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      Beyond species: why ecological interaction networks vary through space and time

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      Oikos
      Wiley-Blackwell

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          The ecology of individuals: incidence and implications of individual specialization.

          Most empirical and theoretical studies of resource use and population dynamics treat conspecific individuals as ecologically equivalent. This simplification is only justified if interindividual niche variation is rare, weak, or has a trivial effect on ecological processes. This article reviews the incidence, degree, causes, and implications of individual-level niche variation to challenge these simplifications. Evidence for individual specialization is available for 93 species distributed across a broad range of taxonomic groups. Although few studies have quantified the degree to which individuals are specialized relative to their population, between-individual variation can sometimes comprise the majority of the population's niche width. The degree of individual specialization varies widely among species and among populations, reflecting a diverse array of physiological, behavioral, and ecological mechanisms that can generate intrapopulation variation. Finally, individual specialization has potentially important ecological, evolutionary, and conservation implications. Theory suggests that niche variation facilitates frequency-dependent interactions that can profoundly affect the population's stability, the amount of intraspecific competition, fitness-function shapes, and the population's capacity to diversify and speciate rapidly. Our collection of case studies suggests that individual specialization is a widespread but underappreciated phenomenon that poses many important but unanswered questions.
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            A framework for community interactions under climate change.

            Predicting the impacts of climate change on species is one of the biggest challenges that ecologists face. Predictions routinely focus on the direct effects of climate change on individual species, yet interactions between species can strongly influence how climate change affects organisms at every scale by altering their individual fitness, geographic ranges and the structure and dynamics of their community. Failure to incorporate these interactions limits the ability to predict responses of species to climate change. We propose a framework based on ideas from global-change biology, community ecology, and invasion biology that uses community modules to assess how species interactions shape responses to climate change. Copyright (c) 2010 Elsevier Ltd. All rights reserved.
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              Network structure and biodiversity loss in food webs: robustness increases with connectance

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                Author and article information

                Journal
                Oikos
                Oikos
                Wiley-Blackwell
                00301299
                March 2015
                March 2015
                : 124
                : 3
                : 243-251
                Article
                10.1111/oik.01719
                0c3087db-be33-4b04-975c-65dfabaa5a4f
                © 2015

                http://doi.wiley.com/10.1002/tdm_license_1.1

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