Ecosystem structure, function, and composition in rangelands are negatively affected by livestock grazing

Reports of positive or neutral effects of grazing on plant species richness have prompted calls for livestock grazing to be used as a tool for managing land for conservation. Grazing effects, however, are likely to vary among different response variables, types, and intensity of grazing, and across...

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Published in	Ecological applications Vol. 26; no. 4; p. 1273
Main Authors	Eldridge, David J, Poore, Alistair G B, Ruiz-Colmenero, Marta, Letnic, Mike, Soliveres, Santiago
Format	Journal Article
Language	English
Published	United States 01.06.2016
Subjects	Animals Australia Biodiversity Cattle - physiology Conservation of Natural Resources Ecosystem Environment Environmental Monitoring Herbivory Sheep - physiology Australia
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Abstract	Reports of positive or neutral effects of grazing on plant species richness have prompted calls for livestock grazing to be used as a tool for managing land for conservation. Grazing effects, however, are likely to vary among different response variables, types, and intensity of grazing, and across abiotic conditions. We aimed to examine how grazing affects ecosystem structure, function, and composition. We compiled a database of 7615 records reporting an effect of grazing by sheep and cattle on 278 biotic and abiotic response variables for published studies across Australia. Using these data, we derived three ecosystem measures based on structure, function, and composition, which were compared against six contrasts of grazing pressure, ranging from low to heavy, two different herbivores (sheep, cattle), and across three different climatic zones. Grazing reduced structure (by 35%), function (24%), and composition (10%). Structure and function (but not composition) declined more when grazed by sheep and cattle together than sheep alone. Grazing reduced plant biomass (40%), animal richness (15%), and plant and animal abundance, and plant and litter cover (25%), but had no effect on plant richness nor soil function. The negative effects of grazing on plant biomass, plant cover, and soil function were more pronounced in drier environments. Grazing effects on plant and animal richness and composition were constant, or even declined, with increasing aridity. Our study represents a comprehensive continental assessment of the implications of grazing for managing Australian rangelands. Grazing effects were largely negative, even at very low levels of grazing. Overall, our results suggest that livestock grazing in Australia is unlikely to produce positive outcomes for ecosystem structure, function, and composition or even as a blanket conservation tool unless reduction in specific response variables is an explicit management objective.
AbstractList	Reports of positive or neutral effects of grazing on plant species richness have prompted calls for livestock grazing to be used as a tool for managing land for conservation. Grazing effects, however, are likely to vary among different response variables, types, and intensity of grazing, and across abiotic conditions. We aimed to examine how grazing affects ecosystem structure, function, and composition. We compiled a database of 7615 records reporting an effect of grazing by sheep and cattle on 278 biotic and abiotic response variables for published studies across Australia. Using these data, we derived three ecosystem measures based on structure, function, and composition, which were compared against six contrasts of grazing pressure, ranging from low to heavy, two different herbivores (sheep, cattle), and across three different climatic zones. Grazing reduced structure (by 35%), function (24%), and composition (10%). Structure and function (but not composition) declined more when grazed by sheep and cattle together than sheep alone. Grazing reduced plant biomass (40%), animal richness (15%), and plant and animal abundance, and plant and litter cover (25%), but had no effect on plant richness nor soil function. The negative effects of grazing on plant biomass, plant cover, and soil function were more pronounced in drier environments. Grazing effects on plant and animal richness and composition were constant, or even declined, with increasing aridity. Our study represents a comprehensive continental assessment of the implications of grazing for managing Australian rangelands. Grazing effects were largely negative, even at very low levels of grazing. Overall, our results suggest that livestock grazing in Australia is unlikely to produce positive outcomes for ecosystem structure, function, and composition or even as a blanket conservation tool unless reduction in specific response variables is an explicit management objective.
Author	Letnic, Mike Ruiz-Colmenero, Marta Poore, Alistair G B Eldridge, David J Soliveres, Santiago
Author_xml	– sequence: 1 givenname: David J surname: Eldridge fullname: Eldridge, David J – sequence: 2 givenname: Alistair G B surname: Poore fullname: Poore, Alistair G B – sequence: 3 givenname: Marta surname: Ruiz-Colmenero fullname: Ruiz-Colmenero, Marta – sequence: 4 givenname: Mike surname: Letnic fullname: Letnic, Mike – sequence: 5 givenname: Santiago surname: Soliveres fullname: Soliveres, Santiago
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/27509764$$D View this record in MEDLINE/PubMed
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Snippet	Reports of positive or neutral effects of grazing on plant species richness have prompted calls for livestock grazing to be used as a tool for managing land...
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SubjectTerms	Animals Australia Biodiversity Cattle - physiology Conservation of Natural Resources Ecosystem Environment Environmental Monitoring Herbivory Sheep - physiology
Title	Ecosystem structure, function, and composition in rangelands are negatively affected by livestock grazing
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