GRAZING SYSTEMS, ECOSYSTEM RESPONSES, AND GLOBAL CHANGE
Carnegie Institution for Science · Stanford University
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Abstract
▪ Abstract Managed grazing covers more than 25% of the global land surface and has a larger geographic extent than any other form of land use. Grazing systems persist under marginal bioclimatic and edaphic conditions of different biomes, leading to the emergence of three regional syndromes inherent to global grazing: desertification, woody encroachment, and deforestation. These syndromes have widespread but differential effects on the structure, biogeochemistry, hydrology, and biosphere-atmosphere exchange of grazed ecosystems. In combination, these three syndromes represent a major component of global environmental change.
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Authors
5Topics & keywords
Topics
Keywords
- Grazing
- Edaphic
- Biome
- Desertification
- Biosphere
- Deforestation (computer science)
- Biogeochemistry
- Global change
UN Sustainable Development Goals
- Life in Land
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