Abstract
AbstractInformed management of livestock on rangelands underpins both the livelihoods of communities that depend on livestock for sustenance, and the conservation of wildlife that often depend on livestock-dominated landscapes for habitat. Understanding spatial patterns of rangeland productivity is therefore crucial to designing global development strategies that balance social and environmental benefits. Here we introduce a new rangeland production model that dynamically links the Century ecosystem model with a basic ruminant diet selection and physiology model. With lightweight input data requirements that can be met with global sources, the model estimates the viability of broad livestock management decisions, and suggests possible implications of these management decisions for grazing wildlife. Using minimal field data, the new rangeland production model enables the reliable estimation of cattle stocking density; this is an important predictor of the viability of livestock production and forage available for grazing wildlife.
Funder
National Science Foundation
Publisher
Springer Science and Business Media LLC
Reference52 articles.
1. Herrero, M. et al. Biomass use, production, feed efficiencies, and greenhouse gas emissions from global livestock systems. PNAS 110, 20888–20893 (2013).
2. Western, D., Russell, S. & Cuthill, I. The status of wildlife in protected areas compared to non-protected areas of Kenya. PloS One 4, e6140 (2009).
3. Millenium Ecosystem Assessment. Ecosystems and Human Well-Being: Current State and Trends. Findings of the Condition and Trends Working Group. Millennium Ecosystem Assessment Series. (Island press, 2005).
4. Field, C.B. Climate Change 2014–Impacts, Adaptation and Vulnerability: Regional Aspects. (Cambridge University Press, 2014).
5. Engler, J.-O. & von Wehrden, H. Global assessment of the non-equilibrium theory of rangelands: Revisited and refined. Land Use Policy 70, 479–484 (2018).
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