Is Oithona the most important copepod in the world's oceans?

Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution is derived from net samples whose mesh size is often 200 μm or greater, and researchers have commented on losses of smaller organisms suc...

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Published in	Journal of plankton research Vol. 23; no. 12; pp. 1421 - 1432
Main Authors	Gallienne, C. P., Robins, D. B.
Format	Journal Article
Language	English
Published	Oxford Oxford University Press 01.12.2001 Oxford Publishing Limited (England)
Subjects	Abundance Animal and plant ecology Animal, plant and microbial ecology Aquatic crustaceans Biological and medical sciences Biomass Copepoda Crustacea Ecosystem dynamics Fundamental and applied biological sciences. Psychology History Invertebrates Juveniles Marine Marine ecosystems Nets Ocean circulation Oceans Oithona Plankton Sea water ecosystems Secondary production Size distribution Synecology Systematics. Geographical distribution Upwelling Zooplankton World Oceans Population number Review Biomass Method World ocean Biological productivity Crustacea Marine environment Geographic distribution Arthropoda Copepoda Invertebrata Sampling Zooplankton
Online Access	Get full text
ISSN	0142-7873 1464-3774 1464-3774
DOI	10.1093/plankt/23.12.1421

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Abstract	Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution is derived from net samples whose mesh size is often 200 μm or greater, and researchers have commented on losses of smaller organisms such as Oithona and Oncaea, as well as juvenile forms of larger copepods, from these nets. We review the literature on this subject over the last 50 years, and note that such nets remain in common use for estimating the abundance, biomass and productivity of mesozooplankton. We show that an important fraction of mesozooplankton between 200 and 800 μm in length is significantly under-represented in many current and historical data sets. A 5 year study of the abundance and size distribution of zooplankton biomass on the Atlantic Meridional Transect has produced a very large data set covering a wide range of ecosystem types across the Atlantic Ocean, from subtropical oligotrophic to areas of upwelling and vernal blooming. We use these data to derive estimates of mesh selection effects for commonly used nets on measures of zooplankton abundance, biomass and secondary production, and compare these estimates to those derived from the literature. We estimate that the conventionalWP-2 net with a 200 μm mesh may capture <10% of conventional mesozooplankton numbers, whilst underestimating biomass by one-third and leading to an underestimate of secondary production by two-thirds. This has serious implications for estimates of zooplankton-mediated fluxes and for the modelling of ecosystem dynamics.
AbstractList	Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution is derived from net samples whose mesh size is often 200 [mu]m or greater, and researchers have commented on losses of smaller organisms such as Oithona and Oncaea, as well as juvenile forms of larger copepods, from these nets. We review the literature on this subject over the last 50 years, and note that such nets remain in common use for estimating the abundance, biomass and productivity of mesozooplankton. We show that an important fraction of mesozooplankton between 200 and 800 [mu]m in length is significantly under-represented in many current and historical data sets. A 5 year study of the abundance and size distribution of zooplankton biomass on the Atlantic Meridional Transect has produced a very large data set covering a wide range of ecosystem types across the Atlantic Ocean, from subtropical oligotrophic to areas of upwelling and vernal blooming. We use these data to derive estimates of mesh selection effects for commonly used nets on measures of zooplankton abundance, biomass and secondary production, and compare these estimates to those derived from the literature. We estimate that the conventionalWP-2 net with a 200 [mu]m mesh may capture <10% of conventional mesozooplankton numbers, whilst underestimating biomass by one-third and leading to an underestimate of secondary production by two-thirds. This has serious implications for estimates of zooplankton-mediated fluxes and for the modelling of ecosystem dynamics. Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution is derived from net samples whose mesh size is often 200 μm or greater, and researchers have commented on losses of smaller organisms such as Oithona and Oncaea, as well as juvenile forms of larger copepods, from these nets. We review the literature on this subject over the last 50 years, and note that such nets remain in common use for estimating the abundance, biomass and productivity of mesozooplankton. We show that an important fraction of mesozooplankton between 200 and 800 μm in length is significantly under-represented in many current and historical data sets. A 5 year study of the abundance and size distribution of zooplankton biomass on the Atlantic Meridional Transect has produced a very large data set covering a wide range of ecosystem types across the Atlantic Ocean, from subtropical oligotrophic to areas of upwelling and vernal blooming. We use these data to derive estimates of mesh selection effects for commonly used nets on measures of zooplankton abundance, biomass and secondary production, and compare these estimates to those derived from the literature. We estimate that the conventionalWP-2 net with a 200 μm mesh may capture <10% of conventional mesozooplankton numbers, whilst underestimating biomass by one-third and leading to an underestimate of secondary production by two-thirds. This has serious implications for estimates of zooplankton-mediated fluxes and for the modelling of ecosystem dynamics. Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution is derived from net samples whose mesh size is often 200 mu m or greater, and researchers have commented on losses of smaller organisms such as Oithona and Oncaea, as well as juvenile forms of larger copepods, from these nets. We review the literature on this subject over the last 50 years, and note that such nets remain in common use for estimating the abundance, biomass and productivity of mesozooplankton. We show that an important fraction of mesozooplankton between 200 and 800 mu m in length is significantly under-represented in many current and historical data sets. A 5 year study of the abundance and size distribution of zooplankton biomass on the Atlantic Meridional Transect has produced a very large data set covering a wide range of ecosystem types across the Atlantic Ocean, from subtropical oligotrophic to areas of upwelling and vernal blooming. We use these data to derive estimates of mesh selection effects for commonly used nets on measures of zooplankton abundance, biomass and secondary production, and compare these estimates to those derived from the literature. We estimate that the conventional WP-2 net with a 200 mu m mesh may capture <10% of conventional mesozooplankton numbers, whilst underestimating biomass by one-third and leading to an underestimate of secondary production by two-thirds. This has serious implications for estimates of zooplankton-mediated fluxes and for the modelling of ecosystem dynamics.
Author	Gallienne, C. P. Robins, D. B.
Author_xml	– sequence: 1 givenname: C. P. surname: Gallienne fullname: Gallienne, C. P. organization: Plymouth Marine Laboratory, West Hoe, Plymouth PL1 3DH, UK – sequence: 2 givenname: D. B. surname: Robins fullname: Robins, D. B. organization: Plymouth Marine Laboratory, West Hoe, Plymouth PL1 3DH, UK
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Keywords	Population number Review Biomass Method World ocean Biological productivity Crustacea Marine environment Geographic distribution Arthropoda Copepoda Invertebrata Sampling Zooplankton
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Snippet	Oithona has been described as the most ubiquitous and abundant copepod in the world's oceans. Most of our knowledge of zooplankton abundance and distribution...
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SubjectTerms	Abundance Animal and plant ecology Animal, plant and microbial ecology Aquatic crustaceans Biological and medical sciences Biomass Copepoda Crustacea Ecosystem dynamics Fundamental and applied biological sciences. Psychology History Invertebrates Juveniles Marine Marine ecosystems Nets Ocean circulation Oceans Oithona Plankton Sea water ecosystems Secondary production Size distribution Synecology Systematics. Geographical distribution Upwelling Zooplankton
Title	Is Oithona the most important copepod in the world's oceans?
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