Biogeography of Radiolaria Polycystina (Protista) in the World Ocean

Analysis of 307 species of Radiolaria Polycystina in a worldwide dataset of 4774 plankton, sediment trap, and surface sediment samples allows recognizing six major biogeographic Domains. Five of them are circumglobal (Polar North, Polar South, Bi-Subpolar, Transitional and Tropical-Subtropical), and...

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Autores principales: Boltovskoy, D., Correa, N.
Formato: JOUR
Materias:
Oceanography
Protozoa
Sediments
Dissolution rates
Eastern equatorial Pacific
Environmental variables
Physical mechanism
Planktonic foraminifera
Sedimentary records
Species distributions
Surface sediments
Population distribution
biogeography
community structure
open ocean
pelagic environment
planktonic foraminifera
population distribution
protozoan
radiolaria
sediment trap
surficial sediment
warm water
water column
Pacific Ocean
Pacific Ocean (East)
Pacific Ocean (Equatorial)
Foraminifera
Polycystinea
Protista
Radiolaria (protozoans)
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00796611_v149_n_p82_Boltovskoy
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00796611_v149_n_p82_Boltovskoy
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spelling todo:paper_00796611_v149_n_p82_Boltovskoy2023-10-03T14:54:28Z Biogeography of Radiolaria Polycystina (Protista) in the World Ocean Boltovskoy, D. Correa, N. Oceanography Protozoa Sediments Dissolution rates Eastern equatorial Pacific Environmental variables Physical mechanism Planktonic foraminifera Sedimentary records Species distributions Surface sediments Population distribution biogeography community structure open ocean pelagic environment planktonic foraminifera population distribution protozoan radiolaria sediment trap surficial sediment warm water water column Pacific Ocean Pacific Ocean (East) Pacific Ocean (Equatorial) Foraminifera Polycystinea Protista Radiolaria (protozoans) Analysis of 307 species of Radiolaria Polycystina in a worldwide dataset of 4774 plankton, sediment trap, and surface sediment samples allows recognizing six major biogeographic Domains. Five of them are circumglobal (Polar North, Polar South, Bi-Subpolar, Transitional and Tropical-Subtropical), and one is restricted to the Eastern Equatorial Pacific. Each Domain is characterized by a particular suite of species, all of which, however, occur widely, albeit sparsely, in one or more other Domains. Of the eight environmental variables evaluated, temperature correlates best with the partitions established. Species distributions in the water column and in the sediments are generally in agreement, but in the sediments cold water forms extend farther towards the equator than do warm water radiolarians towards the poles. In the Recent sedimentary record of planktonic Foraminifera the same phenomenon is magnified by the higher dissolution rates of warm water species, as compared with the cold water ones. Of the three major oceans, the Pacific was the most speciose, but estimates based on data corrected for sample-size show much smaller inter-oceanic differences, with ∼10 radiolarians probably being absent from either basin. The radiolarian biogeographic pattern is generally similar to those based on other planktonic and nektonic open-ocean organisms, but the degree of uniqueness of the Domains, as well as the position of the intervening boundaries, are variable, which reflects methodological differences, as well as taxon-specific traits. Partitions of the World Ocean defined on the basis of species ranges resemble the major divisions (presumably functionally homogeneous units) established on the basis of physical traits and chlorophyll fields, but secondary divisions nested within the latter are not reflected by any of the biogeographic schemes based on species distribution ranges. This conflict raises questions about the importance of several physical mechanisms for structuring pelagic communities, and/or on the coupling of structure and function in the pelagic realm. © 2016 Elsevier Ltd Fil:Boltovskoy, D. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Correa, N. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00796611_v149_n_p82_Boltovskoy
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Oceanography
Protozoa
Sediments
Dissolution rates
Eastern equatorial Pacific
Environmental variables
Physical mechanism
Planktonic foraminifera
Sedimentary records
Species distributions
Surface sediments
Population distribution
biogeography
community structure
open ocean
pelagic environment
planktonic foraminifera
population distribution
protozoan
radiolaria
sediment trap
surficial sediment
warm water
water column
Pacific Ocean
Pacific Ocean (East)
Pacific Ocean (Equatorial)
Foraminifera
Polycystinea
Protista
Radiolaria (protozoans)
spellingShingle Oceanography
Protozoa
Sediments
Dissolution rates
Eastern equatorial Pacific
Environmental variables
Physical mechanism
Planktonic foraminifera
Sedimentary records
Species distributions
Surface sediments
Population distribution
biogeography
community structure
open ocean
pelagic environment
planktonic foraminifera
population distribution
protozoan
radiolaria
sediment trap
surficial sediment
warm water
water column
Pacific Ocean
Pacific Ocean (East)
Pacific Ocean (Equatorial)
Foraminifera
Polycystinea
Protista
Radiolaria (protozoans)
Boltovskoy, D.
Correa, N.
Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
topic_facet Oceanography
Protozoa
Sediments
Dissolution rates
Eastern equatorial Pacific
Environmental variables
Physical mechanism
Planktonic foraminifera
Sedimentary records
Species distributions
Surface sediments
Population distribution
biogeography
community structure
open ocean
pelagic environment
planktonic foraminifera
population distribution
protozoan
radiolaria
sediment trap
surficial sediment
warm water
water column
Pacific Ocean
Pacific Ocean (East)
Pacific Ocean (Equatorial)
Foraminifera
Polycystinea
Protista
Radiolaria (protozoans)
description Analysis of 307 species of Radiolaria Polycystina in a worldwide dataset of 4774 plankton, sediment trap, and surface sediment samples allows recognizing six major biogeographic Domains. Five of them are circumglobal (Polar North, Polar South, Bi-Subpolar, Transitional and Tropical-Subtropical), and one is restricted to the Eastern Equatorial Pacific. Each Domain is characterized by a particular suite of species, all of which, however, occur widely, albeit sparsely, in one or more other Domains. Of the eight environmental variables evaluated, temperature correlates best with the partitions established. Species distributions in the water column and in the sediments are generally in agreement, but in the sediments cold water forms extend farther towards the equator than do warm water radiolarians towards the poles. In the Recent sedimentary record of planktonic Foraminifera the same phenomenon is magnified by the higher dissolution rates of warm water species, as compared with the cold water ones. Of the three major oceans, the Pacific was the most speciose, but estimates based on data corrected for sample-size show much smaller inter-oceanic differences, with ∼10 radiolarians probably being absent from either basin. The radiolarian biogeographic pattern is generally similar to those based on other planktonic and nektonic open-ocean organisms, but the degree of uniqueness of the Domains, as well as the position of the intervening boundaries, are variable, which reflects methodological differences, as well as taxon-specific traits. Partitions of the World Ocean defined on the basis of species ranges resemble the major divisions (presumably functionally homogeneous units) established on the basis of physical traits and chlorophyll fields, but secondary divisions nested within the latter are not reflected by any of the biogeographic schemes based on species distribution ranges. This conflict raises questions about the importance of several physical mechanisms for structuring pelagic communities, and/or on the coupling of structure and function in the pelagic realm. © 2016 Elsevier Ltd
format JOUR
author Boltovskoy, D.
Correa, N.
author_facet Boltovskoy, D.
Correa, N.
author_sort Boltovskoy, D.
title Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
title_short Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
title_full Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
title_fullStr Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
title_full_unstemmed Biogeography of Radiolaria Polycystina (Protista) in the World Ocean
title_sort biogeography of radiolaria polycystina (protista) in the world ocean
url http://hdl.handle.net/20.500.12110/paper_00796611_v149_n_p82_Boltovskoy
work_keys_str_mv AT boltovskoyd biogeographyofradiolariapolycystinaprotistaintheworldocean
AT correan biogeographyofradiolariapolycystinaprotistaintheworldocean
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