Your search keyword '"Déborah R. O. Silva"' showing total 2 results

1. The role of physical habitat and sampling effort on estimates of benthic macroinvertebrate taxonomic richness at basin and site scales

Author

Marcos Callisto, Raphael Ligeiro, Déborah R. O. Silva, and Robert M. Hughes

Subjects

0106 biological sciences, Insecta, Biome, Biodiversity, Management, Monitoring, Policy and Law, Biology, 010603 evolutionary biology, 01 natural sciences, Rivers, Water Quality, Environmental monitoring, Animals, Ecosystem, General Environmental Science, Ecology, 010604 marine biology & hydrobiology, Sampling (statistics), General Medicine, Pollution, Spatial heterogeneity, Habitat, Benthic zone, Species richness, Environmental Monitoring

Abstract

Taxonomic richness is one of the most important measures of biological diversity in ecological studies, including those with stream macroinvertebrates. However, it is impractical to measure the true richness of any site directly by sampling. Our objective was to evaluate the effect of sampling effort on estimates of macroinvertebrate family and Ephemeroptera, Plecoptera, and Trichoptera (EPT) genera richness at two scales: basin and stream site. In addition, we tried to determine which environmental factors at the site scale most influenced the amount of sampling effort needed. We sampled 39 sites in the Cerrado biome (neotropical savanna). In each site, we obtained 11 equidistant samples of the benthic assemblage and multiple physical habitat measurements. The observed basin-scale richness achieved a consistent estimation from Chao 1, Jack 1, and Jack 2 richness estimators. However, at the site scale, there was a constant increase in the observed number of taxa with increased number of samples. Models that best explained the slope of site-scale sampling curves (representing the necessity of greater sampling effort) included metrics that describe habitat heterogeneity, habitat structure, anthropogenic disturbance, and water quality, for both macroinvertebrate family and EPT genera richness. Our results demonstrate the importance of considering basin- and site-scale sampling effort in ecological surveys and that taxa accumulation curves and richness estimators are good tools for assessing sampling efficiency. The physical habitat explained a significant amount of the sampling effort needed. Therefore, future studies should explore the possible implications of physical habitat characteristics when developing sampling objectives, study designs, and calculating the needed sampling effort.

Published

2015

2. Visually determined stream mesohabitats influence benthic macroinvertebrate assessments in headwater streams

Author

Marcos Callisto, Robert M. Hughes, Raphael Ligeiro, and Déborah R. O. Silva

Subjects

Hydrology, Ecology, Beta diversity, Biodiversity, General Medicine, STREAMS, Management, Monitoring, Policy and Law, Explained variation, Pollution, Substrate (marine biology), Invertebrates, Rivers, Benthic zone, Environmental science, Animals, Relative species abundance, Ecosystem, General Environmental Science, Invertebrate, Environmental Monitoring

Abstract

Mesohabitat components such as substrate and surface flow types are intimately related to benthic macroinvertebrate assemblages in streams. Visual as- sessments of the distribution of these components pro- videameansofevaluatingphysicalhabitatheterogeneity and aid biodiversity surveys and monitoring. We deter- mined the degree to which stream site and visually assessed mesohabitat variables explain variability (i.e., beta-diversity) in the relative abundance and presence- absence of all macroinvertebrate families and of Ephemeroptera, Plecoptera, and Trichoptera (EPT) gen- era. We systematically sampled a wide variety of mesohabitat arrangements as they occured in stream sites. We also estimated how much of the explanation given by mesohabitat was associated with substrate or surface flow types. We performed variation partitioning to determine fractions of explained variance through use of partial redundancy analysis (pRDA). Mesohabitats and stream sites explained together from 23 to 32 % of the variation in the four analyses. Stream site explained 8-11 % of that variation, and mesohabitat variables explained 13-20 %. Surface flow types accounted for >60 % of the variation provided by the mesohabitat component. These patterns are in accordance with those obtained in previous studies that showed the predomi- nance of environmental variables over spatial location in explaining macroinvertebrate distribution. We conclude that visually assessed mesohabitat components are im- portant predictors of assemblage composition, explaining significant amounts of beta-diversity. Therefore, they are critical to consider in ecological and biodiversity assessments involving macroinvertebrates.

Published

2013