Elements of metacommunity structure in Amazonian Zygoptera among streams under different spatial scales and environmental conditions

Brasil, Leandro Schlemmer; Vieira, Thiago Bernardi; Oliveira, José Max Barbosa de; Dias-Silva, Karina; Juen, Leandro

doi:10.1002/ece3.2849

Cited by 45 publications

(40 citation statements)

References 59 publications

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“…Taken collectively, the above‐mentioned findings suggest that past historical events shaped taxon distribution in the way they shaped the distribution and physiographic features of the ecoregional types across the Orinoco basin (e.g., Goosen, ; van der Hammen, ; Hoorn et al, ; Hughes & Eastwood, ). Several studies have indicated that a concordance between species pools and ecoregion (or biogeographical region) distributions provides indirect evidence of the effects of historical events on present‐day biodiversity patterns (Brasil et al, ; Hazzi, Moreno, Ortiz‐Movliav, & Palacio, ; Presley & Willig, ).…”

Section: Discussionmentioning

confidence: 99%

“…As these ecoregional features do not always match the extension of the stream networks, this scenario provides the opportunity to test the influence of the potential occurrence of different pools of species metacommunity structure. The few comparable studies carried out in the Tropics have indicated the occurrence of several pools of species across the region (Benito et al, ; Brasil, Vieira, Oliveira‐Junior, Dias‐Silva, & Juen, ; Datry et al, ). However, to our knowledge only one has addressed how the occurrence of different pools of species may shape the structure of phytoplankton metacommunities (Benito et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Historical processes constrain metacommunity structure by shaping different pools of invertebrate taxa within the Orinoco basin

González‐Trujillo

Donato‐Rondón

Muñoz

et al. 2019

Diversity and Distributions

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Aim:To identify and characterize the distribution of invertebrate taxa in the Orinoco basin and how their distribution affects the metacommunity structure along the river network.Location: Meta and Guaviare sub-basins, Orinoco basin, Colombia, South America. Methods:We characterized the invertebrate communities and environmental characteristics of 25 streams from six ecoregions in the Orinoco basin. The ecoregions present different historical evolution, altitude, slope, climate and vegetation features.We used multiplicative diversity partitioning to compare the contributions of riffle (α and β1), stream (β2) and ecoregional (β3) scales to the overall gamma diversity of the basin. We also applied the Elements of Metacommunity Structure framework to delineate metacommunity types and a distance-based redundancy analysis to assess the relative relevance of environmental, spatial and ecoregional drivers in species compositions of invertebrate communities.Results: Streams showed significant differences in community composition among the ecoregions. Several discrete pools of invertebrate taxa occurred in the basin that largely matched the distribution of the ecoregions. Consequently, the metacommunity in the basin resembled a Clementsian idealized structure. The species composition of invertebrate communities was mostly explained by ecoregion type and its interaction with the local environment, particularly its physiographic features. Main conclusions:Historical and evolutionary processes have resulted in species pools differing between the ecoregions of the Orinoco basin. At the basin scale, the metacommunity structure seems to be constrained by ecoregional features rather than by spatial structure or the local environment. Hence, using the basin as a unit for biodiversity conservation and river management would not adequately reflect the diversity and distribution patterns in highly heterogeneous basins such as the Orinoco basin. K E Y W O R D Sassembly process, beta diversity, Colombia, diversity partitioning, ecoregion, historical events

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Historical processes constrain metacommunity structure by shaping different pools of invertebrate taxa within the Orinoco basin

González‐Trujillo

Donato‐Rondón

Muñoz

et al. 2019

Diversity and Distributions

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“…Habitat integrity summarises coverage of riparian forest, the land use adjacent to the riparian zone and some characteristics of the stream channel, such as bank structure of rivers (Hannaford et al ., ; Roy et al ., ; Nessimian et al ., ), and can be interpreted as forest cover (Nessimian et al ., ). Indeed, this variable is an important predictor of Zygoptera species richness and composition in Amazonia (Monteiro Júnior et al ., ; Oliveira‐Junior et al ., ; Brasil et al ., ) and other Brazilian biomes (De Marco et al ., ; Mendes et al ., ). With increasing forest cover, the dominance of damselfly species increases, while the dominance of dragonflies decreases (De Marco et al ., ).…”

Section: Discussionmentioning

confidence: 99%

“…Although commonly considered a homogeneous environment, Amazonia is in fact divided in distinct macroclimatic zones within the tropical climate, from superhumid in the western Amazon due to the strong influence of the Andes, to progressively subhumid in central Amazon, and even presenting dry winters at the southern and eastern Amazon basin (Peel et al ., ). These differences in macroclimatic patterns increase the regional species richness of Odonata by increasing the spatial turnover of species (Brasil et al ., ) that occupy distinct physiological niches (Collins & McIntyre, ; Amundrud et al ., ). Indeed, they explain the strong climatic effects on the species richness of the biogeographical modules, which are thought to capture the determinants of geographic species ranges.…”

Section: Discussionmentioning

confidence: 99%

Drivers of regional and local diversity of Amazonian stream Odonata

Alves‐Martins

Calatayud

Medina

et al. 2018

Insect Conserv Diversity

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Large Amazonian rivers may act as dispersal barriers for animals with low dispersal abilities, limiting their distribution to certain interfluves. Consequently, the distribution of these taxa would be less affected by macroclimatic gradients. Conversely, high‐dispersal taxa would be less constrained by large rivers and may track suitable climates. We evaluate whether Zygoptera and Anisoptera, two Odonata suborders with different dispersal abilities, show differences in distribution patterns across Amazonian interfluves. We further assess the relative importance of macroclimatic and habitat factors in their community assembly. We used network modularity analyses to identify biogeographic species pools and spatial buffers to define metacommunity species pools. Then, we used structural equation models to estimate the relative importance of multi‐scale factors on species richness patterns. Zygoptera communities are more similar in species composition within than between interfluves, suggesting that large Amazonian rivers indeed limit the distribution of Zygoptera species. Conversely, the distribution of Anisoptera extends across Amazonian interfluves. Seasonality has a strong positive effect on Zygoptera and Anisoptera richness across scales. In addition, habitat integrity is negatively correlated with the regional species richness and abundance of Anisoptera and positively correlated with Zygoptera local richness. The contrasting effects of habitat integrity on Anisoptera and Zygoptera suggest that the former is favored in open habitats, whereas the latter is so in forests. Despite these differences, both suborders appear to follow similar community assembly mechanisms in Amazonia, with a strong climatic control across scales and an effect of habitat filters on local communities.

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“…The taxonomic and phylogenetic diversity of some animal groups, such as primates and birds, is known to be strongly related to the formation and structure of these interfluves (Wallace, 1854;Ayres & Clutton-Brock, 1992;Ribas et al, 2012;Pomara et al, 2014). In the specific case of the Odonata, at large spatial scales, the distribution of species of the Zygoptera is closely related to areas of endemism (Brasil et al, 2017). This is because the Zygoptera have a reduced capacity for dispersal, making the major Amazonian rivers important geographical barriers to their dispersion, and thus over time, forming areas of endemism corresponding to the interfluves of these major rivers (Juen & De Marco, 2012).…”

Section: Introductionmentioning

confidence: 99%

Spatial, biogeographic and environmental predictors of diversity in Amazonian Zygoptera

Brasil

Oliveira

Calvão

et al. 2017

Insect Conserv Diversity

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Our objectives were to assess how turnover and nestedness contribute to beta‐diversity patterns of the Zygoptera in Amazonian streams, and to relate these components of beta diversity to environmental, spatial and biogeographic predictors. Our first hypothesis is that the turnover is the most important component of beta‐diversity patterns due to the historical isolation of all or part of the areas located in the interfluves of the major Amazonian rivers. Our second hypothesis is that the interaction between environmental conditions and the area of endemism (biogeography) would be the most important predictor of beta‐diversity patterns. To test these hypotheses, we compiled data on the Zygoptera communities from 172 Amazonian streams. We used three sets of predictor variables: (i) environmental variables, (ii) area of endemism (biogeographic) and (iii) spatial filters. The turnover explained 99.36% of the beta diversity, corroborating our first hypothesis. Together, environmental and biogeographic variables were the best predictors of beta‐diversity patterns. For turnover, however, the biogeographic variables were the best predictors, contrary to our second hypothesis. We found high gamma diversity, but low alpha diversity in the Zygoptera communities. This paradox is explained by the high turnover among sites within the study landscape. This pattern of diversity is related to both historical biogeographic factors and the spatial structuring of environmental conditions in the Amazon region. In the light of our results (high turnover and beta diversity), and their correspondence with areas of endemism, adequate conservation of Amazonian Zygoptera diversity will depend on the establishment of so‐called mega‐reserves throughout the major Amazonian interfluves and, whenever possible, in the areas with adequate environmental conditions for the greatest possible number of species, otherwise, most species may be at a constant risk of extinction.

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Elements of metacommunity structure in Amazonian Zygoptera among streams under different spatial scales and environmental conditions

Cited by 45 publications

References 59 publications

Historical processes constrain metacommunity structure by shaping different pools of invertebrate taxa within the Orinoco basin

Historical processes constrain metacommunity structure by shaping different pools of invertebrate taxa within the Orinoco basin

Drivers of regional and local diversity of Amazonian stream Odonata

Spatial, biogeographic and environmental predictors of diversity in Amazonian Zygoptera

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