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When 1+1 can be >2: Uncertainties compound when simulating climate, fisheries and marine ecosystems.

Authors :
Evans, Karen
Brown, Jaclyn N.
Sen Gupta, Alex
Nicol, Simon J.
Hoyle, Simon
Matear, Richard
Arrizabalaga, Haritz
Source :
Deep-Sea Research Part II, Topical Studies in Oceanography. Mar2015, Vol. 113, p312-322. 11p.
Publication Year :
2015

Abstract

Multi-disciplinary approaches that combine oceanographic, biogeochemical, ecosystem, fisheries population and socio-economic models are vital tools for modelling whole ecosystems. Interpreting the outputs from such complex models requires an appreciation of the many different types of modelling frameworks being used and their associated limitations and uncertainties. Both users and developers of particular model components will often have little involvement or understanding of other components within such modelling frameworks. Failure to recognise limitations and uncertainties associated with components and how these uncertainties might propagate throughout modelling frameworks can potentially result in poor advice for resource management. Unfortunately, many of the current integrative frameworks do not propagate the uncertainties of their constituent parts. In this review, we outline the major components of a generic whole of ecosystem modelling framework incorporating the external pressures of climate and fishing. We discuss the limitations and uncertainties associated with each component of such a modelling system, along with key research gaps. Major uncertainties in modelling frameworks are broadly categorised into those associated with (i) deficient knowledge in the interactions of climate and ocean dynamics with marine organisms and ecosystems; (ii) lack of observations to assess and advance modelling efforts and (iii) an inability to predict with confidence natural ecosystem variability and longer term changes as a result of external drivers (e.g. greenhouse gases, fishing effort) and the consequences for marine ecosystems. As a result of these uncertainties and intrinsic differences in the structure and parameterisation of models, users are faced with considerable challenges associated with making appropriate choices on which models to use. We suggest research directions required to address these uncertainties, and caution against overconfident predictions. Understanding the full impact of uncertainty makes it clear that full comprehension and robust certainty about the systems themselves are not feasible. A key research direction is the development of management systems that are robust to this unavoidable uncertainty. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09670645
Volume :
113
Database :
Academic Search Index
Journal :
Deep-Sea Research Part II, Topical Studies in Oceanography
Publication Type :
Academic Journal
Accession number :
101498064
Full Text :
https://doi.org/10.1016/j.dsr2.2014.04.006