Additive partitioning of the diversity of the dormant zooplankton communities in intermittent ponds along a forest–grassland transition

Additive partitioning of the diversity of the dormant zooplankton communities in intermittent ponds along a forest–grassland transition

We assessed the diversity of zooplanktonic resting stages through different spatial scales in intermittent ponds along a forest–grassland transition in southern Brazil. We tested how the diversity (richness) of resting stages varied through the following spatial scales: cores ( α ), among sediment c...

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Bibliographic Details
Published in:Hydrobiologia Vol. 847; no. 5; pp. 1327 - 1342
Main Authors: Freiry, Raquel Fontoura, Weber, Vinícius, Bonecker, Claudia Costa, Lansac-Tôha, Fábio Amodêo, Pires, Mateus Marques, Stenert, Cristina, Maltchik, Leonardo
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-03-2020
Springer Nature B.V
Subjects:
Additives
Biomedical and Life Sciences
Cores
Dormancy
Ecology
Ecosystems
Forests
Freshwater & Marine Ecology
Grasslands
Heterogeneity
Incubation period
Life Sciences
Ponds
Primary Research Paper
Resting stages
Sediment
Sediment samplers
Sediment samples
Vegetation type
Zoology
Zooplankton
Biomes
Resting stages
Richness
Spatial scale
Microcrustaceans
Wetlands
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Summary:We assessed the diversity of zooplanktonic resting stages through different spatial scales in intermittent ponds along a forest–grassland transition in southern Brazil. We tested how the diversity (richness) of resting stages varied through the following spatial scales: cores ( α ), among sediment cores within a pond ( β 1 ), among ponds ( β 2 ), and between biomes ( β 3 ). We also assessed the diversity for the subsets of ponds within each biome. Sediment samples from 12 ponds were hydrated in the laboratory, and hatchlings were collected after 30-day incubation experiments. The estimated richness of the components β 2 and β 3 was higher than expected and they had the greatest contributions to total richness (47% and 24%, respectively). Within each biome, component β 2 accounted for the greatest fraction of the total diversity, although their relative contributions changed between biomes (forest: 66%; grassland: 58%). The higher contribution of the among-pond spatial scale ( β 2 ) can be accounted to the environmental heterogeneity among sites. The higher contribution of the broadest spatial scales to the total diversity in the forest rather than the grassland biome suggests that vegetation type influences the spatial patterns of diversity of the zooplankton.
ISSN:0018-8158
1573-5117
DOI:10.1007/s10750-020-04187-0