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      Extinction vulnerability of coral reef fishes

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          Abstract

          With rapidly increasing rates of contemporary extinction, predicting extinction vulnerability and identifying how multiple stressors drive non-random species loss have become key challenges in ecology. These assessments are crucial for avoiding the loss of key functional groups that sustain ecosystem processes and services. We developed a novel predictive framework of species extinction vulnerability and applied it to coral reef fishes. Although relatively few coral reef fishes are at risk of global extinction from climate disturbances, a negative convex relationship between fish species locally vulnerable to climate change vs. fisheries exploitation indicates that the entire community is vulnerable on the many reefs where both stressors co-occur. Fishes involved in maintaining key ecosystem functions are more at risk from fishing than climate disturbances. This finding is encouraging as local and regional commitment to fisheries management action can maintain reef ecosystem functions pending progress towards the more complex global problem of stabilizing the climate.

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          Synergies among extinction drivers under global change.

          Barry W Brook, Navjot Sodhi, Corey J. A. Bradshaw (2008)
          If habitat destruction or overexploitation of populations is severe, species loss can occur directly and abruptly. Yet the final descent to extinction is often driven by synergistic processes (amplifying feedbacks) that can be disconnected from the original cause of decline. We review recent observational, experimental and meta-analytic work which together show that owing to interacting and self-reinforcing processes, estimates of extinction risk for most species are more severe than previously recognised. As such, conservation actions which only target single-threat drivers risk being inadequate because of the cascading effects caused by unmanaged synergies. Future work should focus on how climate change will interact with and accelerate ongoing threats to biodiversity, such as habitat degradation, overexploitation and invasive species.
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            Quantifying the evidence for ecological synergies.

            Emily S Darling, Isabelle M. Côté (2008)
            There is increasing concern that multiple drivers of ecological change will interact synergistically to accelerate biodiversity loss. However, the prevalence and magnitude of these interactions remain one of the largest uncertainties in projections of future ecological change. We address this uncertainty by performing a meta-analysis of 112 published factorial experiments that evaluated the impacts of multiple stressors on animal mortality in freshwater, marine and terrestrial communities. We found that, on average, mortalities from the combined action of two stressors were not synergistic and this result was consistent across studies investigating different stressors, study organisms and life-history stages. Furthermore, only one-third of relevant experiments displayed truly synergistic effects, which does not support the prevailing ecological paradigm that synergies are rampant. However, in more than three-quarters of relevant experiments, the outcome of multiple stressor interactions was non-additive (i.e. synergies or antagonisms), suggesting that ecological surprises may be more common than simple additive effects.
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              Dynamic fragility of oceanic coral reef ecosystems.

              Nicholas Graham, Shaun Wilson, Simon Jennings (2006)
              As one of the most diverse and productive ecosystems known, and one of the first ecosystems to exhibit major climate-warming impacts (coral bleaching), coral reefs have drawn much scientific attention to what may prove to be their Achilles heel, the thermal sensitivity of reef-building corals. Here we show that climate change-driven loss of live coral, and ultimately structural complexity, in the Seychelles results in local extinctions, substantial reductions in species richness, reduced taxonomic distinctness, and a loss of species within key functional groups of reef fish. The importance of deteriorating physical structure to these patterns demonstrates the longer-term impacts of bleaching on reefs and raises questions over the potential for recovery. We suggest that isolated reef systems may be more susceptible to climate change, despite escaping many of the stressors impacting continental reefs.
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                Author and article information

                Contributors
                Peter Mumby: Role: Editor
                Journal
                Journal ID (nlm-ta): Ecol Lett
                Journal ID (iso-abbrev): Ecol. Lett
                Journal ID (publisher-id): ele
                Title: Ecology Letters
                Publisher: Blackwell Publishing Ltd (Oxford, UK )
                ISSN (Print): 1461-023X
                ISSN (Electronic): 1461-0248
                Publication date (Print): April 2011
                Volume: 14
                Issue: 4
                Pages: 341-348
                Affiliations
                [1 ]ARC Centre of Excellence for Coral Reef Studies, James Cook University Townsville, Qld 4811, Australia
                [2 ]Institut de Recherche pour le Développement (IRD) BP 50172. 97492 Ste Clotilde Cedex, Reunion Island, France
                [3 ]Department of Environment and Conservation 17 Dick Perry Ave., Kensington, Perth, WA 6151, Australia
                [4 ]Oceans Institute, School of Plant Biology, University of Western Australia Crawley, WA 6009, Australia
                [5 ]Centre for Environment, Fisheries and Aquaculture Science, Lowestoft Laboratory, Lowestoft NR33 0HT, and School of Environmental Sciences, University of East Anglia Norwich NR4 7TJ, UK
                [6 ]Laboratoire LIVE, Université de la Nouvelle-Calédonie BP R4, 98851 Nouméa Cedex, New Caledonia
                [7 ]Australian Institute of Marine Science PMB 3, Townsville MC, Townsville, Qld 4810, Australia
                [8 ]Marine Programs, Wildlife Conservation Society Bronx, NY 10460, USA
                [9 ]Department of Zoology, Stockholm University S-106 91 Stockholm, Sweden
                [10 ]School of Marine Science and Technology, Newcastle University Newcastle-upon-Tyne NE1 7RU, UK
                Author notes
                *Correspondence: E-mail: nick.graham@ 123456jcu.edu.au
                Article
                DOI: 10.1111/j.1461-0248.2011.01592.x
                PMC ID: 3627313
                PubMed ID: 21320260
                SO-VID: 2b05922b-0762-42a0-ae67-9724d109b117
                Copyright © © 2011 Blackwell Publishing Ltd/CNRS
                License:

                Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

                History
                Date received : 08 November 2010
                Date revision received : 18 December 2010
                Date accepted : 02 January 2011
                Categories
                Subject: Letters

                ScienceOpen disciplines: Ecology
                Keywords: additive effects,climate change,coral reef ecology,ecosystem function,fisheries,multiple stressors,resilience,synergy
                Data availability:
                ScienceOpen disciplines: Ecology
                Keywords: additive effects, climate change, coral reef ecology, ecosystem function, fisheries, multiple stressors, resilience, synergy

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