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Historical records of coastal eutrophication-induced hypoxia

Historical records of coastal eutrophication-induced hypoxia
Historical records of coastal eutrophication-induced hypoxia
Under certain conditions, sediment cores from coastal settings subject to hypoxia can yield records of environmental changes over time scales ranging from decades to millennia, sometimes with a resolution of as little as a few years. A variety of biological and geochemical indicators (proxies) derived from such cores have been used to reconstruct the development of eutrophication and hypoxic conditions over time. Those based on (1) the preserved remains of benthic organisms (mainly foraminiferans and ostracods), (2) sedimentary features (e.g. laminations) and (3) sediment chemistry and mineralogy (e.g. presence of sulphides and redox-sensitive trace elements) reflect conditions at or close to the seafloor. Those based on (4) the preserved remains of planktonic organisms (mainly diatoms and dinoflagellates), (5) pigments and lipid biomarkers derived from prokaryotes and eukaryotes and (6) organic C, N and their stable isotope ratios reflect conditions in the water column. However, the interpretation of these indicators is not straightforward. A central difficulty concerns the fact that hypoxia is strongly correlated with, and often induced by, organic enrichment caused by eutrophication, making it difficult to separate the effects of these phenomena in sediment records. The problem is compounded by the enhanced preservation in anoxic and hypoxic sediments of organic microfossils and biomarkers indicating eutrophication. The use of hypoxia-specific proxies, such as the trace metals molybdenum and rhenium and the bacterial biomarker isorenieratene, together with multi-proxy approaches, may provide a way forward. All proxies of bottom-water hypoxia are basically qualitative; their quantification presents a major challenge to which there is currently no satisfactory solution. Finally, it is important to separate the effects of natural ecosystem variability from anthropogenic effects. Despite these problems, in the absence of historical data for dissolved oxygen concentrations, the analysis of sediment cores can provide plausible reconstructions of the temporal development of human-induced hypoxia, and associated eutrophication, in vulnerable coastal environments.
1726-4170
1707-1745
Gooday, A.J.
d9331d67-d518-4cfb-baed-9df3333b05b9
Jorissen, F.
a8754a42-1af4-4e0a-96c0-80384dc8c458
Levin, L.A.
e7b34e8b-4aae-475f-abf6-6da85b313cdf
Middelburg, J.J.
e57ac314-3af2-441c-8097-fbc132227124
Naqvi, S.W.A.
5de9d387-d456-4c0a-98a6-9292fac1e6e2
Rabalais, N.N.
27d38f3a-4977-448a-aec7-4af59fe3d401
Scranton, M.
4b10b504-b51b-427a-9514-d8a27a0c5163
Zhang, J.
722d2564-f8ae-40f1-b1e1-07896b67a0d8
Gooday, A.J.
d9331d67-d518-4cfb-baed-9df3333b05b9
Jorissen, F.
a8754a42-1af4-4e0a-96c0-80384dc8c458
Levin, L.A.
e7b34e8b-4aae-475f-abf6-6da85b313cdf
Middelburg, J.J.
e57ac314-3af2-441c-8097-fbc132227124
Naqvi, S.W.A.
5de9d387-d456-4c0a-98a6-9292fac1e6e2
Rabalais, N.N.
27d38f3a-4977-448a-aec7-4af59fe3d401
Scranton, M.
4b10b504-b51b-427a-9514-d8a27a0c5163
Zhang, J.
722d2564-f8ae-40f1-b1e1-07896b67a0d8

Gooday, A.J., Jorissen, F., Levin, L.A., Middelburg, J.J., Naqvi, S.W.A., Rabalais, N.N., Scranton, M. and Zhang, J. (2009) Historical records of coastal eutrophication-induced hypoxia. Biogeosciences, 6 (8), 1707-1745.

Record type: Article

Abstract

Under certain conditions, sediment cores from coastal settings subject to hypoxia can yield records of environmental changes over time scales ranging from decades to millennia, sometimes with a resolution of as little as a few years. A variety of biological and geochemical indicators (proxies) derived from such cores have been used to reconstruct the development of eutrophication and hypoxic conditions over time. Those based on (1) the preserved remains of benthic organisms (mainly foraminiferans and ostracods), (2) sedimentary features (e.g. laminations) and (3) sediment chemistry and mineralogy (e.g. presence of sulphides and redox-sensitive trace elements) reflect conditions at or close to the seafloor. Those based on (4) the preserved remains of planktonic organisms (mainly diatoms and dinoflagellates), (5) pigments and lipid biomarkers derived from prokaryotes and eukaryotes and (6) organic C, N and their stable isotope ratios reflect conditions in the water column. However, the interpretation of these indicators is not straightforward. A central difficulty concerns the fact that hypoxia is strongly correlated with, and often induced by, organic enrichment caused by eutrophication, making it difficult to separate the effects of these phenomena in sediment records. The problem is compounded by the enhanced preservation in anoxic and hypoxic sediments of organic microfossils and biomarkers indicating eutrophication. The use of hypoxia-specific proxies, such as the trace metals molybdenum and rhenium and the bacterial biomarker isorenieratene, together with multi-proxy approaches, may provide a way forward. All proxies of bottom-water hypoxia are basically qualitative; their quantification presents a major challenge to which there is currently no satisfactory solution. Finally, it is important to separate the effects of natural ecosystem variability from anthropogenic effects. Despite these problems, in the absence of historical data for dissolved oxygen concentrations, the analysis of sediment cores can provide plausible reconstructions of the temporal development of human-induced hypoxia, and associated eutrophication, in vulnerable coastal environments.

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Published date: 2009

Identifiers

Local EPrints ID: 71769
URI: http://eprints.soton.ac.uk/id/eprint/71769
ISSN: 1726-4170
PURE UUID: 275498a2-8970-4e77-9bf1-4ebaaeafc065

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Date deposited: 22 Dec 2009
Last modified: 22 Jul 2022 17:09

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Contributors

Author: A.J. Gooday
Author: F. Jorissen
Author: L.A. Levin
Author: J.J. Middelburg
Author: S.W.A. Naqvi
Author: N.N. Rabalais
Author: M. Scranton
Author: J. Zhang

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