Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill

Understanding and managing the response of marine ecosystems to human pressures including climate change requires reliable large-scale and multi-decadal information on the state of key populations. These populations include the pelagic animals that support ecosystem services including carbon export...

Full description

Bibliographic Details
Published in:Frontiers in Marine Science
Main Authors: Hill, Simeon L., Atkinson, Angus, Arata, Javier A., Belcher, Anna, Nash, Susan Bengtson, Bernard, Kim S., Cleary, Alison, Conroy, John A., Driscoll, Ryan, Fielding, Sophie, Flores, Hauke, Forcada, Jaume, Halfter, Svenja, Hinke, Jefferson T., Huckstadt, Luis, Johnston, Nadine M., Kane, Mary, Kawaguchi, So, Krafft, Bjorn A., Kruger, Lucas, La, Hyoung Sul, Liszka, Cecilia M., Meyer, Bettina, Murphy, Eugene J., Pakhomov, Evgeny A., Perry, Frances, Pinones, Andrea, Polito, Michael J., Reid, Keith, Reiss, Christian, Rombola, Emilce, Saunders, Ryan A., Schmidt, Katrin, Sylvester, Zephyr T., Takahashi, Akinori, Tarling, Geraint A., Trathan, Phil N., Veytia, Devi, Watters, George M., Xavier, Jose C., Yang, Guang
Format: Report
Language:English
Published: FRONTIERS MEDIA SA 2024
Subjects:
ecosystem monitoring
population change
Antarctic kill
fishery management
new technologies
Environmental Sciences & Ecology
Marine & Freshwater Biology
Environmental Sciences
EUPHAUSIA-SUPERBA DANA
SOUTH SHETLAND ISLANDS
MARGINAL ICE-ZONE
SEA-ICE
PACK-ICE
SCOTIA SEA
VERTICAL MIGRATIONS
SWIMMING BEHAVIOR
BRANSFIELD STRAIT
AUSTRAL SUMMER
Antarctic
Austral
Bransfield Strait
Scotia Sea
South Shetland Islands
Antarc*
Antarctic Krill
Euphausia superba
ice pack
Sea ice
Online Access:http://ir.qdio.ac.cn/handle/337002/184648
https://doi.org/10.3389/fmars.2024.1307402
id ftchinacasciocas:oai:ir.qdio.ac.cn:337002/184648
record_format openpolar
spelling ftchinacasciocas:oai:ir.qdio.ac.cn:337002/184648 2024-06-23T07:46:16+00:00 Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill Hill, Simeon L. Atkinson, Angus Arata, Javier A. Belcher, Anna Nash, Susan Bengtson Bernard, Kim S. Cleary, Alison Conroy, John A. Driscoll, Ryan Fielding, Sophie Flores, Hauke Forcada, Jaume Halfter, Svenja Hinke, Jefferson T. Huckstadt, Luis Johnston, Nadine M. Kane, Mary Kawaguchi, So Krafft, Bjorn A. Kruger, Lucas La, Hyoung Sul Liszka, Cecilia M. Meyer, Bettina Murphy, Eugene J. Pakhomov, Evgeny A. Perry, Frances Pinones, Andrea Polito, Michael J. Reid, Keith Reiss, Christian Rombola, Emilce Saunders, Ryan A. Schmidt, Katrin Sylvester, Zephyr T. Takahashi, Akinori Tarling, Geraint A. Trathan, Phil N. Veytia, Devi Watters, George M. Xavier, Jose C. Yang, Guang 2024-03-08 http://ir.qdio.ac.cn/handle/337002/184648 https://doi.org/10.3389/fmars.2024.1307402 英语 eng FRONTIERS MEDIA SA FRONTIERS IN MARINE SCIENCE http://ir.qdio.ac.cn/handle/337002/184648 doi:10.3389/fmars.2024.1307402 ecosystem monitoring population change Antarctic kill fishery management new technologies Environmental Sciences & Ecology Marine & Freshwater Biology Environmental Sciences EUPHAUSIA-SUPERBA DANA SOUTH SHETLAND ISLANDS MARGINAL ICE-ZONE SEA-ICE PACK-ICE SCOTIA SEA VERTICAL MIGRATIONS SWIMMING BEHAVIOR BRANSFIELD STRAIT AUSTRAL SUMMER 期刊论文 2024 ftchinacasciocas https://doi.org/10.3389/fmars.2024.1307402 2024-05-27T23:36:17Z Understanding and managing the response of marine ecosystems to human pressures including climate change requires reliable large-scale and multi-decadal information on the state of key populations. These populations include the pelagic animals that support ecosystem services including carbon export and fisheries. The use of research vessels to collect information using scientific nets and acoustics is being replaced with technologies such as autonomous moorings, gliders, and meta-genetics. Paradoxically, these newer methods sample pelagic populations at ever-smaller spatial scales, and ecological change might go undetected in the time needed to build up large-scale, long time series. These global-scale issues are epitomised by Antarctic krill (Euphausia superba), which is concentrated in rapidly warming areas, exports substantial quantities of carbon and supports an expanding fishery, but opinion is divided on how resilient their stocks are to climatic change. Based on a workshop of 137 krill experts we identify the challenges of observing climate change impacts with shifting sampling methods and suggest three tractable solutions. These are to: improve overlap and calibration of new with traditional methods; improve communication to harmonise, link and scale up the capacity of new but localised sampling programs; and expand opportunities from other research platforms and data sources, including the fishing industry. Contrasting evidence for both change and stability in krill stocks illustrates how the risks of false negative and false positive diagnoses of change are related to the temporal and spatial scale of sampling. Given the uncertainty about how krill are responding to rapid warming we recommend a shift towards a fishery management approach that prioritises monitoring of stock status and can adapt to variability and change. Report Antarc* Antarctic Antarctic Krill Bransfield Strait Euphausia superba ice pack Scotia Sea Sea ice South Shetland Islands Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR Antarctic Austral Bransfield Strait Scotia Sea South Shetland Islands Frontiers in Marine Science 11
institution Open Polar
collection Institute of Oceanology, Chinese Academy of Sciences: IOCAS-IR
op_collection_id ftchinacasciocas
language English
topic ecosystem monitoring
population change
Antarctic kill
fishery management
new technologies
Environmental Sciences & Ecology
Marine & Freshwater Biology
Environmental Sciences
EUPHAUSIA-SUPERBA DANA
SOUTH SHETLAND ISLANDS
MARGINAL ICE-ZONE
SEA-ICE
PACK-ICE
SCOTIA SEA
VERTICAL MIGRATIONS
SWIMMING BEHAVIOR
BRANSFIELD STRAIT
AUSTRAL SUMMER
spellingShingle ecosystem monitoring
population change
Antarctic kill
fishery management
new technologies
Environmental Sciences & Ecology
Marine & Freshwater Biology
Environmental Sciences
EUPHAUSIA-SUPERBA DANA
SOUTH SHETLAND ISLANDS
MARGINAL ICE-ZONE
SEA-ICE
PACK-ICE
SCOTIA SEA
VERTICAL MIGRATIONS
SWIMMING BEHAVIOR
BRANSFIELD STRAIT
AUSTRAL SUMMER
Hill, Simeon L.
Atkinson, Angus
Arata, Javier A.
Belcher, Anna
Nash, Susan Bengtson
Bernard, Kim S.
Cleary, Alison
Conroy, John A.
Driscoll, Ryan
Fielding, Sophie
Flores, Hauke
Forcada, Jaume
Halfter, Svenja
Hinke, Jefferson T.
Huckstadt, Luis
Johnston, Nadine M.
Kane, Mary
Kawaguchi, So
Krafft, Bjorn A.
Kruger, Lucas
La, Hyoung Sul
Liszka, Cecilia M.
Meyer, Bettina
Murphy, Eugene J.
Pakhomov, Evgeny A.
Perry, Frances
Pinones, Andrea
Polito, Michael J.
Reid, Keith
Reiss, Christian
Rombola, Emilce
Saunders, Ryan A.
Schmidt, Katrin
Sylvester, Zephyr T.
Takahashi, Akinori
Tarling, Geraint A.
Trathan, Phil N.
Veytia, Devi
Watters, George M.
Xavier, Jose C.
Yang, Guang
Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
topic_facet ecosystem monitoring
population change
Antarctic kill
fishery management
new technologies
Environmental Sciences & Ecology
Marine & Freshwater Biology
Environmental Sciences
EUPHAUSIA-SUPERBA DANA
SOUTH SHETLAND ISLANDS
MARGINAL ICE-ZONE
SEA-ICE
PACK-ICE
SCOTIA SEA
VERTICAL MIGRATIONS
SWIMMING BEHAVIOR
BRANSFIELD STRAIT
AUSTRAL SUMMER
description Understanding and managing the response of marine ecosystems to human pressures including climate change requires reliable large-scale and multi-decadal information on the state of key populations. These populations include the pelagic animals that support ecosystem services including carbon export and fisheries. The use of research vessels to collect information using scientific nets and acoustics is being replaced with technologies such as autonomous moorings, gliders, and meta-genetics. Paradoxically, these newer methods sample pelagic populations at ever-smaller spatial scales, and ecological change might go undetected in the time needed to build up large-scale, long time series. These global-scale issues are epitomised by Antarctic krill (Euphausia superba), which is concentrated in rapidly warming areas, exports substantial quantities of carbon and supports an expanding fishery, but opinion is divided on how resilient their stocks are to climatic change. Based on a workshop of 137 krill experts we identify the challenges of observing climate change impacts with shifting sampling methods and suggest three tractable solutions. These are to: improve overlap and calibration of new with traditional methods; improve communication to harmonise, link and scale up the capacity of new but localised sampling programs; and expand opportunities from other research platforms and data sources, including the fishing industry. Contrasting evidence for both change and stability in krill stocks illustrates how the risks of false negative and false positive diagnoses of change are related to the temporal and spatial scale of sampling. Given the uncertainty about how krill are responding to rapid warming we recommend a shift towards a fishery management approach that prioritises monitoring of stock status and can adapt to variability and change.
format Report
author Hill, Simeon L.
Atkinson, Angus
Arata, Javier A.
Belcher, Anna
Nash, Susan Bengtson
Bernard, Kim S.
Cleary, Alison
Conroy, John A.
Driscoll, Ryan
Fielding, Sophie
Flores, Hauke
Forcada, Jaume
Halfter, Svenja
Hinke, Jefferson T.
Huckstadt, Luis
Johnston, Nadine M.
Kane, Mary
Kawaguchi, So
Krafft, Bjorn A.
Kruger, Lucas
La, Hyoung Sul
Liszka, Cecilia M.
Meyer, Bettina
Murphy, Eugene J.
Pakhomov, Evgeny A.
Perry, Frances
Pinones, Andrea
Polito, Michael J.
Reid, Keith
Reiss, Christian
Rombola, Emilce
Saunders, Ryan A.
Schmidt, Katrin
Sylvester, Zephyr T.
Takahashi, Akinori
Tarling, Geraint A.
Trathan, Phil N.
Veytia, Devi
Watters, George M.
Xavier, Jose C.
Yang, Guang
author_facet Hill, Simeon L.
Atkinson, Angus
Arata, Javier A.
Belcher, Anna
Nash, Susan Bengtson
Bernard, Kim S.
Cleary, Alison
Conroy, John A.
Driscoll, Ryan
Fielding, Sophie
Flores, Hauke
Forcada, Jaume
Halfter, Svenja
Hinke, Jefferson T.
Huckstadt, Luis
Johnston, Nadine M.
Kane, Mary
Kawaguchi, So
Krafft, Bjorn A.
Kruger, Lucas
La, Hyoung Sul
Liszka, Cecilia M.
Meyer, Bettina
Murphy, Eugene J.
Pakhomov, Evgeny A.
Perry, Frances
Pinones, Andrea
Polito, Michael J.
Reid, Keith
Reiss, Christian
Rombola, Emilce
Saunders, Ryan A.
Schmidt, Katrin
Sylvester, Zephyr T.
Takahashi, Akinori
Tarling, Geraint A.
Trathan, Phil N.
Veytia, Devi
Watters, George M.
Xavier, Jose C.
Yang, Guang
author_sort Hill, Simeon L.
title Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
title_short Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
title_full Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
title_fullStr Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
title_full_unstemmed Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill
title_sort observing change in pelagic animals as sampling methods shift: the case of antarctic krill
publisher FRONTIERS MEDIA SA
publishDate 2024
url http://ir.qdio.ac.cn/handle/337002/184648
https://doi.org/10.3389/fmars.2024.1307402
geographic Antarctic
Austral
Bransfield Strait
Scotia Sea
South Shetland Islands
geographic_facet Antarctic
Austral
Bransfield Strait
Scotia Sea
South Shetland Islands
genre Antarc*
Antarctic
Antarctic Krill
Bransfield Strait
Euphausia superba
ice pack
Scotia Sea
Sea ice
South Shetland Islands
genre_facet Antarc*
Antarctic
Antarctic Krill
Bransfield Strait
Euphausia superba
ice pack
Scotia Sea
Sea ice
South Shetland Islands
op_relation FRONTIERS IN MARINE SCIENCE
http://ir.qdio.ac.cn/handle/337002/184648
doi:10.3389/fmars.2024.1307402
op_doi https://doi.org/10.3389/fmars.2024.1307402
container_title Frontiers in Marine Science
container_volume 11
_version_ 1802644927460409344

Similar Items