Predicting ecosystem shifts requires new approaches that integrate the effects of climate change across entire systems
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(Accepted version)
Date
2012
Authors
Russell, B.
Harley, C.
Wernberg, T.
Mieszkowska, N.
Widdicombe, S.
Hall-Spencer, J.
Connell, S.
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Journal article
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Biology Letters, 2012; 8(2):164-166
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Bayden D. Russell, Christopher D. G. Harley, Thomas Wernberg, Nova Mieszkowska, Stephen Widdicombe, Jason M. Hall-Spencer and Sean D. Connell
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Abstract
Most studies that forecast the ecological consequences of climate change target a single species and a single life stage. Depending on climatic impacts on other life stages and on interacting species, however, the results from simple experiments may not translate into accurate predictions of future ecological change. Research needs to move beyond simple experimental studies and environmental envelope projections for single species towards identifying where ecosystem change is likely to occur and the drivers for this change. For this to happen, we advocate research directions that (i) identify the critical species within the target ecosystem, and the life stage(s) most susceptible to changing conditions and (ii) the key interactions between these species and components of their broader ecosystem. A combined approach using macroecology, experimentally derived data and modelling that incorporates energy budgets in life cycle models may identify critical abiotic conditions that disproportionately alter important ecological processes under forecasted climates.
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