2012
DOI: 10.1098/rstb.2011.0191
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Predictive ecology: systems approaches

Abstract: The world is experiencing significant, largely anthropogenically induced, environmental change. This will impact on the biological world and we need to be able to forecast its effects. In order to produce such forecasts, ecology needs to become more predictive-to develop the ability to understand how ecological systems will behave in future, changed, conditions. Further development of process-based models is required to allow such predictions to be made. Critical to the development of such models will be achie… Show more

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Cited by 118 publications
(99 citation statements)
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“…Emphasis should thus be placed on more direct, functional predictors to foster improved model transfers. Understanding the relationship between niche types can help determine when transfers are more likely to succeed or fail (Box 3), and might be facilitated by jointly modeling target species with their competitors, predators, or facilitators [41]; by coupling distribution and population dynamics models; or by incorporating complex eco-evolutionary factors into model formulations [49] (but likely at the expense of higher data requirements [86]). While mechanistic models (Box 3) are well suited to delimiting species' fundamental niches [87], to date their application remains limited to a few, well-studied taxa for which physiological parameters are documented in detail [4].…”
Section: Ecological Niches In Model Transfersmentioning
confidence: 99%
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“…Emphasis should thus be placed on more direct, functional predictors to foster improved model transfers. Understanding the relationship between niche types can help determine when transfers are more likely to succeed or fail (Box 3), and might be facilitated by jointly modeling target species with their competitors, predators, or facilitators [41]; by coupling distribution and population dynamics models; or by incorporating complex eco-evolutionary factors into model formulations [49] (but likely at the expense of higher data requirements [86]). While mechanistic models (Box 3) are well suited to delimiting species' fundamental niches [87], to date their application remains limited to a few, well-studied taxa for which physiological parameters are documented in detail [4].…”
Section: Ecological Niches In Model Transfersmentioning
confidence: 99%
“…Several tools are available to visualize regions whose characteristics depart from the initial covariate range (e.g., [42,48]), and these can help assess the potential impacts of non-analog conditions on predictive performance. However, these tools cannot predict species' responses to novel conditions, which can be particularly unexpected if environmental change imposes selection pressures that disrupt biotic interactions and cause communities to evolve [49]. Further development of these tools for future transfers, and their application in examining of the outcomes of historical transfers, will improve our understanding on how non-analog conditions can be accounted for when transferring models.…”
mentioning
confidence: 99%
“…Statistical models can be used to identify driving forces of changes in service provision and to predict system shifts and fluctuations in service provision as a consequence of environmental change and anthropogenic intervention (Evans et al, 2012). Simple statistical models (e.g., regression) are based on interpolations along existing gradients and cannot provide predictions about levels of ecosystem services under future conditions outside of these gradients.…”
Section: Category Measure Referencesmentioning
confidence: 99%
“…Jakeman et al 2006, Evans et al 2011, Grimm & Railsback 2011, Robinson et al 2011, Dormann et al 2012, Cuddington et al 2013. One possible approach, so-called hybrid modeling, takes the output from mechanistic models as input for correlative models to predict spatial distributions (e.g.…”
Section: Mechanistic Models and Their Integration With Empirical Modelsmentioning
confidence: 99%