Madagascar and Indian Ocean Sipuncula
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884 E. Biological Oceanography 0LR(1980)27(12) excretion, whereas in non-spinose species a thick imperforate inner organic lining prevents or limits these functions. Includes 26 micrographs. Lamont- Doherty Geological Observatory of Columbia University, Palisades, N.Y. 10964, U.S.A. (mjj) 80:6014 Bek, T. A., T. L. Bear, N. M. Kalyakina and N. L. Semenova, 1980. The ecology of some com- mon species of invertebrates from the White Sea. (In Russian; English abstract.) Biol. rnor.. Akad. Nauk SSSR, 1980(1): 21-27. Six intertidal invertebrates (Arenicola marina, Asterias rubens, Macorna balthica, Garnnrnarus oceanicus, G. duebeni, Marinogarnmarus ob- tusatus) were studied regarding adaptations to short seasonal warming and exposure between tides. White Sea Biological Station, Moscow University, Primorsky, U.S.S.R. (sir) 80:6015 Bishop, J. D. D., 1980. Notes on the genus Cera- tocuma Caiman (Crtmtacea, Cumacea), with a description of C. cyrtum sp.nov. [from the Bay of Biscay]. J. nat. Hist., 14(3): 373- 388. Includes 59 drawings. Department of Marine Biology, University of Liverpool, Port Erin, Isle of Man, U.K. 80:6016 Boltovskoy, Demetrio, 1978. Filogenia y especia- cion en Chaetognatha. [Phylogeny and speciation in Chaetognatha.] Physis, B. Aires, (A)38(94): 13-25. The relatively low speciation of chaetognaths can- not be accounted for entirely by the usual specia- tion processes, nor even by certain others par- ticularly related to this taxon (i.e., motility, cosmopolitanism, competition, origin, evolutive speed). All chaetognath genera evolved from Eukrohnia, the oldest; mechanisms controlling their development are discussed. The author proposes that Sagitta, comprising 75% of all chaetognath species, is of relatively recent origin and responsible for 'rejuvenating' the group; thus species diversification has only begun to occur. Ciudad Universitaria de Nunez, Ciencias Bio- logicas, 1428 Buenos Aires, Argentina. (sir) 80:6017 Bozic, Branko, 1979. Bradya (Parabradya) bodini n.sp. du golfe de Gascogne (Crustacea, Copepoda, Harpacticoidea). [Bradya (Para- bradya) bodini n.sp. from the Gulf of Gas- cogne: Crustacea, Copepoda, Harpacti- coidea.] Bull. Mus. natn. Hist. nat., Paris, (4)1(A, Zool., 4): 1109-1113. Includes 15 drawings. Laboratoire de Zoologie, 61, rue de Buffon, 75005 Paris, France. 80:6018 Case, M. E., 1978. Los equinoideos del Pacifico de Mexico: Parte Primera: ordenes Cidaroidea y Aulodonta; Parte Segunda: ordenes Stiridonta y Camarodonta. [The echinoids of the Pacific coast of Mexico. I. Orders Cidaroidea and Aulodonta. II. Orders Stiridonta and Camarodonta.] Publnes especial. Cent. Cienc. Mar Limnol., Univ. nac. Auton. Mex., 1:242 pp. Includes a taxonomic index and 151 micrographs. 80:6019 Checkley, D. M. Jr., 1980. The egg production of a marine planktonic copepod in relation to its food supply: laboratory studies. Lirnnol. Oceanogr., 25(3): 430-446. The concentration of available food, rate of inges- tion and egg production were measured against variables: concentration and composition of car- bon and nitrogen, phytoplankton species. Results suggested that nitrogen (protein) is the potential limiting factor in egg production by Paracalanus parvus, and that carbon is inefficiently utilized. Egg production was better correlated with ingested than available food. Department of Biological Sciences, University of Alaska, Fairbanks, Alaska 99701, U.S.A. (sir) 80:6020 Cutler, E. B. and N. J. Cutler, 1979. Madagascar and Indian Ocean Sipuncula. Bull. Mus. natn. Hist. nat., Paris, (4)l(A, Zool., 4): 941- 990. More than 4000 sipunculans (54 species, 10 genera) from numerous collections were examined. Five new species are named and described: Golfingia liochros n.sp., G. pectinatoida n.sp., Phascolion rnegaethi n.sp., Aspidosiphon thornassini n.sp., and A. ochrus n.sp. Three other new species are described but not named. Important new morphological information is offered for Siphonosorna eurnanense, G. rnisakiana, G. rutilofusca, A. jukesii and Phascolosorna nigrescens; ten species are reported from significantly outside previously reported ranges. Includes drawings and micrographs. Utica College of Syracuse University, Utica, N.Y. 13502, U.S.A. (sir) 80:6021 Cutler, E. B. and N. J. Cutler, 1980. Deep-water Sipuncula from the Gulf of Gascogne. J mar. biol. Ass. ~K., 60(2): 449-459.
Transcript of Madagascar and Indian Ocean Sipuncula
884 E. Biological Oceanography 0LR(1980)27(12)
excretion, whereas in non-spinose species a thick imperforate inner organic lining prevents or limits these functions. Includes 26 micrographs. Lamont- Doherty Geological Observatory of Columbia University, Palisades, N.Y. 10964, U.S.A. (mjj)
80:6014 Bek, T. A., T. L. Bear, N. M. Kalyakina and N. L.
Semenova, 1980. The ecology of some com- mon species of invertebrates from the White Sea. (In Russian; English abstract.) Biol. rnor.. Akad. Nauk SSSR, 1980(1): 21-27.
Six intertidal invertebrates (Arenicola marina, Asterias rubens, Macorna balthica, Garnnrnarus oceanicus, G. duebeni, Marinogarnmarus ob- tusatus) were studied regarding adaptations to short seasonal warming and exposure between tides. White Sea Biological Station, Moscow University, Primorsky, U.S.S.R. (sir)
80:6015 Bishop, J. D. D., 1980. Notes on the genus Cera-
tocuma Caiman (Crtmtacea, Cumacea), with a description of C. cyrtum sp.nov. [from the Bay of Biscay]. J. nat. Hist., 14(3): 373- 388. Includes 59 drawings. Department of Marine Biology, University of Liverpool, Port Erin, Isle of Man, U.K.
80:6016 Boltovskoy, Demetrio, 1978. Filogenia y especia-
cion en Chaetognatha. [Phylogeny and speciation in Chaetognatha.] Physis, B. Aires, (A)38(94): 13-25.
The relatively low speciation of chaetognaths can- not be accounted for entirely by the usual specia- tion processes, nor even by certain others par- ticularly related to this taxon (i.e., motility, cosmopolitanism, competition, origin, evolutive speed). All chaetognath genera evolved from Eukrohnia, the oldest; mechanisms controlling their development are discussed. The author proposes that Sagitta, comprising 75% of all chaetognath species, is of relatively recent origin and responsible for 'rejuvenating' the group; thus species diversification has only begun to occur. Ciudad Universitaria de Nunez, Ciencias Bio- logicas, 1428 Buenos Aires, Argentina. (sir)
80:6017 Bozic, Branko, 1979. Bradya (Parabradya) bodini
n.sp. du golfe de Gascogne (Crustacea, Copepoda, Harpacticoidea). [Bradya (Para- bradya) bodini n.sp. from the Gulf of Gas- cogne: Crustacea, Copepoda, Harpacti- coidea.] Bull. Mus. natn. Hist. nat., Paris, (4)1(A, Zool., 4): 1109-1113. Includes 15
drawings. Laboratoire de Zoologie, 61, rue de Buffon, 75005 Paris, France.
80:6018 Case, M. E., 1978. Los equinoideos del Pacifico de
Mexico: Parte Primera: ordenes Cidaroidea y Aulodonta; Parte Segunda: ordenes Stiridonta y Camarodonta. [The echinoids of the Pacific coast of Mexico. I. Orders Cidaroidea and Aulodonta. II. Orders St ir idonta and Camarodonta.] Publnes especial. Cent. Cienc. Mar Limnol., Univ. nac. Auton. Mex., 1:242 pp. Includes a taxonomic index and 151 micrographs.
80:6019 Checkley, D. M. Jr., 1980. The egg production of
a marine planktonic copepod in relation to its food supply: laboratory studies. Lirnnol. Oceanogr., 25(3): 430-446.
The concentration of available food, rate of inges- tion and egg production were measured against variables: concentration and composition of car- bon and nitrogen, phytoplankton species. Results suggested that nitrogen (protein) is the potential limiting factor in egg production by Paracalanus parvus, and that carbon is inefficiently utilized. Egg production was better correlated with ingested than available food. Department of Biological Sciences, University of Alaska, Fairbanks, Alaska 99701, U.S.A. (sir)
80:6020 Cutler, E. B. and N. J. Cutler, 1979. Madagascar
and Indian Ocean Sipuncula. Bull. Mus. natn. Hist. nat., Paris, (4)l(A, Zool., 4): 941- 990.
More than 4000 sipunculans (54 species, 10 genera) from numerous collections were examined. Five new species are named and described: Golfingia liochros n.sp., G. pectinatoida n.sp., Phascolion rnegaethi n.sp., Aspidosiphon thornassini n.sp., and A. ochrus n.sp. Three other new species are described but not named. Important new morphological information is offered for Siphonosorna eurnanense, G. rnisakiana, G. rutilofusca, A. jukesi i and Phascolosorna nigrescens; ten species are reported from significantly outside previously reported ranges. Includes drawings and micrographs. Utica College of Syracuse University, Utica, N.Y. 13502, U.S.A. (sir)
80:6021 Cutler, E. B. and N. J. Cutler, 1980. Deep-water
Sipuncula from the Gulf of Gascogne. J mar. biol. Ass. ~ K . , 60(2): 449-459.
