Random placement models explain species richness and dissimilarity of frog assemblages within Atlantic Forest fragments

Almeida‐Gomes, Mauricio; Gotelli, Nicholas J.; Rocha, Carlos Frederico Duarte; Vieira, Marcus Vinícius; Prevedello, Jayme Augusto

doi:10.1111/1365-2656.13660

Cited by 3 publications

(1 citation statement)

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“…Bidwell et al 2014; Taki et al 2018;Almeida-Gomes et al 2021). These differences in slope and/or intercepts may help identifying which deterministic (ecological) factors are important to generate deviations from the simple null model and, thus, to shape observed SARs (e.g.…”

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How much do simple random processes explain species-area relationships? A global synthesis and a new metric

Silva

Mendes

Prevedello

2023

Preprint

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Context The species-area relationship (SAR) is one of the main patterns in Ecology, but its underlying causes are still under debate. The random placement hypothesis (RPH) is the simplest one to explain the SAR: larger areas are more likely to contain more individuals and, as a consequence, more species. However, it is still unclear the degree to which the RPH is supported for different taxa and regions globally. Objectives We performed the first global synthesis on the RPH to investigate which variables mediate variation in the degree of support of this hypothesis across taxa and regions. Methods We conducted a review of the global SAR literature and created a new integrative metric to estimate the degree of support of the RPH. This metric takes into account the coefficient of determination, the intercept, and the slope of the relationship between observed (empirical) and predicted (according to the RPH) species richness. We analyzed the relationship between this metric and different geographic and ecological factors. Results We found a total of 52 independent tests of the RPH. About 42% of these tests confirmed the RPH. Using the new metric, we found that the degree of support of the RPH was significantly higher for plants than animals, and increased consistently with latitude. Conclusions Simple probabilistic processes are important to determine SARs, especially for sessile organisms and at higher latitudes. Further tests of the RPH, especially using the new metric introduced here, will be vital to understand the processes underlying the SAR and to advance Landscape Ecology.

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confidence: 99%

How much do simple random processes explain species-area relationships? A global synthesis and a new metric

Silva

Mendes

Prevedello

2023

Preprint

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Random placement models explain species richness and dissimilarity of frog assemblages within Atlantic Forest fragments

Almeida‐Gomes

Gotelli

Rocha

et al. 2022

Journal of Animal Ecology

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Understanding the effects of random versus niche‐based processes on biodiversity patterns is a central theme in ecology, and an important tool for predicting effects of habitat loss and fragmentation on biodiversity. We investigated the predictive power of random processes to explain species richness and species dissimilarity of amphibian assemblages in a fragmented tropical landscape of the Atlantic Forest of South America. We analyzed a large database of amphibian abundance and occupancy, sampled in 21 forest fragments ranging in size from 1.9 to 619 ha. We compared observed species richness and species dissimilarity with the outcomes of two null (random placement) models: 1‐ the traditional Coleman's area‐based model and 2‐ an abundance‐based model (based on the number of individuals observed in each fragment). We applied these models for all species combined, and separately for forest‐dependent and habitat‐generalist species. The abundance‐based model fitted the observed species richness data better than the area‐based model for all species, forest‐dependent species, and generalist species. The area‐based and the abundance‐based models were also able to significantly explain species dissimilarity for all species and for generalists, but not for forest dependent species. The traditional area‐based model assigned too many individuals to large fragments, thus failing to accurately explain species richness within patches across the landscape. Although niche‐based processes may be important to structuring the regional pool of species in fragmented landscapes, our results suggest that part of the variation in species richness and species dissimilarity can be successfully explained by random placement models, especially for generalist species. Evaluating which factors cause variation in the number of individuals among patches should be a focus in future studies aiming to understand biodiversity patterns in fragmented landscapes.

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Abundance data of anuran species in forest fragments

Almeida-Gomes,

Gotelli,

Rocha

et al. 2021

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Random placement models explain species richness and dissimilarity of frog assemblages within Atlantic Forest fragments

Cited by 3 publications

References 87 publications

How much do simple random processes explain species-area relationships? A global synthesis and a new metric

How much do simple random processes explain species-area relationships? A global synthesis and a new metric

Random placement models explain species richness and dissimilarity of frog assemblages within Atlantic Forest fragments

Abundance data of anuran species in forest fragments

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