Plant β‐diversity in fragmented rain forests: testing floristic homogenization and differentiation hypotheses

Arroyo‐Rodríguez, Víctor; Rös, Matthias; Escobar, Federico; Melo, Felipe P. L.; Santos, Bráulio A.; Tabarelli, Marcelo; Chazdon, Robin L.

doi:10.1111/1365-2745.12153

Cited by 208 publications

(238 citation statements)

References 48 publications

(105 reference statements)

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“…By favouring the establishment of ecologically-flexible or disturbance-tolerant species, at the expense of disturbance-intolerant endemics, they can cause biotic homogenization (McKinney and Lockwood 1999;Arroyo-Rodríguez et al 2013;Püttker et al 2015;de Solar et al 2015), i.e., an increase in similarity between communities in different places. We assess biotic homogenisation in two ways: first, by analysing compositional turnover (beta diversity) between pairs of sites (McKinney 2006;Devictor et al 2008;Karp et al 2012); and second, by using the distribution of species' range sizes at a site, with more disturbed sites predicted to be more dominated by wide-ranging species than more natural sites (Mandle and Ticktin 2013).…”

Section: Introductionmentioning

confidence: 99%

Land-use effects on local biodiversity in tropical forests vary between continents

2017

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Land-use change is one of the greatest threats to biodiversity, especially in the tropics where secondary and plantation forests are expanding while primary forest is declining. Understanding how well these disturbed habitats maintain biodiversity is therefore important-specifically how the maturity of secondary forest and the management intensity of plantation forest affect levels of biodiversity. Previous studies have shown that the biotas of different continents respond differently to land use. Any continental differences in the response could be due to differences in land-use intensity and maturity of secondary vegetation or to differences among species in their sensitivity to disturbances. We tested these hypotheses using an extensive dataset collated from published biodiversity comparisons within four tropical regions-Asia, Africa, Central America and South America-and a wide range of animal and plant taxa. We analysed responses to land use of several aspects of biodiversity-species richness, species composition and endemicity-allowing a more detailed comparison than in previous syntheses. Within each continent, assemblages from secondary vegetation of all successional stages retained species richness comparable to those in primary vegetation, but community composition was distinct, especially in younger secondary vegetation. Plantation forests, particularly the most intensively managed, supported a smaller-and very distinct-set of species from sites in primary vegetation. Responses to land use did vary significantly among continents, with the biggest difference in richness between plantation and primary forests in Asia. Responses of individual taxonomic groups did not differ strongly among continents, giving little indication that species were inherently more sensitive in Asia than elsewhere. We show that oil palm plantations support particularly low species richness, indicating that continental differences in the response of biodiversity to land use are perhaps more likely explained by Asia's high prevalence of oil palm plantations.

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Section: Introductionmentioning

confidence: 99%

Land-use effects on local biodiversity in tropical forests vary between continents

2017

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“…Studies evaluating beta diversity for the Cerrado region are few and punctual (Felfili et al, 2004;Ferreira, 2006;Haidar et al, 2013). In tropical regions, similar studies focus on rainforests (Condit et al, 2002;Tuomisto et al, 2003;Davidar et al, 2007;Arroyo-Rodríguez et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Diversity and indicator species in the cerrado biome, Brazil

Ferreira¹,

Machado²,

Silva-Neto³

et al. 2017

Aust J Crop Sci

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The Cerrado biome has high species richness, endemism and spatial heterogeneity. Knowing the main characteristics and peculiarities of the flora is essential to adequately protect the species richness of the Cerrado. Therefore, the objective of this study was to analyze the species richness, alpha diversity and beta diversity of four vegetation types in the Paracatu River Basin (15°30'/19°30'S and 45°10'/47°30'W), Paracatu-MG. The four vegetation types cerrado (stricto sensu, "cerradão" or Savannah woodland, deciduous seasonal forest and riparian forest) were sampled following the Manual for Monitoring Permanent Plots of the Cerrado and Pantanal Biomes. Alpha diversity was assessed using the Simpson (Ds´) and Shannon & Wiener (H') indexes, and beta diversity using the Sørensen and Jaccard similarity indexes. The "cerradão" vegetation type had the highest number of species (106) and highest alpha diversity (3.83nats.ind -1 ). The cerrado stricto sensu had the lowest species richness (54 species) and alpha diversity value (2.65 nats. ind -1 ). Beta diversity was high (low Jaccard and Sørensen similarity) except between cerrado stricto sensu and "cerradão". The initial hypothesis of this study was rejected, because although the phytophysiognomies are located on the same land system, the beta diversity is high, except for the cerrado stricto sensu and "cerradão", which had similar diversity.

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“…This can directly affect the spatial turnover of herbivore species by dispersal constraints but can also affect it indirectly by limiting their resources and predators. Habitat loss, for example, can maximize either stochastic influences on plant community assembly (i.e., different plant communities on different islands due to random dispersal) or deterministic ones by favoring the same subsets of species with traits for long-distance colonization (Arroyo-Rodríguez et al 2013;Harvey and MacDougall 2014). Habitat loss can also modify predation pressure by concentrating predators in smaller remnant areas, creating predation-free patches via dispersal limitation (Kruess and Tscharntke 1994;Hein and Gillooly 2011), or reducing predator diversity on smaller patches because of food limitation (Holt 1997;Gravel et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Spatially Heterogeneous Perturbations Homogenize the Regulation of Insect Herbivores

Harvey

MacDougall

2015

The American Naturalist

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Anthropogenic influences on resources and consumers can affect food web regulation, with impacts on trophic structure and ecosystem processes. Identifying how these impacts unfold is challenging because alterations to one or both resources and consumers can similarly transform community structure, especially for intermediate consumers. To date, empirical testing of perturbations on trophic regulation has been limited by the difficulty in separating the direct effect of perturbations on species composition and diversity versus those unfolding indirectly via altered feeding pathways. Moreover, disentangling the independent and interactive impacts of co-varying stressors that characterize human-altered systems has been an ongoing analytical challenge. We used a large-scale meta-community experiment in grasslands to test how resource inputs, stand perturbation, and spatial factors affect regulation of insect herbivores in tri-trophic grassland food webs. Using path-model comparisons, we observed significant simplification of food web regulation on insect herbivores, shifting from mixed predator-resource regulation in unaltered mainland areas, to strictly resource-based regulation with landscape perturbation and fragmentation. Most changes were attributed to homogenization of plant community caused by landscape fragmentation and the deterministic influence of eutrophication that reduced among-patch beta-diversity. This led to a simplified food web dominated by fewer, but more abundant herbivore taxa. Our work implies that anthropogenic perturbation relating to resources and spatial isolation can transform the regulation of food web diversity, structure and function. abstract: Anthropogenic influences on resources and consumers can affect food web regulation, with impacts on trophic structure and ecosystem processes. Identifying how these impacts unfold is challenging because alterations to one or both resources and consumers can similarly transform community structure, especially for intermediate consumers. To date, empirical testing of perturbations on trophic regulation has been limited by the difficulty in separating the direct effect of perturbations on species composition and diversity from those unfolding indirectly via altered feeding pathways. Moreover, disentangling the independent and interactive impacts of covarying stressors that characterize human-altered systems has been an ongoing analytical challenge. We used a large-scale metacommunity experiment in grasslands to test how resource inputs, stand perturbation, and spatial factors affect regulation of insect herbivores in tritrophic grassland food webs. Using path-model comparisons, we observed significant simplification of food web regulation on insect herbivores, shifting from mixed predator-resource regulation in unaltered mainland areas to strictly resource-based regulation with landscape perturbation and fragmentation. Most changes were attributed to homogenization of plant community caused by landscape fragmentation and the deterministic...

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Plant β‐diversity in fragmented rain forests: testing floristic homogenization and differentiation hypotheses

Cited by 208 publications

References 48 publications

Land-use effects on local biodiversity in tropical forests vary between continents

Land-use effects on local biodiversity in tropical forests vary between continents

Diversity and indicator species in the cerrado biome, Brazil

Spatially Heterogeneous Perturbations Homogenize the Regulation of Insect Herbivores

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