Using the relationship between taxonomic and functional diversity to assess functional redundancy in streams of an altered tropical watershed

The relationship between taxonomic and functional diversity indices has been used to better describe and understand the structure of biological communities. Functional diversity is expected to have an asymptotic relationship with species richness because at some point, the addition of new species wi...

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Bibliographic Details
Published in:Environmental biology of fishes 2018-09, Vol.101 (9), p.1395-1405
Main Authors: da Silva Camilo, Geysa, de Freitas Terra, Bianca, Araújo, Francisco Gerson
Format: Article
Language:English
Subjects:
Animal Systematics/Taxonomy/Biogeography
Anthropogenic factors
Asymptotic properties
Biodiversity
Biomedical and Life Sciences
Diversity indices
Environment
Eukaryotes
Fish
Freshwater & Marine Ecology
Functional groups
Life Sciences
Nature Conservation
New species
Rainforests
Redundancy
Rivers
Species diversity
Species richness
Streams
Taxonomy
Tropical climate
Watersheds
Zoology
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Summary:The relationship between taxonomic and functional diversity indices has been used to better describe and understand the structure of biological communities. Functional diversity is expected to have an asymptotic relationship with species richness because at some point, the addition of new species will increase some of the already established functional groups (functional redundancy). However, the asymptotic relationship may not be reached in intermediately disturbed systems once many intolerant species that would have played a redundant role or even represented some functional groups have been lost. This study aimed to address such a relationship (taxonomic and functional indices) and to evaluate the functional redundancy in intermediately disturbed streams in the Atlantic Rainforest domain. We expected a positive linear relationship between taxonomic and functional diversity; however, we did not expect to find an asymptotic relationship between richness and functional diversity because of the loss of many intolerant species caused by anthropogenic uses. The taxonomic diversity indices were Species Richness (SR) and Simpson’s Diversity (SD), while the functional diversity indices were the Functional Richness (FRic) and Functional Dispersion (FDisp). The two taxonomic and two functional diversity indices showed a significant positive relationship that never reached an asymptote, suggesting low functional redundancy in the fish communities. Our results indicate that care is needed in the management of the studied streams because assemblies with low functional redundancy are more susceptible to loss of functions in the case of species loss.
ISSN:0378-1909
1573-5133
DOI:10.1007/s10641-018-0786-3