Observing climate change trends in ocean biogeochemistry: when and where
Observing climate change trends in ocean biogeochemistry: when and where
Understanding the influence of anthropogenic forcing on the marine biosphere is a high priority. Climate change-driven trends need to be accurately assessed and detected in a timely manner. As part of the effort towards detection of long-term trends, a network of ocean observatories and time series stations provide high quality data for a number of key parameters, such as pH, oxygen concentration or primary production (PP). Here, we use an ensemble of global coupled climate models to assess the temporal and spatial scales over which observations of eight biogeochemically relevant variables must be made to robustly detect a long-term trend. We find that, as a global average, continuous time series are required for between 14 (pH) and 32 (PP) years to distinguish a climate change trend from natural variability. Regional differences are extensive, with low latitudes and the Arctic generally needing shorter time series (<~30 years) to detect trends than other areas. In addition, we quantify the ‘footprint’ of existing and planned time series stations, that is the area over which a station is representative of a broader region. Footprints are generally largest for pH and sea surface temperature, but nevertheless the existing network of observatories only represents 9–15% of the global ocean surface. Our results present a quantitative framework for assessing the adequacy of current and future ocean observing networks for detection and monitoring of climate change-driven responses in the marine ecosystem.
attribution, carbon export, chlorophyll concentration, fixed point observatories, monitoring, nitrate, small phytoplankton, sustained observations
1561–1571
Henson, Stephanie
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Beaulieu, Claudie
13ae2c11-ebfe-48d9-bda9-122cd013c021
Lampitt, Richard
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
1 April 2016
Henson, Stephanie
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Beaulieu, Claudie
13ae2c11-ebfe-48d9-bda9-122cd013c021
Lampitt, Richard
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Henson, Stephanie, Beaulieu, Claudie and Lampitt, Richard
(2016)
Observing climate change trends in ocean biogeochemistry: when and where.
Global Change Biology, 22 (4), .
(doi:10.1111/gcb.13152).
Abstract
Understanding the influence of anthropogenic forcing on the marine biosphere is a high priority. Climate change-driven trends need to be accurately assessed and detected in a timely manner. As part of the effort towards detection of long-term trends, a network of ocean observatories and time series stations provide high quality data for a number of key parameters, such as pH, oxygen concentration or primary production (PP). Here, we use an ensemble of global coupled climate models to assess the temporal and spatial scales over which observations of eight biogeochemically relevant variables must be made to robustly detect a long-term trend. We find that, as a global average, continuous time series are required for between 14 (pH) and 32 (PP) years to distinguish a climate change trend from natural variability. Regional differences are extensive, with low latitudes and the Arctic generally needing shorter time series (<~30 years) to detect trends than other areas. In addition, we quantify the ‘footprint’ of existing and planned time series stations, that is the area over which a station is representative of a broader region. Footprints are generally largest for pH and sea surface temperature, but nevertheless the existing network of observatories only represents 9–15% of the global ocean surface. Our results present a quantitative framework for assessing the adequacy of current and future ocean observing networks for detection and monitoring of climate change-driven responses in the marine ecosystem.
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More information
Submitted date: 23 July 2015
Accepted/In Press date: 19 October 2015
e-pub ahead of print date: 6 January 2016
Published date: 1 April 2016
Keywords:
attribution, carbon export, chlorophyll concentration, fixed point observatories, monitoring, nitrate, small phytoplankton, sustained observations
Organisations:
Ocean Biochemistry & Ecosystems, Physical Oceanography, National Oceanography Centre
Identifiers
Local EPrints ID: 406636
URI: http://eprints.soton.ac.uk/id/eprint/406636
ISSN: 1354-1013
PURE UUID: 2517bdb9-c435-4c48-b270-6e52d6ff46fe
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Date deposited: 18 Mar 2017 02:25
Last modified: 15 Mar 2024 12:36
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Author:
Richard Lampitt
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