News Release

Global grazing lands increasingly vulnerable to a changing climate

Maps of worldwide precipitation trends show the impact on pasture -- and people

Peer-Reviewed Publication

University of Minnesota

Map Showing Between-Year Precipitation

image: Fig. 2: Overall, both within and between-year precipitation variability has been increasing for global grazing lands. This map shows the changes in between-year variability: Of the total land area considered pasture in this analysis, 20 percent did not experience significant changes (in gray), while 31 percent experienced significant decreases (cool colors) and 49 percent experienced significant increases in precipitation variability (warm colors). view more 

Credit: <i>Nature Climate Change</i>

Some 800 million people around the world depend on livestock that graze on natural vegetation for their livelihoods and food security. In a good season, grasses and other plants flourish, supporting robust herds. In a bad season, the system suffers - as do the people who rely on it. The difference between a good and bad year? One significant and increasingly volatile factor is precipitation.

A new study in Nature Climate Change reveals that over the past century year-to-year precipitation variability has increased significantly on 49 percent of the world's grazing lands, affecting vegetation and constraining its ability to support livestock. The study's authors, led by a team from the UMN Institute on the Environment, used climate data from 1901 to 2014 to create global maps of precipitation variability trends. While some grazing lands showed decreases in rainfall variability, the overall trend is an increase in fluctuation, both within and between years.

"Visualizing precipitation variability trends allows us to identify grazing lands that have undergone large changes - and to learn from those places where people have managed to adapt well despite increased variability," says lead author Lindsey Sloat, a postdoctoral research associate with IonE's Global Landscapes Initiative.

This insight is important, because grazing lands are already typically marginal: unsuitable for crops, either too dry or with poor soils. "Even small changes in rainfall put them at more risk," says Paul West, co-director of GLI. Furthermore, some grazing lands are even more inhospitable than others. Changes in precipitation variability especially affect these more vulnerable lands, which - adding to global risk - also tend to be home to the smallholder farmers and pastoralists who most depend on livestock for food. The researchers found:

    - Global grazing lands already experience 25 percent more year-to-year variability in precipitation than the average global surface land area

    - Regions with high year-to-year precipitation variability support lower livestock densities than less variable regions

    - Overall precipitation variability has increased the most in areas where grazing is predicted to be important for local food access

"This study is showing us that grazing is potentially highly vulnerable to climate change, right across the world, from Australia to Central Asia, sub-Saharan Africa and the Americas," says co-author Mario Herrero of Australia's Commonwealth Scientific and Industrial Research Organisation.

###

The research was a collaboration among scientists from IonE, the School of Natural Resources and the Environment at the University of Arizona, CSIRO, and the Federal University of Goias in Brazil. Funding support came from the Gordon and Betty Moore Foundation and the Belmont Forum/FACCE-JPI funded DEVIL project 182 (Delivering Food Security from Limited Land).

About the University of Minnesota Institute on the Environment

The Institute on the Environment supports research across the disciplines, develops the next generation of global leaders, and builds transformative partnerships - in service of solving our world's greatest challenges. IonE's mission is to lead the way to a future in which people and planet prosper together.


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.