Specialists and generalists fulfil important and complementary functional roles in ecological processes

Dehling, D. Matthias; Bender, Irene M. A.; Blendinger, Pedro G.; Böhning‐Gaese, Katrin; Muñoz, Marcia C.; Neuschulz, Eike Lena; Quitián, Marta; Saavedra, Francisco; Santillán, Vinicio; Schleuning, Matthias; Stouffer, Daniel B.

doi:10.1111/1365-2435.13815

Cited by 27 publications

(28 citation statements)

References 64 publications

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“…Therefore, it is likely that a synergic effect of climate and land-use change cause even more harm on bird communities through simplification of frugivorous bird assemblages, thus, impacting fruited-plants, driving co-extinctions of specific groups of plants and disrupting frugivorous networks (Emer et al, 2020;Northrup et al, 2019). For instance, the dispersion of large fruits depends on large frugivores, such as toucans and guans, thus, their disappearance may disrupt the maintenance of certain plants enhancing forest degradation (Dehling et al, 2021;Galetti et al, 2013). Indeed, large frugivorous birds can link forest patches in highly fragmented landscapes thus playing a structuring role in these forests (Mueller et al, 2014;Trolliet et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Climate change is expected to restructure forest frugivorous bird communities in a biodiversity hot‐point within the Atlantic Forest

Mota

Heming

Morante‐Filho

et al. 2022

Diversity and Distributions

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Aim: Changes in climatic conditions are predicted to impact species distribution and hence alter their diversity patterns. Modifications in the composition of biological communities are expected as a result of the loss and replacement of species due to global warming. Forest frugivorous birds already suffer from habitat loss and may disappear locally due to suitable area contraction or range shifts to novel areas, disrupting seed dispersal and consequently the functioning of natural ecosystems. Here, we investigate the impacts of different climate scenarios on alpha and beta diversities of forest frugivorous birds.Location: Central Corridor of the Atlantic Forest (CCAF), Brazil. Methods:We used ecological niche models to project species distribution of 68 frugivorous birds for the baseline and future (2050 and 2070) scenarios. We generated binary maps of suitable areas for each species by climate scenario to calculate alpha and beta diversities.Results: Most forest frugivorous birds were projected to lose suitable area, as a consequence of climate change, reducing alpha diversity in future scenarios and increasing temporal beta diversity, which is dominated by the nestedness component. In addition, species richness decreased from the east to the west portion of the CCAF, while differentiation of bird communities increased in the same direction, a pattern consistent across all climate scenarios evaluated.Main conclusions: Climate change may exert drastic alterations in the composition of frugivorous bird communities in the CCAF. As forest frugivorous birds are critical to seed dispersal of forest plant species, impoverishment of their communities can drastically affect forest regeneration, diversity, and structure in the decades to come. Therefore, a better comprehension of spatio-temporal changes in diversity patterns of frugivorous birds can help us to avoid the disruption of seed dispersal and its consequences, such as cascading effects that will trigger biodiversity loss in the CCAF.

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Section: Discussionmentioning

confidence: 99%

Climate change is expected to restructure forest frugivorous bird communities in a biodiversity hot‐point within the Atlantic Forest

Mota

Heming

Morante‐Filho

et al. 2022

Diversity and Distributions

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“…For each grid cell, we calculated species richness and phylogenetic diversity of amphibians. In addition, we calculated the complementarity in species and phylogenetic diversity: the contribution of each grid cell to total species richness and phylogenetic diversity across Africa, measured relative to the species richness and phylogenetic diversity found in the grid cell 76 , 77 . Complementarity is high for grid cells that include a high percentage of species or phylogenetic lineages with a small distribution, and it is low for grid cells that mostly include widespread species and lineages.…”

Section: Methodsmentioning

confidence: 99%

Elevated alpha diversity in disturbed sites obscures regional decline and homogenization of amphibian taxonomic, functional and phylogenetic diversity

Dehling

2023

Sci Rep

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Loss of natural habitat due to land-use change is one of the major threats to biodiversity worldwide. It not only affects the diversity of local species communities (alpha diversity) but can also lead to large-scale homogenization of community composition (reduced beta diversity) and loss of regional diversity (gamma diversity), but these effects are still rarely investigated. We assessed the impact of land-use change on taxonomic, functional and phylogenetic diversity of amphibians in Rwanda, both on the local (community-level) and regional scale (country-wide). Alpha diversity in local communities was higher in farmland than in natural habitats; however, species turnover among farmland sites was much lower than among natural sites, resulting in highly homogenized communities and reduced taxonomic, functional and phylogenetic gamma diversity in farmland across Rwanda. Amphibians found in farmland were mostly disturbance-tolerant species that are widespread in eastern Africa and beyond. In contrast, most of the regionally endemic frog species that make this region a continent-wide hotspot of amphibian diversity were found only in the natural habitats. Ongoing habitat conversion might result in further homogenization of amphibian communities across sub-Saharan Africa and the loss of regional endemism, unique evolutionary lineages, and multifunctionality.

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“…As a consequence of such contingencies, macroecological trends and small‐scale community responses to changing environmental conditions can be disconnected (Ferrín et al, 2023). Nevertheless, adding functional traits to large‐scale analyses of ecological networks generally outperforms the predictive power of analyses merely based on taxonomic entities (Dehling et al, 2021). At a global scale, trait‐based approaches can help to detect mechanisms underpinning the latitudinal diversity gradient and explain why tropical ecosystems contain so many more species than ecosystems distant from the equator (Lamanna et al, 2014).…”

Section: Question 2 Upscaling Understanding From Small To Large Spati...mentioning

confidence: 99%

Animal functional traits: Towards a trait‐based ecology for whole ecosystems

2023

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1. Functional traits and associated trait-based concepts have driven rapid innovation in ecology over recent years, with most progress based on insights from plants. However, plants are almost entirely restricted to a single trophic level, and an over-reliance on plant traits therefore neglects the complexity and importance of biotic interactions across trophic levels. 2. The need to expand the focus of trait-based ecology to account for trophic complexity has led to an upsurge in attention on animal functional traits and the emergence of new concepts relevant to community ecology, macroecology and ecosystem science. Recent progress in the compilation of global trait datasets for some animal taxa has opened up new possibilities for testing ecological theory. 3. In this Special Focus, we explore how trait-based ecology can expand the scope of investigation from single to multiple trophic levels, how insights from these investigations can be used to upscale understanding from local communities to biogeographical patterns and how this can ultimately help to predict the impacts of global change on ecosystem functions. To address these key questions, we showcase studies on diverse animal taxa ranging in size from springtails to crocodiles and spanning multiple trophic levels from primary consumers to apex predators. 4. This collection of studies shows how precise measurements of morphological or physiological traits can increase mechanistic understanding of community assembly across trophic levels, particularly of the mechanisms underpinning large-scale biodiversity patterns. Furthermore, a clearer picture is emerging of systematic animal responses to environmental change that shape the trait composition of ecological communities and affect ecosystem functioning. 5. The articles in this volume highlight the need to move trait-based ecology beyond the limits of taxonomic boundaries. The integration of trait data and concepts across trophic levels opens up new possibilities for identifying general ecological mechanisms that shape patterns and processes operating at different scales. The identification of key functional traits and their interplay across trophic levels can underpin the development of a trait-based ecology for whole | 5

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Specialists and generalists fulfil important and complementary functional roles in ecological processes

Cited by 27 publications

References 64 publications

Climate change is expected to restructure forest frugivorous bird communities in a biodiversity hot‐point within the Atlantic Forest

Climate change is expected to restructure forest frugivorous bird communities in a biodiversity hot‐point within the Atlantic Forest

Elevated alpha diversity in disturbed sites obscures regional decline and homogenization of amphibian taxonomic, functional and phylogenetic diversity

Animal functional traits: Towards a trait‐based ecology for whole ecosystems

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