Figure 95. Lipeurus baculoides Paine A, Adult male. B, posterior segments of male. C, Posterior segments of female. D, Antenna of male. E, Antenna of female. 176 jfirst annual deport Colpocephalum timidum Kellogg Numerous specimens from Limosa fedoa, the Marbled Godwit. Colpocephalum kelloggi Osborn One male from a buzzard (Cathartes aurea), Aliso Canyon. Menopon malleus Nitzsch One female specimen of this rather rare species from the Cliff Swallow (Petrochelidon luuifruiis.) Menopon dissimile Kellogg Two specimens also from the Cliff Swallow (Petrochelidon luni- frons). Menopon alternatum Osborn A small number collected from a buzzard (Cathartes aurea), Aliso Canyon. Menopon funereum Kellogg and Chapman Three specimens from Aphelocoma californica, the California Jay. ILaguna Ratine Laboratory 177 SOME MARINE AND TERRESTRIAL ACARINA OF LACUNA BEACH HABEY V. M. HALL During the summer we picked up quite a series of mites, many of them new species. From this material I describe the following mites which are mostly marine or littoral. Among them the Gamasidae are represented by a species that is parasitic on the large beach amphipods, a Sarcoptid was taken from one of the birds, the Trom- bidida? are represented by a large red Ehyncolophid common on the dry sand of the upper beach, the Hydrachnids by a new marine species and the Halicarida? by three new species. In the last two families good series were obtained but only by means of much towing and patient search. Seius orchestoideae n. sp. (Figure 96) Length without rostrum 641 micrrn., 542 micrrn. ; width 410 micrm., 320 micrm. Length of legs one and four about 520 micrm. ; length of legs two and three about 400 micrm. Color of female light straw, that of male still lighter ; smooth but not polished. Dorsal plate en- tire and covering whole dorsum. Shape ovoid, the anterior end some- what sharper (especially so in the male) and the posterior end rather flattened (also most marked in the male). Body broadest one- third of the way from the posterior end. The outline form 'above runs to the rounded anterior point without any shoulder-like bulge in either sex. Dorsal surface evenly convex. Mandibles greatly retractile (shown extended in the figure but can be drawn wholly within the body). Both arms of chela? short, stout. The fixed arm with a terminal beak proximal to which is one other tooth; the movable arm has two teeth which fit between and proximal to those on the fixed arm. From the movable arm and pointing outward and forward is a cylindrical process slightly swollen at the end in the male but not so swollen in the female. This process is about the same diameter as one of the leg-spines measured at the base of such a spine. Coxa3 almost contiguous and legs long, without apophyses in either sex ; all legs sparsely set with short, stout spines and terminated by short caruncles with claws on all legs. Dorsal surface with a few very heavy spines, over twice the diameter of those on the legs and placed as follows: (except for the first pair at anterior margin and close together, all these spines are directed 178 jTirst annual backwards) : A doul)le row of four pairs of spines extends back through the medial section of the dorsum as far as back edge of coxa three. Beginning over the front edge of coxa two, a sub- marginal row of three, and a marginal row of three, extend back as far as hack edge of coxa three. The longest pair of spines in the dorsum are situated behind and equally distant from the terminal spines of the medial and sub-marginal rows of their respective sides. Around the posterior end of the abdomen on dorsal and ventral sides are scattering, fine, short spines. Peritreme long and only slightly bent around coxa two and extending forward past coxa one. Anal plate separate in both sexes, large, broad, and not pointed behind but Figure 96. Seius orchestoideae with the posterior margin straight across; all corners rounded. Anal opening in the center. Male genital opening on anterior margin of sternal plate ; no teeth on the legs. From the foregoing characters this species according to Banks's key belongs in the genus Seius, which however he says has been divided by Ribaga into four sub-genera. As I have not been able to obtain Ribaga 's paper, it seems best to place my specimens pro- visionally in the genus Seius sens. lat. This species was taken from the large aniphipod On licsinlilcn <-riii Dryobates nuttallii ((land).) Ridgw. Xuttall Woodpecker. Owing to the general absence of trees, very few woodpeckers were seen. One was taken in Aliso Canyon and proved to be this species. Colaptes cafer collaris (Vigurs). Red-shafted Flicker. Uncommon here, and shy, only one or two being seen, and several heard. Calypte anna (Less.) Gould. Anna Hummingbird. Very common wherever flowering plants occurred. Undoubtedly ('. I'usttir occurs with this species. Tyrannus verticalis Say. Arkansas Kino-bird. ( 'onimon everywhere. They were especially frequent about euca- lyptus groves. In the town they kept up a continual noise, and seemed to be very quarrelsome. Two of them easily drove away a sparrow hawk that seemed to be trespassing on their domain. Infested by Nlrnnis food its. Tyrannus vociferans Swains. Cassin Kingbird. More retiring than T. r<'iiic/ilis. Far up Aliso Canyon one speci- men was taken. Far inland, others also were seen. I did not notice them in company with T. vciiicttlis. Myriarchus cinerascens (Lawr.) Sel. and Salv. Ash-throated Flycatcher. Often in the company of the noisy kingbirds. Many times single specimens were noted sitting quietly on some stump or wire waiting .for a meal. They occasionally give a plaintive call that is very char- acteristic. ILagtum Qgarine Lti&oratori? 191 Sayornis saya (Bonap.) Baird. Say Phoebe. On Jiine 25, nestlings of these species about three days old were found. These birds are common in all the canyons, often in company with the kingbirds, and occur occasionally on the beach. Sayornis nigricans semiatra (Vigors) Nelson. Western Black Phoebe. These little birds were commonly found along and near the beach, and about the cliffs. They do not seem to be at all gregarious. In- fested by Ninmts foedus. Empidonax difficilis Braid. "Western Flycatcher. Many of these little flycatchers were seen among the trees along the sides of Laguna Canyon. They often occurred in the company of wren-tits, vireos, and other birds. Otocoris alpestris actia Oberholser. California Horned Lark. Common in all the fields and meadows, moving in flocks. Aphelocoma californica (Vig.) Cab. California Jay Very common everywhere. Where the canyons are slightly wood- ed they congregate in the early mornings and set the hillsides ring- ing with their calls. Infested by Menopon funereum. Agelaius phoeniceus neutralis Ridgw. San Diego Red-wing. Quite common in all marshy lowlands. Often seen hunting along the beaches, sometimes in company with the Brown Blackbird. Quite young birds were common in the flocks as late as the first of July. Sturnella magna neglecta (And.) Allen. Western Meadow Lark. The ringing call of this bird is frequently heard at Laguna. They are not at all common although the locality is apparently a favor- able one for them. Icterus cucullatus nelsoni Ridgw. Arizona Hooded Oriole. These birds greatly exceeded I. bnllocki in numbers. They seemed to be common throughout the region, apparently preferring eucalyp- tus groves to other places. Icterus bullocki (Swains.) Bonap. Bullock Oriole. About Laguna these birds are rare and shy. Near Claremont, far inland, they are quite bold, and are common, even nesting about the houses. Scolecophagus cyanocephalus (Wagl.) Cab. Brown Blackbird. Great flocks of these birds are common along the beaches. They assemble in great numbers about decaying vegetable matter, and seem to find a foul-smelling slough a specially desirable spot. jTirst annual deport Carpodacus mexicanus frontalis (Say.) Ridgw. House Finch. This bird is abundant in Laguna as it is in most other towns. On July 6 a nest was found in one of the canyons with three young a few days old. This bird also, is to be commonly seen on the beaches. Astragalinus psaltria (Say.) Coues. Arkansas Goldfinch. Quite abundant among the hills, feeding on the seeds of many common plants. Chondestes grammicus strigatus (Swains.) Ridgw. Western Lark Sparrow. This is one of the most common sparrows at Laguna. They were especially common about barnyards. One specimen taken was almost an albino. Amphispiza belli (Cass.) Cones. Bell Sparrow. This species seems to be fairly common in the chaparral at Laguua. They were often in company with the song sparrows. Aimophila ruficeps (Cass.) Rufous-crowned Sparrow. Frequent in the chaparral. Melospiza melodia heermanni I'.uinl, Br. and Ridgw. Heerman Song Sparrow. These sparrows were very easily identified among others by their song and their sharper markings. They were very abundant in all the chaparral-covered hills. In the early morning the voices of great numbers of them could be heard. Pipilo maculatus megalonyx (Baird) Coues. Spurred Towhee. Very wild and exceedingly hard to obtain. Not many of these birds were seen near to Laguna, but in Aliso Canyon, where it is iiid re rarely disturbed, it is more common. Pipilo fuscus senicula Anthony. Anthony Towhee. Abundant through all the hills and valleys. Zamelodia melanocephala (Swains.) Coues. Black-headed Grosbeak. Not very common about the town of Laguna but further inland met with more often. They commonly sing from the tops of tall trees in the early morning. Infested by Docophorus communis, Guiraca caerulea lazula ( Less, i Ridg. \Yestern Blue Grosbeak. Rare in all localities. Only three were encountered during the summer. One was seen at Balboa near the bay, and the other two at the tule lakes in Laguna Canyon. Though rare, these birds did not seem to be at all shy. ILaguna Marine laboratory 193 Petrochelidon lunifrons (Say.) Cassin. Cliff Swallow. Very abundant about overhanging cliffs bordering the valleys. They swarmed over the hills and along the beaches. At one place the under side of certain cliffs is completely covered with their nests. On July 1 two young birds were just about ready to fly. These birds are very lousy, being infested with Docophorus excisus var. major, Ninnus longus, Menopon malleus, and Meiiopon dissimilis. Lanius ludovicianus gambeli Ridgw. California Shrike. Abundant along all of the valley bottoms. Early in the morn- ings they were often heard singing a low sweet song, which rather belies their character. Vireo pusillus Coues. Least Vireo. These little birds were rather common in thickly wooded places. They were always very quiet and shy. Dendroica aestiva morcomi Coale. Western Yellow Warbler. Along the willow bottoms, and in the lower portions of the can- yons these birds appeared to be quite common. Mimus polyglottus leucopterus (Vigors) Mearns. Western Mockingbird. Very common in all the canyons and along the hills, and in those places very shy, which is surprising because they are quite bold in the towns. Seldom heard singing. Toxostoma redivivum pasadenense (Grinnell) Richmond. Pasadena Thrasher. Although this bird has been reported only from farther inland, a skin of certainly this form was taken here. Toxostoma redivivum (Gamb.) Baird. California Thrasher. These birds were very abundant everywhere. They are very bold, and set up a great clamor when disturbed. Seldom heard sing- ing. Catherpes mexicanus conspersus Ridgw. Although C. m. punctulatus is more commonly reported from here I took a skin of this subspecies. It was critically examined by Mr. Chas. Metz and unquestionably determined as this form. Thyromanes bewickii charienturus Oberh. Southwest Bewick Wren. Fairly common in the canyons and among the chaparral-covered hills. Often observed in company with wren-tits. Chamaea fasciata Gamb. Pallid Wren-tit. Very common in all the valley bottoms. They were very bold and allowed very close inspection. 194 jfirst annual deport Psaltriparus minimus californicus Riclgw. Californian Bush-tit. These tiny birds occur iu great numbers, commonly ranging through the chaparral in large flocks. Polioptila caerulea obscura Ridgw. Western Gnatcatcher. Fairly common among bushes in the canyons. These are extra- ordinarily busy little birds. taguna Ratine ILaboratorp 195 NOTES ON THE MARINE ALG^ OF LACUNA BEACH JOHN GUERNSEY It was my intention during the first summer at Laguna Beach to make some beginning in anatomical and ecological studies of a few of the very numerous and interesting marine Algae occurring there. In the course of this work, large collections accumulated. A set of specimens was submitted to Dr. W. A. Setchell and he has very kindly given the determinations of them, calling especial attention to the fact that many of the names applied to our west coast Alga? are as yet uncertain in their application, and that the nomenclature is in need of careful revision, as some of the species themselves are in need, quite as urgently, of more detailed anatomical studies. I B Figure 105. Calothrix parasitica (Chauv.) Thurct have no desire to present this as a "mere list," since it means much more to me. It includes, however, a list of the commoner forms that any student will encounter at Laguna, and mostly in great abundance. We want to begin to know these things in their distribution and eco- logical relations, and this seems the logical and necessary first step. CYANOPHYCEAE Brachytrichia quoyi (Ag.) Bornet and Flahault One small colony of this species was taken on the holdfast of a Nereocystis coming from about four fathoms. Dr. Setchell says this 196 JTirst annual IReport collection "is a discovery, or rather rediscovery. This species was credited to our coast nearly forty years ago, but so far as I know has not been seen since." Calothrix parasitica (Chauv.) Thuret (Figure 105) Commonly parasitic in NciiKtlioi/ luliriciiin. Calothrix contarenii (Zau) 13. and F. Colonies of this species are occasional on exposed rocks almost to high tide mark. c Figure 106. Chaetomorpha aerea (Dilhv.) Kurtz Calothrix fasciculata Ag. Colonies common on exposed rocks almost to high tide mark. This and the preceding species form a slippery covering to the rocks that render them very treacherous for the pedestrian. During low tide on a hot day this little alga is seemingly completely dried out, and must be subjected to great heat, but always recovers prompt- ly with the next tide. llaguna 0artnc Laboratory 197 CHLOROPHYCE^ ULVACEAE Ulva californica \Yille Small tufts common on the rocks throughout the tidal zone. Ulva lactuca L. var. This "Sea Lettuce" is common on rocks and on other algae throughout the tidal zone. Enteromorpha flexuosa (Wulf. ) J. Ag. Similarly distributed and about as common as the two Vivas. Figure 107 A, C, D, E, Coclium mucronatum var. californicum. J, Ag. B, Coclium adliaerans (Cabr.) Ag. CLADOPHORACEAE Chaetomorpha aerea (Dillw.) Kuetz (Figure 106) Frequent on the rocks of the high tidal zone, especially in high tide-pools. Length of filament commonly 15 cm. ; cells .25 by .15 mm. Cladophora trichotoma (Ag.) Kuetz This and the preceding species are very commonly growing to- gether, the long slender filaments of the Chaetomorpha sometimes being attached to the more stocky Cladophora. 198 jTirst annual Report CODIACEAE Codium mucronatum var. californicum J. Ag. (Figure 107, A, C, D, E) Frequent on rocks of middle and lower tidal zone. Utricle .8 by .2 mm. Codium adhaerans (Cabr.) Ag. (Figure 107 B) My specimens taken from a holdfast of Nereocystis coming from about six fathoms. Utricle .6 bv .1 mm. Figure 108. Ectocarpus hemisphaericus Saunders PH^EOPHYCE.E ECTOCARPACEAE Ectocarpus hemisphaericus Saunders (Figure 108) Abundant epiphyte on Pelvetla fastigiata. Sporangia .08 by .04 mm. Ectocarpus tomentosus (Huds.) Lyngb. Epiphytic on Hesperophycus harveyanus. Ectocarpus tomentosoides Farlow Frequent as an epiphyte on Hesperophycus Imrveyanus. Ectocarpus mitchellae Harv. A frequent epiphyte on Phyllospadix tm-reyi. ILaguna e@arine lu&oratorp 1!)!) Ectocarpus globiger Knetz Colonies found growing on shells of Puuniiild.i'. Dr. Setcliell says of this determination: "I do not think that this species has been recognized on our coast before bnt I feel fairly certain of the identification." SPHACELARIACEAE Sphacelaria plumula var. californica Saund. A common epiphyte on Nereocystis. \ Figure 109. Eisenia arborea Habit sketch. ENCOELIACEAE Colpomenia sinuosa (Roth.) Derbes and Solier Epiphytic on Sargassum agardhianum. Scytosiphon lomentarius (Lyngb.) J. Ag. Frequent on rocks throughout the upper tidal zone. Endarachne binghamiae J. Ag. On rocks, more common through the middle tidal zone. 200 Jfirst annual Report Figure 110. Nereocystis gigantea Habit sketch. Figure 111. Macrocystis pirifera Habit sketch Figure 112. Figure 113. Egregia laevigata Setchell. Habit sketch. Chantransia dictyotae Collins ILaguna Ratine ILaboratorp 201 CHORDARIACEAE Cylindrocarpus berkeleyi (Grev.) Crouan Frequent on rocks and on shells in the middle tidal zone. RALFSIACEAE Ralfsia clavata (Carni.) Farlow Frequent on rocks of the high tidal zone. Hapterophycus canaliculatus A. and G. In large colonies on the rocks of the lower tidal zone. LAMINARIACEAE Eisenia arborea Areschoug (Figure 109) Abundant on rocks about the low tide mark, commonly growing on the borders of deep channels, and attaining a length of six feet. C E Figure 114. Nemalion lubricum Duby. 202 JTirst Annual Report Nereocystis gigantea (Figure 110) Occasionally found growing at Laguna in from four to six fathoms of water. This immense "bladder kelp" attracts a great deal of attention from visitors to the beach. The long, slender stems below the bladder often measure as much as thirty feet in length. Figure 115. Endocladia muricata (P. & R.) J. Ag. Figure 116. Laurencia virgata. Habit sketch. with a holdfast below which may be as large as a bushel basket, and the great "leaves" may measure twelve feet in length. In the extensive beds of Macrocystis just off shore, they may be located by the fact that the large hollow bladders are commonly used as perches by the sea-gulls. The name "Nereocystis gigantea" may not be its correct name, but it is certainly an apt one, although it does not Laguna Ratine Laboratory 203 equal in size the great bladder-kelp of northern waters, Nereocystis lutkeana. Macrocystis pyrifera (Turner) Agardh (Figure 111) Enormously abundant in about six fathoms of water. This is the common kelp forming the great off-shore beds along the Southern California coast. It becomes above fifty feet in length at Laguna Beach. Immense quantities of it wash up on the beach. Investiga- tions are being carried on elsewhere to determine its value as a fertilizer. B Figure 117. Polysiphonia verticillata Harv, Egregia laevigata Setchell (Figure 112) Abundant near the low tide mark. Length very variable but often reaching over twelve feet. Commonly found in company with Else ilia arborea, and very variable in the form of the fronds. FUCACEAE Hesperophycus harveyanus (Decaisne) Gardner (Fucus Harveyanus Decaisne) Common on the rocks of the high tidal zone, growing most com- monly along the lower limits of the zone of Pclrctia f 204 jTirst annual Report Figure 118. Pterosiphonia woodii (Harv.) Falk ILaguna Laboratory 205 Figure 119. Pterosiphonia woodii (Harv.) Falk. 206 Jfirst Annual Heport Pelvetia fastigiata (J. Ag.) deToni In immense colonies on the rocks of the high tidal zone, forming a distinct zone which reaches almost to the upper limits of algal growth. Cystoseira osmundacea (Mentz.) Ag. A frequent component of the beach wrack. Dr. Setchell gives this determination with doubt. Halidrys dioica Gardner Common on the rocks of the lower tidal zone. Sargassum agardhianum Farlow Common on rocks near low tide mark. DICTYOTACEAE Zonaria tournefortii Dictyopteris zonarioides Farlow Dictyota binghamiae J. Ag. Dilophus flabellatus Collins The above four species are all frequent on rocks of the middle tidal zone. RHODOPHYCE^E BANGIACEAE Porphyra naiadum C. L. Anderson Commonly epiphytic on basal portions of Phyllospadir. HELMINTHOCLADIACEAE Chantrasia dictyotae Collins (Figure 113) Abundant as an epiphyte on Di< ti/n/n lih/f/Juiiniae. Sporangia .02 mm. in diameter. Nemalion lubricum Duby. (Figure 114) Common on rocks of the lower tidal zone, especially on the faces of rocks exposed to the direct pounding of the heaviest surf. Stem commonly 1.4 mm. in diameter. Helminthocladia purpurea (ITarv.) J. Ag. Only seen twice, both times in the lower tidal zone. Lagtina S^arine Laboratory 207 GELIDIACEAE Gelidium crinale (Sum.) Lamour. var. Frequent on the rocks of the lower tidal zone. Gelidium amansii Kuetz Common on rocks of middle tidal zone. Figure 120. Strebdocladia camptoclada (Mont.) Falk. Gelidium coulteri Harv. Commonly forming colonies on the rocks of the middle tidal zone. Gelidium cartilagineum L. Frequent on rocks of middle tidal zone. Gelidium australe J. Ag. Also forming colonies on the rocks of the middle tidal zone. 208 Jfir0t annual deport Figure 121. Strebdocladia camptoclada (Mont.) Falk. Laguna Racine ilaboratorp 209 GIGARTINACEAE Endocladia muricata (P. and R.) J. Ag. (Figure 115) Common on rocks near high tide mark. Length of plant common- ly 2 cm., diameter of stem .4 mm. Chondrus canaliculatus (Ag.) Grev. Common on the rocks of the middle tidal zone. Gigartina canaliculata Harv. With the above. Gigartina spinosa (Kuetz) J. Ag. Gigartina exasperata Harv. and Baill. Gigartina horrida Farlovv The above three species are frequent on rocks of the lower tidal zone. Gigartina microphylla Harv. Specimens of this species frequent in the wrack along the beaches. Stenogramma interruptum (Ag.) Mont. Occasional in beach wrack. Dr. Setchell expresses doubt as to this determination. SPHAEROCOCCACEAE Hypnea sp. Epiphytic on other algae throughout the tidal zone. RHODYMENIACEAE Cordylecladia andersonii Grunow Frequent on rocks between tides. Chrysemenia pseudodichotoma Farlow Occasional in beach wrack. Plocamium coccineum (Huds.) Lyngb Frequent on the rocks of the lower tidal zone, and abundant in the beach wrack. This is the common "red sea-moss" of the South- ern California coast. Collectors will find it growing most abund- antly and in finest specimens on the under side of rocky ledges of the lower tidal zone. DELESSERIACEAE Nitophyllum violaceum J. Ag. var. crispulum. Epiphytic on other algae of the lower tidal zone. 210 JFirst Annual Report Figure 122. Strebdocladia sp. Figure 123. Herposiphonia sp. lU&oratorp Figure 124. Hetercsiphonia subsecunda (Suhr.) Falk. 212 jTirst Annual Report BONNEMAISONIACEAE Ricardia montagnei Durbes and Solier Commonly epiphytic on Laurencia virgata. RHODOMELACEAE Laurencia virgata J. Ag. (Figure 116) This is a very variable species in both form and habits, growing either on rocks or on the basal portions of Phyllospadix. In the lat- ter case the stems usually exhibit a remarkable tendril action. Diam- eter of the stems is commonlv 1.5 mm. Figure 125. Dasya pacifica Harv. Laurencia pinnatifida (Gmel.) Lamx. On rocks of the lower tidal zone. Polysiphonia verticillata Harv. (Figure 117) Epiphytic on other alga? of the lower tidal zone. Pterosiphonia woodi (Harv.) Falk. (Figures 118 and 119) Commonly epiphytic on Nereocystis. Length of cells commonly 2 mm. Diameter of cystocarps, .4 mm. ; tetraspores .12 in diameter. Laguna Labotatorp 213 D Figure 126. Spermothamnion snyderae Farlow. Figure 127. Griffithsia sp. 214 JFir0t annual deport Pterosiphonia bipinnata ( P. and R. ) Falk. Epiphytic on Nereocystix. Pterosiphonia baileyi (Harv.) Falk. Occasional on rocks of low tidal zone. Strebdocladia camptoclada (Mont.) Falk (Figures 120 and 121) Abundant as an epiphyte on other algae of the whole tidal zone. Cystocarps .3 mm. in diameter. Figure 128. Callithamnion rupicolum f. pygmaeum Collins. Strebdocladia sp. (Figure 122) Abundant on rocks and shells of the lower tidal zone. Of this plant, Dr. Setehell says: "Possibly a Strebdorltuliit ; perhaps, how- ever, a Polysiphonia. I have had it before, but as yet have not sat- isfactorily placed it." Laguna Ratine Laboratory '21 Z Herposiphonia sp. (Figure 123) This was found in tow-stuff from the tide-pools, so that it is prob- ably an epiphyte on other algse growing in such situations. Lophosiphonia obscura (Ag.) Falk. Common on low rocks of higher tidal zone, growing in dense col- onies and acting as a sand gatherer. Figure 129. Callithamnion rupicolum f. pygmaeum Collins. Lophosiphonia villum (J. Ag.) S. and G. Occurs intermingled with L. obscura. Heterosiphonia secunda (Suhr) Falk. Frequent as an epiphyte on various algae, especially corallines. Dr. Setchell remarks that "this is the plant which has passed in our lists under the name of Daxi/u snlisccmnla. The name given in the list is merely a synonym. There seems to be some reason for sus- pecting that our plant is not identical with the type of the species given, but belongs rather to 77. pulchra of the Japanese coast." 216 jffrst annual Report Heterosiphonia subsecunda (Suhr) Falk. (Figure 124) Epiphytic on other algae. Stichidia .8 mm. in length. Dasya pacifica Harv. (Figure 125) Occasional in beach wrack. Stichidia .45 mm. in length. CERAMIACEAE Spermothamnion snyderae Farlow (Figure 126) Occasional in small colonies on the under side of ledges in the lower tidal zone. Sporangia .1 mm. in diameter. Griffithsia sp. (Figure 127) A common epiphyte on the algas of the lower tidal zone. Spor- angia .08 mm. in diameter. Dr. Setchell says of this plant: "The specimens all have tetraspores. I wish very much that it might be found with cyxtocnrps. Until then we shall be uncertain as to the genus. Griffithni(i is perhaps hardly to be applied to this plant. In all probability it is more likely to belong to one of the related genera, but it is impossible to decide this witli certainty until we have the cystocarpic fruit." Callithamnion rupicolum forma pygmaeum Collins (Figures 128 and 129) An occasional epiphyte on other algae of the lower tidal zone. Sporangia .07 mm. in diameter. Cystocarps .2 mm. in diameter. Antithamnion floccosum (Muell.) Klein An epiphyte on Nereocystis. Spyridia filamentosa ( \Yulf.) Harv. Rare in the beach wrack. Ceramium codicola J. Ag. (Figure 130) Common on Codium ntcro>iatni, length commonly 1 cm. Centroceras clavulatum (Ag.) Mont. Abundant on the rocks of the upper tidal zone. Microcladia coulteri Harv. Epiphytic on Prioititix. 03iimic LtUuinitnrp GRATELOUPIACEAE Prionitis decipiens (Mont.) J. Ag. Occasional on rocks between tides. Grateloupia prolongata J. Ag. Common on the rocks of the entire between tide zone. Figure 130. Ceramnium codicola J. Ag. Polyopes bushiae Farlow One specimen found in wrack on beach. NEMASTOMACEAE Schizymenia sp. One specimen collected in wrack on beach. 218 jTirst annual Report CORALLINACEAE Choreonema thuretii (Born.) Schmitz Common in the middle tidal zone. Lithothamnion sp. Apparently several species of this genus form a common coating on rocks throughout the tidal zone. Dr. Setchell remarks of them, "No one knows the species of the crustaceous corallines." Amphiroa tuberculosa forma typica S. and G. Amphiroa tuberculosa f. frondescens (Kuetz) S. and G. The above two forms are common on the rocks of the lower tidal zone. Corallina officinalis L. var. A common coralline among rocks of the middle tidal zone. Corallina gracilis Lamx. Frequent on roeks toward the lower tide mark. Jania crassa Lamx. Occasional on rocks about lower tide mark. Jania rubens ( L. ) Lamx. Occurs in middle tidal zone. Lithothrix aspergillum J. E. Gray Frequent on rocks of the middle tidal zone. I',:-. . :