What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?

Gibbons, M.J.; Richardson, A.J.; Angel, M.V.; Buecher, E.; Esnal, G.; Fernandez Alamo, M.A.; Gibson, R.; Itoh, H.; Pugh, P.; Boettger-Schnack, R.; Thuesen, E.

doi:10.1111/j.0030-1299.2005.13754.x

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Gibbons, M.J.; Richardson, A.J.; Angel, M.V.; Buecher, E.; Esnal, G.; Fernandez Alamo, M.A.; Gibson, R.; Itoh, H.; Pugh, P.; Boettger-Schnack, R.; Thuesen, E. "What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?" (2005) Oikos. 109(3):567-576

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00301299_v109_n3_p567_Gibbons

Estamos trabajando para incorporar este artículo al repositorio

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

The relationship between date of first description and size, geographic range and depth of occurrence is investigated for 18 orders of marine holozooplankton (comprising over 4000 species). Results of multiple regression analyses suggest that all attributes are linked, which reflects the complex interplay between them. Partial correlation coefficients suggest that geographic range is the most important predictor of description date, and shows an inverse relationship. By contrast, size is generally a poor indicator of description date, which probably mirrors the size-independent way in which specimens are collected, though there is clearly a positive relationship between both size and depth (for metabolic/trophic reasons), and size and geographic range. There is also a positive relationship between geographic range and depth that probably reflects the near constant nature of the deep-water environment and the wide-ranging currents to be found there. Although we did not explicitly incorporate either abundance or location into models predicting the date of first description, neither should be ignored. Copyright © Oikos 2005.

Registro:

Documento:	Artículo
Título:	What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?
Autor:	Gibbons, M.J.; Richardson, A.J.; Angel, M.V.; Buecher, E.; Esnal, G.; Fernandez Alamo, M.A.; Gibson, R.; Itoh, H.; Pugh, P.; Boettger-Schnack, R.; Thuesen, E.
Filiación:	Zoology Dept., Univ. of the Western Cape, Private Bag X17, Bellville 7535, South Africa Zoology Dept., Natural History Museum, Cromwell Rd, London, SW7 5BD, United Kingdom Sir Alister Hardy Found. Oceanic S., The Laboratory, Citadel Hill, Plymouth, PL1 2PB, United Kingdom Southampton Oceanography Centre, Empress Dock, Southampton, SO14 3ZH, United Kingdom Depto de. Ciencias Biologicas, Univ. de Buenos Aires, 1428 Buenos Aires, Argentina Laboratorio de Invertebrados, UNAM, Apartado Postal 70-371, MX-04510 Mexico D. F., Mexico Sch. of Biol. and Earth Sciences, Liverpool John Moores Univ., Byrom St., Liverpool, L3 3AF, United Kingdom 1-8-9 Nakajima, JP-210-0806 Kawasaki, Japan Moorsehdener Weg 8, DE-24211 Rastorf-Rosenfeld, Germany Lab. II, Evergreen State College, Olympia, WA 98505, United States
Palabras clave:	deep water; geographical distribution; new record; range size; size; vertical distribution; zooplankton
Año:	2005
Volumen:	109
Número:	3
Página de inicio:	567
Página de fin:	576
DOI:	http://dx.doi.org/10.1111/j.0030-1299.2005.13754.x
Título revista:	Oikos
Título revista abreviado:	Oikos
ISSN:	00301299
CODEN:	OIKSA
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00301299_v109_n3_p567_Gibbons

Referencias:

Allsopp, P.G., Probability of describing an Australian scarab beetle: Influence of body size and distribution (1997) J. Biogeogr., 24, pp. 717-724
Angel, M.V., Ostracoda (1999) South Atlantic Zooplankton, pp. 815-868. , Boltovskoy, D. (ed.), Backhuys
Baker, A.DC., Boden, B.P., Brinton, E., (1990) A Practical Guide to the Euphausiids of the World, , Nat. Hist. Mus. Publ, London, UK
Bieri, R., Systematics of the Chaetognatha (1991) The Biology of Chaetognaths, pp. 122-136. , Pierrot-Bults, A. C. (ed.), Oxford Univ. Press
Blackburn, T.M., Gaston, K.J., Animal size distributions: Patterns, mechanisms and implications (1994) Trends Ecol. Evol., 9, pp. 471-474
Blackburn, T.M., Gaston, K.J., What determines the probability of discovering a species? A study of South American oscine passerine birds (1995) J. Biogeogr., 22, pp. 7-14
Boltovskoy, D., Diversidad y biogeografia del zooplancton del Atlántico sur (1999) Ann. Acad. Nacional Ciencias Exactas, Físicas Y Naturales, 51, pp. 111-136. , Buenos Aires
Boltovskoy, D., Correa, N., Boltovskoy, A., Marine zooplanktonic diversity: A view from the South Atlantic (2002) Oceanol. Acta, 25, pp. 271-278
Bouillon, J., Hydromedusae (1999) South Atlantic Zooplankton, pp. 385-466. , Boltovskoy, D. (ed.), Backhuys
Bouillon, J., Boero, F., Synopsis of the families and genera of the Hydromedusae of the world, with a list of the worldwide species (2000) Thalassia Salentina, 24, pp. 47-296
Bradford-Grieve, J.M., Markhaseva, E.L., Rocha, C.E.F., Copepoda (1999) South Atlantic Zooplankton, pp. 869-1098. , Boltovskoy, D. (ed.), Backhuys
Brown, J.H., Maurer, B.A., Evolution of species assemblages: Effects of energetic constraints and species dynamics on diversification of the North American avifauna (1987) Am. Nat., 130, pp. 1-17
Bucklin, A., Frost, B.W., Bradford-Grieve, J., Molecular systematic and phylogenetic assessment of 34 calanoid copepod species of the Calanidae and Clausocalanidae (2003) Mar. Biol., 142, pp. 333-343
Burbidge, A.A., McKenzie, N.L., Patterns in the modern decline of western-australia vertebrate fauna-causes and conservation implications (1989) Biol. Conserv., 50, pp. 143-198
Cabrero-Sañudo, F.J., Lobo, J.M., Estimating the number of species not yet described and their characteristics: The case of western Palearctic dung beetle species (Coleoptera, Scarabaeoidea) (2003) Biodiv. Conserv., 12, pp. 147-166
Casanova, J.P., Chaetognatha (1999) South Atlantic Zooplankton, pp. 1353-1373. , Boltovskoy, D. (ed.), Backhuys
Caudill, C.C., Bucklin, A., Molecular phylogeography and evolutionary history of the estuarine copepod, Acartia tonsa, on the northwest Atlantic coast (2004) Hydrobiologia, 511, pp. 91-102
Dales, R.P., Peter, G., A synopsis of the pelagic Polychaeta (1972) J. Nat. Hist., 6, pp. 55-92
Day, J.H., (1967) A Monograph on the Polychaeta of Southern Africa. Part 1. Errantia, , Brit. Mus. Nat. Hist, London, UK
Diamond, J.M., How many unknown species are yet to be discovered? (1985) Nature, 315, pp. 538-539
Ekman, S., (1953) Zoogeography of the Sea, , Sidgwick and Jackson Ltd, London, UK
Fenaux, R., The classification of Appendicularia (1998) The Biology of Pelagic Tunicates, pp. 295-306. , Bone, Q. (ed.), Oxford Univ. Press
Fernandez-Álamo, M.A., Thuesen, E.V., Polychaeta (1999) South Atlantic Zooplankton, pp. 595-619. , Boltovskoy, D. (ed.), Backhuys
Gage, J.D., Tyler, P.A., (1991) Deep-sea Biology, , Cambridge Univ. Press
Gaston, K.J., Patterns in the geographical ranges of species (1990) Biol. Rev., 65, pp. 105-129
Gaston, K.J., Body size and probability of description: The beetle fauna of Britain (1991) Ecol. Entomol., 16, pp. 505-508
Gaston, K.J., Blackburn, T.M., Are newly described bird species small-bodied? (1994) Biodiv. Lett., 2, pp. 16-20
Gibson, R., Nemertean genera and species of the world, an annotated checklist of original names and description citations, synonyms, current taxonomic status, habitats and recorded zoogeographic distribution (1995) J. Nat. Hist., 29, pp. 271-562
Gibson, R., Nemertina (1999) South Atlantic Zooplankton, pp. 575-593. , Boltovskoy, D. (ed.), Backhuys
Godeaux, J., The relationships and systematics of the Thaliacea, with keys for identification (1998) The Biology of Pelagic Tunicates, pp. 273-294. , Bone, Q. (ed.), Oxford Univ. Press
Harbison, G.R., Matsumoto, G.I., Robison, B.H., Lampocteis cruentiventer gen. nov., sp nov: A new mesopelagic lobate ctenophore, representing the type of a new family (Class Tentaculata, Order Lobata, Family Lampoctenidae, fam, nov.) (2001) Bull. Mar. Sci., 68, pp. 299-311
Harris, R.P., Wiebe, P.H., Lenz, J., (2000) ICES Zooplankton Methodology Manual, , Academic Press
Huys, R., Boxshall, G.A., (1991) Copepod Evolution, , Ray Society
Jumars, P.A., Gallagher, E.D., Deep-sea community structure: Three plays on the benthic proscenium (1982) The Environment of the Deep Sea, , Ernst, W. G. and Morin, J. G. (eds), Prentice-Hall
Kramp, P.L., Synopsis of the medusae of the world (1961) J. Mar. Biol. Ass., 40, pp. 1-469. , U.K
Kramp, P.L., The hydromedusae of the Pacific and Indian Oceans (1968) Dana Rep., 72, pp. 1-200
Lindstedt, S.L., Boyce, M.S., Seasonality, fasting endurance, and body size in mammals (1985) Am. Nat., 125, pp. 873-878
Madin, L.P., Harbison, G.R., Thalassocalyce inconstans, new genus and species, an enigmatic ctenophore representing a new family and order (1978) Bull. Mar. Sci., 28, pp. 680-687
Mauchline, J., The biology of mysids and euphausiids (1980) Adv. Mar. Biol., 18, pp. 1-681
Mauchline, J., The biology of calanoid copepods (1998) Adv. Mar. Biol., 33, pp. 1-710
Mauchline, J., Fisher, L.R., The biology of euphausiids (1969) Adv. Mar. Biol., 7, pp. 1-454
Mauchline, J., Murano, M., World list of the Mysidacea, Crustacea (1977) J. Tokyo Univ. Fish., 64, pp. 39-88
May, R.M., The dynamics and diversity of insect faunas (1978) Diversity of Insect Faunas, pp. 188-204. , Waloff, N. (ed.), Blackwell
May, R.M., How many species are there on earth? (1988) Science, 241, pp. 1441-1449
May, R.M., How many species? (1990) Philos. Trans. R. Soc., Lond. Ser. B, 330, pp. 293-304
Müller, H.G., (1993) World Catalogue and Bibliography of the Recent Mysidacea, , Lab. for Trop. Ecosyst. Res. and Inf. Service, Wetzlar
Murano, M., Mysidacea (1999) South Atlantic Zooplankton, pp. 1099-1139. , Boltovskoy, D. (ed.), Backhuys
Orteils, R., Gómez, A., Serra, M., Coexistence of cryptic rotifer species: Ecological and genetic characterisation of Brachionus plicatilis (2003) Freshw. Biol., 48, pp. 2194-2202
Patterson, B.D., Accumulating knowledge on the dimensions of biodiversity: Systematic perspectives on Neotropical mammals (1994) Biodiv. Lett., 2, pp. 79-86
Peres-Neto, P.R., How many statistical tests are too many? The problem of conducting multiple ecological inferences revisited (1999) Mar. Ecol. Progr. Ser., 176, pp. 303-306
Pierrot-Bults, A.C., Nair, V.R., Distribution patterns in Chaetognatha (1991) The Biology of Chaetognaths, pp. 86-116. , Pierrot-Bults, A.C. (ed.), Oxford Univ. Press
Pugh, P.R., Siphonophorae (1999) South Atlantic Zooplankton, pp. 467-511. , Boltovskoy, D. (ed.), Backhuys
Razouls, C., Diversité et répartition géographique chez les copépodes pélagiques. 1. Calanoida (1995) Ann. L'Inst. Océanogr. Paris, 71, pp. 81-404
Razouls, C., Diversité et répartition géographique chez les copépodes pélagiques. 2. Platycopioida, Misophrioida, Mormonilloida, Cyclopoida, Poecilostomatoida, Siphonostomatoida. Harpacticoida, Monstrilloida (1996) Ann. L'Inst. Océanogr. Paris, 72, pp. 1-149
Reed, R.N., Boback, S.C., Does body size predict dates of species description among North American and Australian reptiles and amphibians? (2002) Global Ecol. Biogeogr., 11, pp. 41-47
Rigby, S., Milsom, C.V., Origins, evolution and diversification of zooplankton (2000) Annu. Rev. Ecol. Syst., 31, pp. 293-313
Shushkina, E.A., Chindonova, Y.G., Vinogradov, M.E., The investigation of oceanic zooplankton in the Kurile-Kamchatka region with utilization of Mir manned submersible (1991) Okeanologiya, 31, pp. 609-615
Stanley, S.M., An explanation for Cope's rule (1973) Evolution, 27, pp. 1-26
Steele, J.H., (1974) The Structure of Marine Ecosystems, , Blackwell
Totton, A.K., (1965) A Synopsis of the Siphonophora, , Brit. Mus. Nat. Hist, Lond
Van Der Spoel, S., Newman, L., Estep, K.W., (1997) Pelagic Molluscs of the World. World Biodiversity Database, CD-ROM Series, , Expert Center for Taxonomic Identification (ETI), Amsterdam
Vinogradov, M.E., Amphipoda (1999) South Atlantic Zooplankton, pp. 1141-1239. , Boltovskoy, D. (ed.), Backhuys
Vinogradov, M.E., Volkov, A.F., Semenova, T.N., (1996) Hyperiid Amphipods (Amphipoda, Hyperiidea) of the World Oceans, , Science Publishers, Inc, Lebanon. NH, USA
Wiebe, P.H., Benfield, M.C., From the Hensen net towards four-dimensional biological oceanography (2003) Progr. Oceanogr., 56, pp. 7-136
Worm, B., Myers, R.A., Meta-analysis of cod-shrimp interactions reveals top-down control in oceanic food webs (2003) Ecology, 84, pp. 162-173
Worm, B., Lotze, H.K., Myers, R.A., Predator diversity hotspots in the blue ocean (2003) Proc. Natl. Acad. Sci. USA, 100, p. 9884

Citas:

---------- APA ----------

Gibbons, M.J., Richardson, A.J., Angel, M.V., Buecher, E., Esnal, G., Fernandez Alamo, M.A., Gibson, R.,..., Thuesen, E. (2005) . What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?. Oikos, 109(3), 567-576.
http://dx.doi.org/10.1111/j.0030-1299.2005.13754.x

---------- CHICAGO ----------

Gibbons, M.J., Richardson, A.J., Angel, M.V., Buecher, E., Esnal, G., Fernandez Alamo, M.A., et al. "What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?" . Oikos 109, no. 3 (2005) : 567-576.
http://dx.doi.org/10.1111/j.0030-1299.2005.13754.x

---------- MLA ----------

Gibbons, M.J., Richardson, A.J., Angel, M.V., Buecher, E., Esnal, G., Fernandez Alamo, M.A., et al. "What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?" . Oikos, vol. 109, no. 3, 2005, pp. 567-576.
http://dx.doi.org/10.1111/j.0030-1299.2005.13754.x

---------- VANCOUVER ----------

Gibbons, M.J., Richardson, A.J., Angel, M.V., Buecher, E., Esnal, G., Fernandez Alamo, M.A., et al. What determines the likelihood of species discovery in marine holozooplankton: Is size, range or depth important?. Oikos. 2005;109(3):567-576.
http://dx.doi.org/10.1111/j.0030-1299.2005.13754.x