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Integrating herder observations, meteorological data and remote sensing to understand climate change patterns and impacts across an eco-climatic gradient in Mongolia

Date

2015-06

Authors

Fernandez-Gimenez, M. E., author
Angerer, J. P., author
Allegretti, A. M., author
Fassnacht, S. R., author
Byamba, A., author
Chantsallkham, J., author
Reid, R., author
Venable, N. B. H., author
Nutag Action and Research Institute, publisher

Journal Title

Journal ISSN

Volume Title

Abstract

Mongolia has one of the strongest climate warming signals on Earth, and over 40% of the human population depends directly or indirectly on pastoral livestock production for their livelihoods. Thus, climate-driven changes in rangeland production will likely have a major effect on pastoral livelihoods. We examined patterns of climate change and rangeland production over 20 years in three ecological zones based on meteorological records, remote sensing and herder observations. We found the strongest trends in both instrument records and herder observations in the steppe zone, where summers are getting hotter and drier, winters colder, and rangeland production is declining. Instrument records and herder observations were most consistently aligned for total annual rainfall, and consensus among herders was greatest for changes in rainfall and production and lowest for temperature changes. We found more differences in herder observations between neighboring soums within the same ecozone than expected, suggesting the need for more fine-scale instrument observations to detect fine-scale patterns of change that herders observe.

Description

Includes bibliographical references.
Presented at the Building resilience of Mongolian rangelands: a trans-disciplinary research conference held on June 9-10, 2015 in Ulaanbaatar, Mongolia.

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Subject

local knowledge
traditional knowledge
climate change
monitoring

Citation

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