Effectiveness of genera as a higher-taxon substitute for species in ant biodiversity analyses is not affected by sampling technique

Effectiveness of genera as a higher-taxon substitute for species in ant biodiversity analyses is not affected by sampling technique

Survey costs and a lack of taxonomists are often the main impediments to biodiversity inventories. The use of a higher-taxon approach that is efficient in representing species patterns within a short period of time is one way to overcome these constraints, especially if these responses are consisten...

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Bibliographic Details
Published in:Biodiversity and conservation Vol. 27; no. 13; pp. 3425 - 3445
Main Authors: Souza, Jorge L. P., Baccaro, Fabricio B., Pequeno, Pedro A. C. L., Franklin, Elizabeth, Magnusson, William E.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-11-2018
Springer
Springer Nature B.V
Subjects:
Biodiversity
Biological diversity
Biomedical and Life Sciences
Climate Change/Climate Change Impacts
Composition
Conservation Biology/Ecology
Cost analysis
Costs
Ecology
Extractors
Genera
Heterogeneity
Life Sciences
Methods
Original Paper
Polls & surveys
Predictions
Sampling
Sampling techniques
Species composition
Species richness
Surveying
Surveys
Taxa
Taxonomists
Traps
Beta diversity
Tropical forest
Ants
Amazon
Surrogate
Standardized sampling protocol
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Summary:Survey costs and a lack of taxonomists are often the main impediments to biodiversity inventories. The use of a higher-taxon approach that is efficient in representing species patterns within a short period of time is one way to overcome these constraints, especially if these responses are consistent at various spatial scales and sampling techniques. Here, we evaluated whether the use of pitfall trapping or Winkler extraction influenced the utility of genus as a surrogate to predict patterns of species richness and composition related to environment. The study sites were spread along 10 degrees of latitude, covering phytophysiognomies with different topographic characteristics. We recorded 450 ant species/morphospecies distributed in 70 genera. Pitfall-traps captured a larger proportion of species (77–98%) and genera (71–100%) per site. Genus was efficient in predicting variations in richness, and assemblage composition detected at the species level, using pitfall-traps or Winkler extractors. The higher-taxon approach saved approximately 40% of the surveys costs. The negative effect of the species-genus ratio was detected only on species composition, but it did not affect the quality of predictions using genera. The results are consistent with the hypothesis that genus can be used as a proxy for broader sets of species independent of sampling technique or environmental heterogeneity. The use of pitfall-traps or Winkler extractors for genus-level identification proved to be cost-efficient and time-efficient and should work well in other regions requiring conservation effort and monitoring programs.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-018-1607-x