Biological feedbacks in global desertification

Abstract

Studies of ecosystem processes on the Jornada Experimental Range in southern New Mexico suggest that longterm grazing of semiarid grasslands leads to an increase in the spatial and temporal heterogeneity of water, nitrogen, and other soil resources. Heterogeneity of soil resources promotes invasion by desert shrubs, which leads to a further localization of soil resources under shrub canopies. In the barren area between shrubs, soil fertility is lost by erosion and gaseous emissions. This positive feedback leads to the desertification of formerly productive land in southern New Mexico and in other regions, such as the Sahel. Future desertification is likely to be exacerbated by global climate warming and to cause significant changes in global biogeochemical cycles.

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Citation

Published Version (Please cite this version)

10.1126/science.247.4946.1043

Publication Info

Shlesinger, undefined WB, JF REYNOLDS, GL Cunningham, LF Huennecke, WM Jarrell, RA Virginia, WG Whitford, et al. (1990). Biological feedbacks in global desertification. Science, 247(4946). pp. 1043–1048. 10.1126/science.247.4946.1043 Retrieved from https://hdl.handle.net/10161/24256.

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Scholars@Duke

Reynolds

James F. Reynolds

Professor Emeritus

Integrated assessment of complex human-environmental systems; Land degradation and desertification in global drylands; Conceptual frameworks and models to advance the science of dryland development


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