Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning

With rapid, sector-specific climatic changes impacting the Southern Ocean, we need circumpolar-scale biomass data of its plankton taxa to improve food web models, blue carbon budgets and resource management. Here, we provide a new dataset on mesozooplankton biomass with 2909 records spanning the las...

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Published in:Limnology and Oceanography
Main Authors: Yang, Guang, Atkinson, Angus, Pakhomov, Evgeny A., Hill, Simeon L., Racault, Marie-Fanny
Format: Report
Language:English
Published: WILEY 2022
Subjects:
Marine & Freshwater Biology
Oceanography
Limnology
CALANOIDES-ACUTUS COPEPODA
TO-CHLOROPHYLL RATIO
SALP FECAL PELLETS
EUPHAUSIA-SUPERBA
SCOTIA SEA
ANTARCTIC KRILL
PHYTOPLANKTON
DYNAMICS
ECOLOGY
IRON
Antarctic
Southern Ocean
Kerguelen
Scotia Sea
Pacific
Antarc*
Antarctic Krill
Euphausia superba
Online Access:http://ir.qdio.ac.cn/handle/337002/180836
https://doi.org/10.1002/lno.12219
id ftchinacasciocas:oai:ir.qdio.ac.cn:337002/180836
record_format openpolar
spelling ftchinacasciocas:oai:ir.qdio.ac.cn:337002/180836 2023-05-15T13:53:42+02:00 Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning Yang, Guang Atkinson, Angus Pakhomov, Evgeny A. Hill, Simeon L. Racault, Marie-Fanny 2022-09-09 http://ir.qdio.ac.cn/handle/337002/180836 https://doi.org/10.1002/lno.12219 英语 eng WILEY LIMNOLOGY AND OCEANOGRAPHY http://ir.qdio.ac.cn/handle/337002/180836 doi:10.1002/lno.12219 Marine & Freshwater Biology Oceanography Limnology CALANOIDES-ACUTUS COPEPODA TO-CHLOROPHYLL RATIO SALP FECAL PELLETS EUPHAUSIA-SUPERBA SCOTIA SEA ANTARCTIC KRILL PHYTOPLANKTON DYNAMICS ECOLOGY IRON 期刊论文 2022 ftchinacasciocas https://doi.org/10.1002/lno.12219 2023-01-16T16:14:35Z With rapid, sector-specific climatic changes impacting the Southern Ocean, we need circumpolar-scale biomass data of its plankton taxa to improve food web models, blue carbon budgets and resource management. Here, we provide a new dataset on mesozooplankton biomass with 2909 records spanning the last 90 yr, and describe, in comparable carbon units, their circumpolar distribution alongside those of phytoplankton, Antarctic krill, and salps. With our datasets, we estimate total summer carbon biomasses for phytoplankton (36 MT), mesozooplankton (67 MT), krill (30 MT), and salps (1.7 MT). The mesozooplankton value is much higher than previously reported and, added to that of krill and salps, points to an enormous overall biomass of zooplankton in the Southern Ocean. This means that the pyramids of biomass are often inverted, with higher biomass of zooplankton than of phytoplankton. Such high biomasses suggest key roles of grazers in nutrient cycling and we estimate an export of -similar to 50 Mt C yr(-1), solely from mortality of overwintering zooplankton that typically reside at depth. Deep lipid respiration (the lipid pump), for example, would increase this export even further. While inverted biomass pyramids prevailed at mid latitudes (50 degrees-70 degrees S), the balance of taxa differed regionally: for example, with biomass dominance by phytoplankton (highest latitudes and Pacific sector), mesozooplankton (Kerguelen Plateau), krill (north and east Scotia Sea), and salps (Crozet area). In light of contrasting climate change impacts between these sectors, we provide data that will underpin biogeochemical and food web models, blue carbon budgets, and the planning of marine protected areas. Report Antarc* Antarctic Antarctic Krill Euphausia superba Scotia Sea Southern Ocean Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR Antarctic Southern Ocean Kerguelen Scotia Sea Pacific Limnology and Oceanography 67 11 2516 2530
institution Open Polar
collection Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR
op_collection_id ftchinacasciocas
language English
topic Marine & Freshwater Biology
Oceanography
Limnology
CALANOIDES-ACUTUS COPEPODA
TO-CHLOROPHYLL RATIO
SALP FECAL PELLETS
EUPHAUSIA-SUPERBA
SCOTIA SEA
ANTARCTIC KRILL
PHYTOPLANKTON
DYNAMICS
ECOLOGY
IRON
spellingShingle Marine & Freshwater Biology
Oceanography
Limnology
CALANOIDES-ACUTUS COPEPODA
TO-CHLOROPHYLL RATIO
SALP FECAL PELLETS
EUPHAUSIA-SUPERBA
SCOTIA SEA
ANTARCTIC KRILL
PHYTOPLANKTON
DYNAMICS
ECOLOGY
IRON
Yang, Guang
Atkinson, Angus
Pakhomov, Evgeny A.
Hill, Simeon L.
Racault, Marie-Fanny
Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
topic_facet Marine & Freshwater Biology
Oceanography
Limnology
CALANOIDES-ACUTUS COPEPODA
TO-CHLOROPHYLL RATIO
SALP FECAL PELLETS
EUPHAUSIA-SUPERBA
SCOTIA SEA
ANTARCTIC KRILL
PHYTOPLANKTON
DYNAMICS
ECOLOGY
IRON
description With rapid, sector-specific climatic changes impacting the Southern Ocean, we need circumpolar-scale biomass data of its plankton taxa to improve food web models, blue carbon budgets and resource management. Here, we provide a new dataset on mesozooplankton biomass with 2909 records spanning the last 90 yr, and describe, in comparable carbon units, their circumpolar distribution alongside those of phytoplankton, Antarctic krill, and salps. With our datasets, we estimate total summer carbon biomasses for phytoplankton (36 MT), mesozooplankton (67 MT), krill (30 MT), and salps (1.7 MT). The mesozooplankton value is much higher than previously reported and, added to that of krill and salps, points to an enormous overall biomass of zooplankton in the Southern Ocean. This means that the pyramids of biomass are often inverted, with higher biomass of zooplankton than of phytoplankton. Such high biomasses suggest key roles of grazers in nutrient cycling and we estimate an export of -similar to 50 Mt C yr(-1), solely from mortality of overwintering zooplankton that typically reside at depth. Deep lipid respiration (the lipid pump), for example, would increase this export even further. While inverted biomass pyramids prevailed at mid latitudes (50 degrees-70 degrees S), the balance of taxa differed regionally: for example, with biomass dominance by phytoplankton (highest latitudes and Pacific sector), mesozooplankton (Kerguelen Plateau), krill (north and east Scotia Sea), and salps (Crozet area). In light of contrasting climate change impacts between these sectors, we provide data that will underpin biogeochemical and food web models, blue carbon budgets, and the planning of marine protected areas.
format Report
author Yang, Guang
Atkinson, Angus
Pakhomov, Evgeny A.
Hill, Simeon L.
Racault, Marie-Fanny
author_facet Yang, Guang
Atkinson, Angus
Pakhomov, Evgeny A.
Hill, Simeon L.
Racault, Marie-Fanny
author_sort Yang, Guang
title Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
title_short Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
title_full Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
title_fullStr Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
title_full_unstemmed Massive circumpolar biomass of Southern Ocean zooplankton: Implications for food web structure, carbon export, and marine spatial planning
title_sort massive circumpolar biomass of southern ocean zooplankton: implications for food web structure, carbon export, and marine spatial planning
publisher WILEY
publishDate 2022
url http://ir.qdio.ac.cn/handle/337002/180836
https://doi.org/10.1002/lno.12219
geographic Antarctic
Southern Ocean
Kerguelen
Scotia Sea
Pacific
geographic_facet Antarctic
Southern Ocean
Kerguelen
Scotia Sea
Pacific
genre Antarc*
Antarctic
Antarctic Krill
Euphausia superba
Scotia Sea
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctic Krill
Euphausia superba
Scotia Sea
Southern Ocean
op_relation LIMNOLOGY AND OCEANOGRAPHY
http://ir.qdio.ac.cn/handle/337002/180836
doi:10.1002/lno.12219
op_doi https://doi.org/10.1002/lno.12219
container_title Limnology and Oceanography
container_volume 67
container_issue 11
container_start_page 2516
op_container_end_page 2530
_version_ 1766259076137746432

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