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Framework for understanding marine ecosystem health

Tett, P.; Gowen, R. J.; Painting, S. J.; Elliott, M.; Forster, R.; Mills, D. K.; Bresnan, E.; Capuzzo, E.; Fernandes, T. F.; Foden, J.; Geider, R. J.; Gilpin, L. C.; Huxham, M.; McQuatters-Gollop, A. L.; Malcolm, S. J.; Saux-Picart, S.; Platt, T.; Racault, M. F.; Sathyendranath, S.; Van Der Molen, J.; Wilkinson, M.

Authors

P. Tett

R. J. Gowen

S. J. Painting

Profile image of Mike Elliott

Professor Mike Elliott Mike.Elliott@hull.ac.uk
Emeritus Professor of Estuarine and Coastal Sciences/ Research Professor, Institute of Estuarine and Coastal Studies

D. K. Mills

E. Bresnan

E. Capuzzo

T. F. Fernandes

J. Foden

R. J. Geider

L. C. Gilpin

M. Huxham

A. L. McQuatters-Gollop

S. J. Malcolm

S. Saux-Picart

T. Platt

M. F. Racault

S. Sathyendranath

J. Van Der Molen

M. Wilkinson



Abstract

ABSTRACT: Although the terms 'health' and 'healthy' are often applied to marine ecosystems and communicate information about holistic condition (e.g. as required by the Ecosystem Approach), their meaning is unclear. Ecosystems have been understood in various ways, from non-interacting populations of species to complex integrated systems. Health has been seen as a metaphor, an indicator that aggregates over system components, or a non-localized emergent system property. After a review, we define good ecosystem health as: 'the condition of a system that is self-maintaining, vigorous, resilient to externally imposed pressures, and able to sustain services to humans. It contains healthy organisms and populations, and adequate functional diversity and functional response diversity. All expected trophic levels are present and well interconnected, and there is good spatial connectivity amongst subsystems.' We equate this condition with good ecological or environmental status, e.g. as referred to by recent EU Directives. Resilience is central to health, but difficult to measure directly. Ecosystems under anthropogenic pressure are at risk of losing resilience, and thus of suffering regime shifts and loss of services. For monitoring whole ecosystems, we propose an approach based on 'trajectories in ecosystem state space', illustrated with time-series from the northwestern North Sea. Change is visualized as Euclidian distance from an arbitrary reference state. Variability about a trend in distance is used as a proxy for inverse resilience. We identify the need for institutional support for long time-series to underpin this approach, and for research to establish state space co-ordinates for systems in good health. Changes in the northern North Sea, 1958-2008, plotted in a state space defined by the breeding success of kittiwakes, abundance of copepods Calanus spp., and simulated annual primary production.© Inter-Research 2013. www.int-res.com.

Citation

Tett, P., Gowen, R. J., Painting, S. J., Elliott, M., Forster, R., Mills, D. K., Bresnan, E., Capuzzo, E., Fernandes, T. F., Foden, J., Geider, R. J., Gilpin, L. C., Huxham, M., McQuatters-Gollop, A. L., Malcolm, S. J., Saux-Picart, S., Platt, T., Racault, M. F., Sathyendranath, S., Van Der Molen, J., & Wilkinson, M. (2013). Framework for understanding marine ecosystem health. Marine ecology progress series, 494, 1-27. https://doi.org/10.3354/meps10539

Journal Article Type Review
Acceptance Date Aug 27, 2013
Publication Date Dec 4, 2013
Deposit Date Feb 14, 2019
Journal Marine Ecology Progress Series
Print ISSN 0171-8630
Publisher Inter Research
Peer Reviewed Peer Reviewed
Volume 494
Pages 1-27
DOI https://doi.org/10.3354/meps10539
Keywords Ecosystem approach; Functional and response biodiversity; Resilience; State space; Regime shift; EU Marine strategy Framework Directive
Public URL https://hull-repository.worktribe.com/output/532353
Publisher URL https://www.int-res.com/abstracts/meps/v494/p1-27/



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