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TGI-Led Research Finds Shifting Climate Regions Leading to Hotter, Drier Conditions Across Kenya

by Maggie Rotermund
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Findings have significant implications for agricultural land use and ecosystem management and highlight the urgent need for climate adaptation strategies in Kenya

ST. LOUIS - Research published in Regional Environmental Change has shown that as climate zones shift toward hotter and drier conditions, ecological diversity will decline, posing a major threat to terrestrial ecosystems with far-reaching social and ecological impacts.

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The study, 鈥淪hifting climate zones and expanding tropical and arid climate regions across Kenya (1980-2020),鈥 on April 5.  

The research team analyzed Kenya's geographic distribution and arrangement of climate zones between 1980-2020.

Over that time, tropical climate regions expanded from 91 to 93% with over 13,000 square kilometers shifting from alpine and temperate regions to tropical ones, and arid climate regions expanded from 72 to 81%, a roughly 50,000 km2 shift from humid and semi-humid-to-semi-arid to arid regions.

鈥淲ith a better understanding of how climate shifts occurred in an environment like Kenya, we can estimate how food security will be impacted in other regions with similar geographic patterns,鈥 said Enbal Shacham, Ph.D., professor of behavioral science and health education at 麻豆传媒鈥檚 College for Public Health and Social Justice and acting director of strategic initiatives for the Taylor Geospatial Institute.

The first author is Ted J. Lawrence, a former post-doctoral fellow at the . Shacham is the paper鈥檚 senior author.

The research team looked at how temperature and precipitation trends changed over time and how the geographic distribution and arrangement of climate zones in Kenya shifted due to those trends.

The team focused on Kenya because rain-fed agriculture is central to the country鈥檚 economy and it is a key food-producing country for the East African region.

Data showed that in addition to the 1-degree Celsius increase in temperature, there was a decrease in precipitation during the country鈥檚 primary rainy season (Spring) and an increase in precipitation in the secondary rainy season (Fall).

An area of 76,346 square kilometers shifted from cooler to hotter zones, while 1,298 square kilometers shifted from hotter to cooler zones. Human-induced climate change significantly alters the spatial-temporal patterns of climate zones, driving agricultural land use and ecosystem change. Changes to the climate zone alter the biological and physical properties of the ecosystem, leading to a change in what an ecosystem can support.

The researchers reviewed data from a variety of sources, including:

The team assessed the average annual and seasonal temperature and precipitation trends to understand Kenyan climate change between 1975-2020 before creating climate reference maps. The maps represented temperature and precipitation zones in 1980, 2000 and 2020.

Human-induced climate change in Kenya resembles global trends, the research found, with certain regions being more sensitive to the forces of climate change.

As climate zones shift toward hotter and drier conditions, ecological diversity will decline, posing a major threat to terrestrial ecosystems with far-reaching social and ecological impacts.

Information on climate change and shifting climate zones in this paper can be used to investigate a variety of ecological questions and aid in the effort to reach the United Nations鈥 Sustainable Development Goals.

Additional authors include Justin M. Vilbig, a geospatial data scientist in SLU鈥檚 Department of Earth and Atmospheric Sciences and TGI; Geoffrey Kangogo, a Ph.D. student in SLU鈥檚 College for Public Health and Social Justice; Eric M. Fevre, University of Liverpool, UK, and International Livestock Research Institute, Kenya; Sharon L. Deem, Institute for Conservation Medicine at the Saint Louis Zoo; Ilona Gluecks, International Livestock Research Institute, Kenya; and Vasit Sagan, Ph.D., associate professor of Earth and Atmospheric Sciences at 麻豆传媒 and acting director of TGI.

This work was supported in part by the Taylor Geospatial Institute and a seed research grant from the at Washington University in St. Louis. Furthermore, this research was also supported in part by the , the Department for International Development, the Economic & Social Research Council, the Medical Research Council, the Natural Environment Research Council, and the Defence Science & Technology Laboratory, under the Zoonoses and Emerging Livestock Systems (ZELS) programme, grant reference BB/L019019/1.

This study also received support from the CGIAR One Health initiative 鈥淧rotecting Human Health Through a One Health Approach,鈥 which was supported by contributors to the . The authors thank the University of Liverpool鈥檚 Open Access team for support of the CC-BY open access license for this article.

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The TGI consortium includes 麻豆传媒, the Donald Danforth Plant Science Center, Harris-Stowe State University, University of Illinois Urbana-Champaign, Missouri University of Science & Technology, University of Missouri-Columbia, University of Missouri-St. Louis, and Washington University in St. Louis. Collectively, these institutions encompass more than 5,000 faculty and 100,000 students. 

TGI aims to advance geospatial science through multi-institutional, interdisciplinary collaborations to create innovative, real-world solutions to grand societal challenges. It supports a collaborative research and training environment and while shaping the future of geospatial science in the U.S.

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