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A synergistic approach for evaluating climate model output for ecological applications


Cavanagh, RD and Murphy, EJ and Bracegirdle, TJ and Turner, J and Knowland, CA and Corney, SP and Smith, WO and Waluda, CM and Johnston, NM and Bellerby, RGJ and Constable, AJ and Costa, DP and Hofmann, EE and Jackson, JA and Staniland, IJ and Wolf-Gladrow, D and Xavier, JC, A synergistic approach for evaluating climate model output for ecological applications, Frontiers in Marine Science, 4, (SEP) Article 308. ISSN 2296-7745 (2017) [Refereed Article]


Copyright Statement

Copyright 2017 The Authors Licensed under Creative Commons Attribution 4.0 International (CC BY 4.0)

DOI: doi:10.3389/fmars.2017.00308


Increasing concern about the impacts of climate change on ecosystems is prompting ecologists and ecosystem managers to seek reliable projections of physical drivers of change. The use of global climate models in ecology is growing, although drawing ecologically meaningful conclusions can be problematic. The expertise required to access and interpret output from climate and earth system models is hampering progress in utilizing them most effectively to determine the wider implications of climate change. To address this issue, we present a joint approach between climate scientists and ecologists that explores key challenges and opportunities for progress. As an exemplar, our focus is the Southern Ocean, notable for significant change with global implications, and on sea ice, given its crucial role in this dynamic ecosystem. We combined perspectives to evaluate the representation of sea ice in global climate models. With an emphasis on ecologically-relevant criteria (sea ice extent and seasonality) we selected a subset of eight models that reliably reproduce extant sea ice distributions. While the model subset shows a similar mean change to the full ensemble in sea ice extent (approximately 50% decline in winter and 30% decline in summer), there is a marked reduction in the range. This improved the precision of projected future sea ice distributions by approximately one third, and means they are more amenable to ecological interpretation. We conclude that careful multidisciplinary evaluation of climate models, in conjunction with ongoing modeling advances, should form an integral part of utilizing model output.

Item Details

Item Type:Refereed Article
Keywords:IPCC, CMIP5, climate models, Southern Ocean, marine ecosystems, climate change, sea ice
Research Division:Environmental Sciences
Research Group:Climate change impacts and adaptation
Research Field:Ecological impacts of climate change and ecological adaptation
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the biological sciences
UTAS Author:Corney, SP (Dr Stuart Corney)
UTAS Author:Constable, AJ (Dr Andrew Constable)
ID Code:122494
Year Published:2017
Deposited By:CRC-Antarctic Climate & Ecosystems
Deposited On:2017-11-16
Last Modified:2018-04-23
Downloads:121 View Download Statistics

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