Aridity and Overgrazing Have Convergent Effects on Ecosystem Structure and Functioning in Patagonian Rangelands

Over 65% of drylands are used for grazing of managed livestock. Understanding what drives grazing effects on the structure and functioning of rangelands is critical for achieving their sustainability. We studied a network of 239 sites across Patagonian rangelands (Argentina), which constitute one of...

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Published in:Land degradation & development 2018-02, Vol.29 (2), p.210-218
Main Authors: Gaitán, Juan J., Bran, Donaldo E., Oliva, Gabriel E., Aguiar, Martín R., Buono, Gustavo G., Ferrante, Daniela, Nakamatsu, Viviana, Ciari, Georgina, Salomone, Jorge M., Massara, Virginia, Martínez, Guillermo García, Maestre, Fernando T.
Format: Article
Language:English
Subjects:
Aridity
Convergence
desertification
drylands
Ecosystem assessment
Ecosystem structure
Ecosystems
Function analysis
Grasses
grass‐shrub balance
Grazing
Infiltration
Landscape
landscape function analysis
Livestock
Nutrient cycles
Organic carbon
Organic soils
Overgrazing
Pressure
Pressure effects
Range management
Rangelands
Sandy soils
Shrubs
Soil management
Soil stability
Soils
Species richness
Stability analysis
Sustainability
Vegetation
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Summary:Over 65% of drylands are used for grazing of managed livestock. Understanding what drives grazing effects on the structure and functioning of rangelands is critical for achieving their sustainability. We studied a network of 239 sites across Patagonian rangelands (Argentina), which constitute one of the world's largest rangeland area. We aimed to (i) evaluate how aridity and grazing affect ecosystem structure and functioning and (ii) test the usefulness of the landscape function analysis (LFA) indices (stability, infiltration and nutrient cycling) as surrogates of soil functioning. Aridity decreased species richness and the cover of palatable grasses but increased the cover of palatable shrubs. Grazing pressure negatively impacted the cover of palatable grasses and species richness but did not affect the cover of shrubs. Aridity had direct and indirect negative relationships with the LFA indices. Grazing pressure had no direct effects on the LFA indices but had an indirect negative effect on them by affecting vegetation structure. The LFA indices were positively and negatively correlated with soil organic carbon and sand contents, respectively, suggesting that these indices are useful proxies of soil functional processes in Patagonian rangelands. Our findings indicate that aridity and overgrazing have convergent effects on the structure and functioning of ecosystems, as both promoted reductions in species richness, the cover of palatable grasses and soil functioning. Rangeland management activities should aim to enhance species richness and the cover of palatable grasses, as these actions could contribute to offset adverse effects of ongoing increases in aridity on drylands. Copyright © 2017 John Wiley & Sons, Ltd.
ISSN:1085-3278
1099-145X
DOI:10.1002/ldr.2694