RM2JR5KJF–Mud lobster, Krill (Upogebia stellata), Bergen, Norway, North Atlantic Ocean, Europe
RFDYHG4X–Mediterranean mud shrimp or burrowing shrimp (Upogebia pusilla)
RFR7F1FG–Mediterranean Mud Shrimp (Upogebia pusilla), Black Sea, Crimea, Russia
RM2AWEPTF–Harriman Alaska series . 234-236, figs. 119, 120 Uca crenulata 17, 190 stenodactyla (190)Upogebia pugettensis 12, 153Urocaris infraspinis 8,31-33, fig. IO longicaudata 33 Xanthias latimanus 16, 185 taylori 16, 185Xanthobella (180)Xanthodes hemphillii 180 leucomanus (182), (183). NEW YORK DOUBLEDAY, PAGE & COMPANY1904 COPYRIGHT, 1904 BYEDWARD H. HARRIMAN
RM2T6CHK2–Mud lobster, Thalassina anomala 1, and mud shrimp, Upogebia stellata 2. Talassina scorpionoide, Gebia stellata. Handcoloured copperplate stipple engraving from Antoine Laurent de Jussieu's Dizionario delle Scienze Naturali, Dictionary of Natural Science, Florence, Italy, 1837. Illustration engraved by Corsi, drawn by Jean Gabriel Pretre and directed by Pierre Jean-Francois Turpin, and published by Batelli e Figli. Turpin (1775-1840) is considered one of the greatest French botanical illustrators of the 19th century.
RM2BAJ2F0–Mud lobster, Thalassina anomala 1, and mud shrimp, Upogebia stellata 2. Talassina scorpionoide, Gebia stellata. Handcoloured copperplate stipple engraving from Antoine Laurent de Jussieu's Dizionario delle Scienze Naturali, Dictionary of Natural Science, Florence, Italy, 1837. Illustration engraved by Corsi, drawn by Jean Gabriel Pretre and directed by Pierre Jean-Francois Turpin, and published by Batelli e Figli. Turpin (1775-1840) is considered one of the greatest French botanical illustrators of the 19th century.
RMPFE1JM–. Denkschriften der Medicinisch-Naturwissenschaftlichen Gesellschaft zu Jena. Natural history; Science; Biology. io8 H. Balss, 62 4. lastis lalandii. 1910 Stebbing, p. 374. 2 (J, I 9. Possession-Insel, Deutsch-Südwestafrika, L. Schultze, Mai 1903, No. 261. 5. Upogebia capcnsis (Krauss). Fig. 7 und 8. 1893 Gebia major var. capensis Kraus.s, p. 54. 1891 „ capensis Ortmann, p. 54. 1900 Upogebia capensis Stebbing, p. 45 (Pt. 1). 1910 „ „ Stebbing, p. 370. 1894 Gebia africana Ortmann, p. 22, Taf. II, Fig. 4. Viele Exemplare, gesammelt in der Lüderitzbucht, Juli 1903. Da keiner der bisherigen Unters
RMMCTM87–. a. Side view. Fig. 32. Upogebia B.R. I, stage III b. Part of telson. c. Maxilla. d. Maxillipede 3.
RMT1HX0K–Discovery reports (1938) Discovery reports discoveryreports17inst Year: 1938 LARVAE OF DECAPOD CRUSTACEA 331 a. Side view. Fig. 32. Upogebia B.R. I, stage III b. Part of telson. c. Maxilla. d. Maxillipede 3.
RM2JR5KJK–Mud lobster, Krill (Upogebia stellata), Bergen, Norway, North Atlantic Ocean, Europe
RFDYHG4R–Mediterranean mud shrimp or burrowing shrimp (Upogebia pusilla)
RM2AWETAT–Harriman Alaska series . nus dentatus (175) gibbosulus (176) oregonensis (178) recurvidens (178) walked (l/S) Trichocera oregonensis (178)Trichoniscus papillicornis 227-228, figs. 113-117Tryphosa nugax 234-236, figs. 119, 120 Uca crenulata 17, 190 stenodactyla (190)Upogebia pugettensis 12, 153Urocaris infraspinis 8,31-33, fig. IO longicaudata 33 Xanthias latimanus 16, 185 taylori 16, 185Xanthobella (180)Xanthodes hemphillii 180 leucomanus (182), (183). BY MARY J. RATHBUN, HARRIET RICHARDSON,S. J. HOLMES, AND LEON J. COLE — , •; BOOL. «JPL»CATELO BY f .•jTHUhlTV.harrimanalaskase10harr
RMMCTM83–. Fig. 33. Upogebia D. I. St. 91. a. Antenna, b. Maxillule. c. Maxillipede 3 and legs. d. Maxillipede i. e. Maxillipede 2. /. Maxillipede 3.
RMT1HX0M–Discovery reports (1938) Discovery reports discoveryreports17inst Year: 1938 a. Side view. Fig. 32. Upogebia B.R. I, stage III b. Part of telson. c. Maxilla. d. Maxillipede 3. Fig. 33. Upogebia D. I. St. 91. a. Antenna, b. Maxillule. c. Maxillipede 3 and legs. d. Maxillipede i. e. Maxillipede 2. /. Maxillipede 3.
RFDXRAPA–Mediterranean mud shrimp or burrowing shrimp (Upogebia pusilla)
RMRMN7GY–. The Annals and magazine of natural history; zoology, botany, and geology. Upogebia. Laomedia. Jaxea. Thalassina. Axiopsis. Axius. Scytoleptus.. 3G*. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. London, Taylor and Francis, Ltd
RMMCTM6T–. Fig. 39. Maxillule of adult. Upogebia stellata (a), and Callianassa truncata {b). hinge of this line as if panting for breath. The agreement in loss of epipods and podo- branchs cannot be so readily dismissed; but the gill formula may vary so much as between related genera that agreement is not a very sound basis to build upon. The presence or absence of an appendix interna is a point of diff'erence of serious importance. It is present in Axiidae and Callianassa and appears to be a feature of the ancestral Decapod, though lost in Nephropsidea. While, then, the Upogebiinae and Callianassinae
RMT1JGKW–Discovery reports (1938) Discovery reports discoveryreports17inst Year: 1938 342 DISCOVERY REPORTS a small papilliform process, whereas it is a large membranous plate, recalling the exopod of the maxilla, in Upogebia (fig. 39). So far as I am aware this exite is found among Decapoda only in Euphausiacea, in Caridina alone among Caridea, and in Anomura. In the latter it is large in Eupagunis and very large indeed in Galathea and Porcellana. Whatever importance is allowed to the differences, it seems that the resemblances have very much less weight. The only important characters are the presen
RMRHNWRA–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 26 MILTON FINGERMAN AND CH1TARU OGURO OBSERVATIONS AND RESULTS Responses of erythrophores in Upogcbia to tissue extracts The aim of this experiment was to observe the effects of eyestalks, sinus glands, and supraesophageal ganglia from Upogebia on eyestalkless specimens of Upogebia. The results are presented in Figure 1 where the results from three experiments (3, 3, and 4 test animals, respectively) are averaged. Aside from the responses to the extracts, inspection of Figure 1 reveals that the red pigment of eyestalkless Up
RMMEE7R8–. Die Decapodenfauna der Adria : Versuch einer Monographie . Fig. 62. Upogebia deltaura Leacli. [Original.] Vordere Cephalothoraxpartie. seitlich. Oben: Rostrum, seitlich. unterscheidbar: Der unbewegliche Finger der Schere des 1. Pereio- poden ist nur wenig oder gar nicht kürzer als der Dactylus. Am Vorderrande des Cephalothorax fehlt der jederseits ober der zweiten Antenne (hinter dem Auge) sitzende, feine Dorn, wie ihn IL litoralis aufweist. Außerdem sind Palma und Dactylus des 1. Pereiopoden bei dieser Art verhältnismäßig kürzer und weniger schlank, wie auch die zwei Längskiele am Oberrande
RMT1HWYT–Discovery reports (1938) Discovery reports discoveryreports17inst Year: 1938 330 DISCOVERY REPORTS Antenna: basis with small inner and outer spines; scale broad, without outer basal seta. Mouth parts rudimentary. Endopods of maxillipedes 2 and 3 rudimentary, seated low down on basis. Exopods on maxillipedes 1-3 only. Chelaeoflegsiandalarge. Epipods absent. Four pairs of pleopods, that of somite 2 very small. Uropods absent. UPOGEBIIDAE The development of the European species Upogebia littoralis, U. stellata and U. deltaiira has been described by Sars, Cano and Webb, and these species, though
RMRHNWPG–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. CHROMATOPHORE CONTROL IN UPOGEB1A E- 27. FIGURE 2. Diagram of the eyestalk of Upogebia. E, eye; ON, optic nerve; SC, secretory cells. secretory activity seemed appropriate. Examination of sectional eyestalks revealed a group of 500-700 ovate cells whose cytology and staining properties are typical of neurosecretory cells. This cluster of cells lies in the dorsal half of the distal third of the eyestalk, partially surrounding the optic nerve, and is enclosed by a connective tissue sheath (Fig. 2). The cells are fairly uniform
RMMCTM7W–. Fig. 34. Upogebia B.R. II. a. Side view. b. Telson. Jaxea S. I (Fig. 35) Samoa. Stage I. Length 3-55 mm. Head region produced into a long "neck", without rostrum; abdomen: somite i with small lateral blunt process, somites 2-5 with sharp pleural hooks. Telson deeply hollowed, with spine formula 7 + 7; spine 2 represented by a small hair not easily seen from above. Antennule unsegmented, with inner spine-like process in place of endopod. Antenna: endopod with three long setae, and scale with ten setae; basis with large ventral spine. Left mandible and paragnath sickle-shaped. Maxill
RMRHK11C–. The biology of marine animals. Marine animals; Physiology, Comparative. 516 THE BIOLOGY OF MARINE ANIMALS they were produced and secreted in an endocrine organ, the sinus gland (Fig. 12.7(a)). This gland is usually located in the eye-stalk of malacostraca, but in some forms (isopods, anomuran Upogebia, etc.) the sinus gland lies near the brain. The gland is richly innervated and contains numerous secretory inclusions. It is now established that the sinus gland belongs to the category of neurosecretory organs. Secretory cells in various parts of the central nervous. Fig. 12.7. (a). Location o
RMMCTM8D–. Fig. 31. Thalassinid B.R. XI a. Telson. b. Maxillipede i. c. Maxillipedes 2 and 3. Upogebia sp. B.R. I (Fig. 32) Barrier Reef, St. 46. Stage III. Length 4-4 mm. General form as in U. deltaiira. Abdomen without spines; pleura rounded. Telson widening towards end, width about four-fifths of length; posterior margin slightly concave, with very small median spine and a spine formula of 8, i, 8; spine 2 reduced to a hair and spine 4 large, not jointed to telson. Antenna, basis with two small spines, exopod without outer seta near base, with large apical spine; endopod as long as exopod. Mandible
RMRHN3KW–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. RESPIRATORY ADAPTATIONS OF UPOGEBIA 275 ometer BMS3 blood gas analyzer, and the pO2 measured. The analyzer water bath was maintained at 20°C. RESULTS Behavior at simulated low tide About 1 hr after a simulated low tide began, U. africana in either glass burrows or mud burrows in an aquarium moved slowly up the burrow and approached the air-water interface. When its antennae reached the surface, the shrimp stopped, and in some cases moved down the burrow, before recommencing upward move- ment. Intermittent strong pleopod beat
RMRG80HE–. Bulletin - United States National Museum. Science. U. S. NATIONAL MUSEUM BULLETIN 133 PL. 29. 1,2. Upogebia eocenica. I Page 124.1 3 6. Callianassa longimana. iPage 122.) 7. Astacus chenoderma. (Page 130' For explanation of plate see page 146. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. United States National Museum; Smithsonian Institution; United States. Dept. of the Interior. Washington : Smithsonian Institution Pr
RMRH3YD6–. Breviora. 1973 AMERICAN UPOGEBIA. y 4 iji 41 SB Overall Lenath rmml Figure 3. Regression of the width of pahii (PI) onto overall length for male (squares) versus female (circles) Upogebia affinis. The upper triangle is the x-axis median for males; through it passes the best-fit median, regression line. The envelope of lighter lines are 90% confidence limits. The lower triangle marks the female x-axis median point witli a similar set of lines.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance
RMRHN8PE–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 278 ROGENE KASPAREK THOMPSON AND AUSTIN W. PRITCHARD The metabolic rate vs. oxygen tension data of four Upogebia pugettensis are shown averaged in a curve drawn by inspection (Fig. 2). The metabolic rate is independent of external oxygen concentration as the tension is lowered from air- saturation to approximately 50 mm Hg. Compared to Callianassa, the Tc occurs at considerably higher oxygen tensions, 45-50 mm Hg, corresponding to 1.7-1.9 ml O2/l, or ca. 30% air-saturation. No significance is attached to an apparent slight c
RMRHG9M9–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. LARVAL BEHAVIORAL CUE 109. Figure 5. Time-lapse projections of larval behavior of Phonmis pullida in filtered seawater (FSW) and Upogebia-ccmdilianed seawater (UCSW). Larval swimming was videotaped for 30 s. Video images were captured with IMovie 3.03. sampled at 10 frames/s, and exported as a stack of TIFF tiles. Time-lapse projections of these images were made with Image J 1.32 (Wayne Rasband. NIH). (A) Larval behavior in FSW. Larvae tended to hover at the top (T) of the chamber. (B) Larval behavior in UCSW. Larvae increas
RMRHG9MK–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 20 40 60 Microliters of UCSW/ml of FSW Figure 2. Dosage-dependent behavioral response of Phoronis pallida larvae to Upogebia-condilioned seawater (UCSW). Error bars equal one standard deviation from the mean and were calculated from 3 replicates of 10 larvae per treatment.. FSW UCSW FSW UCSW Downward Speeds Horizontal Speeds Figure 4. The average downward and horizontal swimming speeds of Phoronis pallida larvae in filtered seawater (FSW) and Upogebia-condi- tioned seawater. Error bars equal one standard deviation from the m
RMRMJMKC–. Annals of the South African Museum = Annale van die Suid-Afrikaanse Museum. Natural history. Descriptive Catalogue of South African Decapod Crustacea. 517 surface oblique, i.e. sloping downwards and outwards, forming a shallow smooth groove bordered above (actual upper margin of fingers: Stimpson's "crenulate carina") and below by a series of. / e Fig. 96.—Upogebia capensis (Krauss). a, dorsal view of carapace, showing linea ihalassinica (l.th.), pile omitted, b, lateral view of anterior part of carapace, showing linea ihalassinica, cervical groove (e.g.), eye (oe.), with lateral l
RMRG73N6–. Bulletin - United States National Museum. Science. POLYCHAETE WORMS, PART 1 109. neS — Figure 29.—Hesionidae, Parahesione liiteola: a, dorsal view anterior end; h, dorsal view posterior end; c, parapodium. Biology.—Found at low water on oyster shells in sandy mud flats and silty sand. Found on sandy flats with rubble, Kving commen- sally in the burrows of the ghost shiimp Upogebia qffinis (Say). Moves rapidly and easily escapes notice. Some were massed with greenish eggs in July (Wellfleet Harbor, Massachusetts, July 3, 1954). Material examined.—Type of Hesionc agilis. Also Massachusetts (We
RMRH3YDN–. Breviora. 8 BREVIORA No. 408 3A y IJ. 30 40 50 GO Overall length [min] Figure 2. Regression of the fixed finger length onto overall length for males (squares) versus females (circles) of Upogebia affinis. The upper triangle is the x-axis median for males; through it passes the best-fit median, regression line. The envelope of lighter lines are 90% confidence limits. The lower triangle marks the female x-axis median point with a similar set of lines. sympatric species interesting, but to little purpose until their natural history is better known. The analysis does point to prob- lems latent i
RMRH3YBE–. Breviora. 22 BREVIORA No. 408. Figure 6. Upogebia rostrospinosa Bott female paratype: A) A2, B) habitus, C) female first pleopod, D) Al, E) pleopod 2, F) pereopods 1-5, G) cephalothorax and right cheliped, H) sixth abdominal segment and telson. Hairs and setae omitted. Scale lines equal 2 mm.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Harvard University. Museum of Comparative Zoology. Cambridge, Mass. , Museum of Co
RMRH3YBT–. Breviora. 1973 AMERICAN UPOGEBIA 21. Figure 5. Upogebia annae n. sp. female holotype: A) habitus, B) A2, C) pereopods 1-5, D) female pleopod 1, E) Al, F) sixth abdominal seg- ment and telson, G) pleopod 2, H) cephalothorax and right cheliped. Hairs and setae omitted. Scale lines equal 2 nun.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Harvard University. Museum of Comparative Zoology. Cambridge, Mass. , Museum of Com
RMRMJMJ1–. Annals of the South African Museum = Annale van die Suid-Afrikaanse Museum. Natural history. Descriptive Catalogue of South African Decapod Crustacea. 521 Locality.—St. Francis Bay (S. Afr. Mus.). Remarks.—Described from a single ovigerous $ returned unidentified by Stebbing, and appendages of another specimen mounted on a slide by Stebbing.. Fig. 97.—Upogebia assisi Brnrd. a, anterior part of carapace, b, outer side of hand of chela, setae omitted, with apex of finger further enlarged, c, dactyl of 3rd (and 4th) leg, only apical setae shown, d, apex of 6th joint and dactyl of 5th leg, setae
RMRHKWC3–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. t 5 7 9 II Calcium, mEqL"1,medium 13 100 %SW —i— 15 —r- 17 FIGURE 7. Blood calcium of U. pugettensis and C. calijorniensis as a function of medium calcium concentration. Temperature of media 15° C. Points represent averages of duplicate determinations. Group means indicated by + with the questioned value omitted. species of Upogebia are iso-osmotic to full strength SW and in U. pugettensis this iso-osmoticity extends to 125% SW (Fig. 5). Below 100% SW U. pugettensis and U. affinis are strong hyper-osmotic regulators. U.
RMRHN3KH–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. RESPIRATORY ADAPTATIONS OF UPOGEBIA 211 100-f 0) o 25- 0 Aerial. L An OKI c 0 100 200 Time (hrs) 300 IOOH I 5CH en o o 20- § O) O. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Marine Biological Laboratory (Woods Hole, Mass. ); Marine Biological Laboratory (Woods Hole, Mass. ). Annual report 1907/08-1952; Lillie, Frank Rattray, 1870-1947; Moore, Carl Ri
RMRHMH85–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. LA(LTU,3) PS(PTU,2) 1 00 (jm DM(ATU) FIGURE 5. Motoneurons in G6 with (A-D) axons in R6 that innervate the axial muscles (see Table III) and (E-G) axons in R2 that innervate the appendage muscles in the telson. Anterior toward top of page. A, E, Procambarus; B, Upogebia: C, F, Munida; D, G, Emerita. Identification of fast flexor motoneurons in crayfish from Dumont and Wine (in prep.). Some of the R6 motoneurons in the other species are labelled by the similarities in their soma positions and neurite structures (not shown) wi
RMRHN8NM–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. DV 20 40 60 80 100 OXYGEN TENSION, mmHg 120 140 160 FIGURE 2. Oxygen consumption of non-molted Upogebia pugettensis (O 6.5 g; D3.4 g; • 8.2 g; V 5.9 g) and of a postmolt U. pugettensis (shaded circles 3.7 g) as a function of oxygen tension at 10° C. Metabolic pattern may be altered by experimental conditions. Hiestand (1931) reported that the crayfish Orconectes ( = Cambarus') virilis (Hagen), normally a regulator with respect to metabolism, shows a conforming pattern if the jar-animal volume ratio is too small or if the exp
RMRHN8MC–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. THALASSINID RESPIRATORY ADAPTATIONS 287 MAcGiNiTiE, G. E., 1930. The natural history of the mud shrimp Upogebia pugettensis (Dana). Ann. Mag. Nat. Hist., series 10, 6: 36-44. MACGINITIE, G. E., 1934. The natural history of Callianassa californiensis Dana. Amer. Midi. Nat., 15: 166-177. MACGINITIE, G. E., 1935. Ecological aspects of a California marine estuary. Amer. Midi. Nat., 16: 629-765. MONTUORI, A., 1913. Les processus oxydatifs chex les animaux marins en rapport avec la loi de superficie. Archs. Ital. Biol, 59: 213-234
RMRHKWFY–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 200. Upogebia pugettensis, i5°c Upogebia atffinis, 22°C Isoionicity, [Cl] = 285 meq / L. Callianassa californiensis 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 50 52 Time, hours FIGURE 2. Blood chloride concentrations of Callianassa and Upogebia as a function of time, following acute introduction of animals adapted to 100% SW into 50% SW. A = mean of Callianassa Cl, n = 5 at each point; temperatures varied between 13° and 16° C. O — mean of U. pugettensis Cl, n = 7 at each point. D = mean of U. affinis Cl, n = 3 at
RMRH3YCT–. Breviora. 1973 AMERICAN UPOGEBIA 13 c ^ ^ Ji -Ho . >â) 3 c « t; <^ â¢a a 2 <« â¢^ S O t) < O o <M rt . .y *-^ S <^ c S . « o - >, â -:: "^ I .--s CM ^ -â-«.. I' C4 §-.!=< s^^ ^ 5 "? -^ " I -. ^^. §<^ + + I I ^- - â¦^ -^ Lj .Li I t"^ I ^ ^^ ^^ , 3 ^^ t 1^ ^ ^ y r "^ ^ ^: 2:i «J ^ U «; S: Si <; . E rj t^^ ⢠^ w Vâ ;i r* <- 't:i ^ = 5 ^ S = &H "^ ic i -*^ ⢠P rt C jj o o a. be o til n .1 5 I 5 '^ "O O O i« c » I â .^. ,^ ^ ^: .n H 2 =^ I I I I - + <^ 10 CM rv. O I I I I r^ <%. « '^ ⢠« 9"
RMRCDWT7–. Discovery reports. Discovery (Ship); Scientific expeditions; Ocean; Antarctica; Falkland Islands. 330 DISCOVERY REPORTS Antenna: basis with small inner and outer spines; scale broad, without outer basal seta. Mouth parts rudimentary. Endopods of maxillipedes 2 and 3 rudimentary, seated low down on basis. Exopods on maxillipedes 1-3 only. Chelaeoflegsiandalarge. Epipods absent. Four pairs of pleopods, that of somite 2 very small. Uropods absent. UPOGEBIIDAE The development of the European species Upogebia littoralis, U. stellata and U. deltaiira has been described by Sars, Cano and Webb, and
RMRCDWRF–. Discovery reports. Discovery (Ship); Scientific expeditions; Ocean; Antarctica; Falkland Islands. 342 DISCOVERY REPORTS a small papilliform process, whereas it is a large membranous plate, recalling the exopod of the maxilla, in Upogebia (fig. 39). So far as I am aware this exite is found among Decapoda only in Euphausiacea, in Caridina alone among Caridea, and in Anomura. In the latter it is large in Eupagunis and very large indeed in Galathea and Porcellana. Whatever importance is allowed to the differences, it seems that the resemblances have very much less weight. The only important char
RMRCDWT5–. Discovery reports. Discovery (Ship); Scientific expeditions; Ocean; Antarctica; Falkland Islands. LARVAE OF DECAPOD CRUSTACEA 331. a. Side view. Fig. 32. Upogebia B.R. I, stage III b. Part of telson. c. Maxilla. d. Maxillipede 3.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Institute of Oceanographic Sciences (Great Britain); National Institute of Oceanography of Great Britain; Great Britain. Colonial Office. Discover
RMRCDWT3–. Discovery reports. Discovery (Ship); Scientific expeditions; Ocean; Antarctica; Falkland Islands. a. Side view. Fig. 32. Upogebia B.R. I, stage III b. Part of telson. c. Maxilla. d. Maxillipede 3.. Fig. 33. Upogebia D. I. St. 91. a. Antenna, b. Maxillule. c. Maxillipede 3 and legs. d. Maxillipede i. e. Maxillipede 2. /. Maxillipede 3.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. Institute of Oceanographic Sciences (Gr
RMRCDWT0–. Discovery reports. Discovery (Ship); Scientific expeditions; Ocean; Antarctica; Falkland Islands. LARVAE OF DECAPOD CRUSTACEA 333 I have recorded (1924, p. 150) the occurrence of larvae of a species oi Jaxea from New Zealand, and have now found the same form in plankton from Samoa. Two new forms of larva, one of which may belong to a new species of Naiishonia, have been found in the Discovery and Barrier Reef plankton, and they show two steps in the evolution of the elongated head region which is so marked in Jaxea.. Fig. 34. Upogebia B.R. II. a. Side view. b. Telson. Jaxea S. I (Fig. 35) Sa
RMRD16BH–. Denkschriften der Medicinisch-Naturwissenschaftlichen Gesellschaft zu Jena. Natural history; Science; Biology. io8 H. Balss, 62 4. lastis lalandii. 1910 Stebbing, p. 374. 2 (J, I 9. Possession-Insel, Deutsch-Südwestafrika, L. Schultze, Mai 1903, No. 261. 5. Upogebia capcnsis (Krauss). Fig. 7 und 8. 1893 Gebia major var. capensis Kraus.s, p. 54. 1891 „ capensis Ortmann, p. 54. 1900 Upogebia capensis Stebbing, p. 45 (Pt. 1). 1910 „ „ Stebbing, p. 370. 1894 Gebia africana Ortmann, p. 22, Taf. II, Fig. 4. Viele Exemplare, gesammelt in der Lüderitzbucht, Juli 1903. Da keiner der bisherigen Unters
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