Climate as a determinant of dung beetle response to native forest replacement by cattle pastures in South America

Author:

Guerra Alonso Celeste B.1ORCID,Filloy Julieta2,Zurita Gustavo A.13

Affiliation:

1. Instituto de Biología Subtropical Universidad Nacional de Misiones – CONICET Puerto Iguazú Misiones Argentina

2. Departamento de Ecología, Genética y Evolución, Facultad de Ciencias Exactas y Naturales‐ IEGEBA Universidad de Buenos Aires – CONICET Buenos Aires Argentina

3. Facultad de Ciencias Forestales Universidad Nacional de Misiones Misiones Argentina

Abstract

AbstractAnthropogenic disturbance in natural ecosystems reduces the number of species in biological communities and homogenizes their composition across different regions. Climate is one of the main abiotic determinants of species distributions and different factors were proposed as the main climatic drivers. Here we explored the role of regional climate on the local response of dung beetle assemblages to the replacement of native forest by cattle pastures in South America by simultaneously contrasting three climatic hypotheses: energy, seasonality and heterogeneity. We compiled a database by searching published studies comparing dung beetle richness and composition between both native forests and cattle pastures. We calculated the proportional difference in species richness and composition between habitat types. As explanatory variables, we used seven abiotic variables grouped into the three climatic hypotheses. Energy/Productivity: mean annual temperature (°C/year) and total annual precipitation (mm/year). Seasonality: annual thermal amplitude (°C/year), the average coefficient of variation of monthly precipitation and the coefficient of average monthly variation in temperature. Heterogeneity: coefficient of variation of mean annual temperature, coefficient of variation of mean annual precipitation. Using regression analyses and a model selection procedure, we found differences in species richness between native forests and cattle pastures were explained by the coefficient of variation of mean annual precipitation, whereas changes in species composition were explained by total annual precipitation and the coefficient of variation of mean annual precipitation. The response of dung beetle assemblages to livestock grazing in South American forests was associated with precipitation variation. The heterogeneity hypothesis better explained changes in species richness following forest replacement by cattle pastures, while both energy/productivity and heterogeneity hypotheses explained the changes in species composition.

Funder

Consejo Nacional de Investigaciones Científicas y Técnicas

Publisher

Wiley

Subject

Ecology,Ecology, Evolution, Behavior and Systematics

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