Scientists to study locust problem on three continents
Locust swarms may seem like a distant chapter from history, but these devastating insects still present a major threat in today’s world. They jeopardize food security throughout the Middle East, Asia, Africa and Australia. Locusts, particularly desert locusts, ravage crops and impact livestock — costing countries billions of dollars in lost harvests and eradication efforts.
A team of scientists from Arizona State, McGill, Colorado State, and Yale universities are launching a new collaborative project to learn how human behaviour, market forces and ecological systems interact over time to affect the outcomes of locust swarms. The researchers will conduct studies in China, Senegal and Australia — countries that depend on livestock production and each home to locust outbreaks that may be linked to degraded livestock pastures.
The National Science Foundation is funding the four-year, $955,000 project through its Dynamics of Coupled Natural and Human Systems program.
“A lot of research looks at the deconstructed pieces of a problem, and not the larger scale,” says Brian Robinson, an assistant professor of Geography at McGill. “It’s important to find connections between the pieces and with our research team, we have the people in place to do that. Managing grasslands may help manage locusts, as well as minimize crop and feed loss for animals. But we need to understand how best to do these things on the ground, and how management must be adapted to different ecological and social contexts,” adds Robinson, whose research focuses on how people meet their needs through use of ecosystems and on the role this plays in development in poorer regions of the world.
To develop new and sustainable management strategies, the team will study livestock markets, grazing practices, grass ecology, and property rights in relationship to locust dynamics.
“We are building on our previous research in China, that demonstrated that overgrazing rangelands promotes locust outbreaks, in part because overgrazing lowers the amount of nitrogen in plants,” says Arianne Cease, a physiological ecologist with Arizona State’s School of Life Sciences and lead researcher on the project. Surprisingly, plants with lower nitrogen content allow locusts to multiply and form devastating swarms— a situation often caused by overgrazing.
“We understand how important it is to look at the whole picture and we’re excited about the project’s potential,” adds Cease, who is also a research associate with the University of Sydney. “We need a better understanding of the links between overgrazing and locusts. And, from a social perspective, we also need a unified framework to implement what we find into practice in each of the regions in a way that improves the lives of local farmers and the longevity of the grasslands.”
The diverse research team of three biologists and three social scientists will search for answers to two main questions: First, how do the relationship between insects and nutrients, as well as livestock grazing strategies, interact to affect food prices, food security, and rangeland degradation? And second, how do property rights and ownership affect society’s ability to respond to the link between overgrazing and locust outbreaks?
“It is commonly believed that people don’t have incentives to care for things that are ‘owned’ collectively,” says Eli Fenichel, a Yale assistant professor, who studies the connections between economic and ecological systems. “However, with what we are learning about locusts, it seems possible that short-sighted environmental management may cause future damage to a community’s economic resources and also crises for neighbouring communities. So, the more we learn about these systems, the more it seems that we can turn the study of ecology into a direct cost/benefit for society as a whole.”
The team’s goals are to learn how best to minimize locust outbreaks and to use this knowledge in working with regional governments and communities to devise additional tools for managing the swarms differently. The scientists also want to understand what causes the locust population buildups that lead to migratory swarms.