CLEMSON – Two Clemson University scientists who are prominent members of the global agricultural 研究 community will play key roles in a new Feed the Future laboratory focused on tackling the global challenges of climate change, poverty and food security.

Stephen Kresovich, the Robert and Lois Coker Trustees Endowed Chair of Genetics in Clemson’s plant and environmental sciences department, has been named director of the laboratory, and Dil Thavarajah, Clemson associate professor of pulse crop quality and nutrition, will co-lead the lab’s trait analysis team.

headshot of Stephen Kresovich

Clemson University scientist Stephen Kresovich will lead the new Feed the Future lab.

The establishment of the Feed the Future Innovation Lab for Crop Improvement (ILCI) will create an integrated 研究 and delivery program with multidisciplinary expertise at the cutting-edge of agricultural development, from plant breeding and machine learning to quantitative genetics and gender inclusion.

The ILCI is a collaboration between Kansas State University, Cornell University and Clemson and will be based in Cornell’s International Programs in the College of Agriculture and Life Sciences. In addition to their work with the ILCI, Kresovich and Thavarajah will continue in their current roles at Clemson.

The project will support and empower national breeding programs in East and West Africa, South Asia and Latin America and serve as a model for introducing advanced agricultural technologies at scale to countries around the world. The five-year, $25 million grant from the U.S. Agency for International Development (USAID), as part of the U.S. government’s Feed the Future initiative, was announced Oct. 16 at the World Food Prize in Des Moines, Iowa.

“We are in a critical point in history where booming population growth, climate change and other environmental factors are exposing threats of global food insecurity at an unprecedented scale,” Kresovich said. “Improved varieties of key food crops are one of the surest avenues to reducing risks from economic, environmental and climatic shocks for millions of people in vulnerable and resource-poor populations.”

Kresovich is also director of Clemson’s Advanced Plant Technology Program, which focuses on integrating advances in genetics and genomics to solve problems in 农业, the environment and human health.


Dilrukshi Thavarajah stands in her lab, posing for a picture

Clemson University associate professor Dilrukshi Thavarajah has been named co-lead of the lab’s trait analysis team.
Image Credit: Clemson University Relations

Thavarajah leads Clemson’s USDA Organic Agriculture 研究 and Extension Initiative (OREI) which focuses on using advanced technologies to enhance organic crop variety development and plant breeding to build more sustainable and healthier food systems.

“We are in a race to feed a world population that is projected to reach 10 billion people by 2050.” Thavarajah said. “In order to feed our growing population efficiently and sustainably, we will have to produce an array of crops and sustainable food systems with increased micronutrient concentration and bioavailability to meet daily dietary needs. The knowledge and data generated by this lab will go directly into the field and help farmers produce foods that can achieve that goal.”

Experts from Cornell, Clemson and Kansas State universities, along with scientists at the U.S. Department of Agriculture, Makerere University in Uganda and private sector companies Cultural Practices and RTI International will initially collaborate with national agricultural institutions in Ghana, Haiti, Nepal, Senegal and Uganda to accelerate the breeding of locally and regionally adapted crop varieties targeted to smallholder farmers. The ILCI will serve as a catalyst for delivering improved tools, technologies and methods for breeding crops such as legumes, roots, sorghum and millet, with the potential to expand to a variety of staple crops in other countries.

Currently, plant breeders at national agricultural research institutions (NARIs) develop locally adopted crops using breeding lines first created by scientists in country and in coordination with the international coalition of food security 研究 programs known as Consultative Group for International Agricultural 研究 (CGIAR) centers. National institutions are positioned to address product profiles, market demand and environmental factors through the development of new varieties, but these programs are often underfunded and lack access to critical tools, technologies and methods needed to increase useful genetic 多样 in crops and introduce varieties that advance economic growth, climate resilience and nutritional development goals.

“Empowering national 研究 centers to achieve their own goals has the greatest potential impact on agricultural systems and for food and nutritional security,” according to Hale Ann Tufan, co-director of Cornell’s Gender-responsive 研究ers Equipped for Agricultural Transformation (GREAT) project who will serve as ILCI associate director.

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“In many regions where Feed the Future works, farmers grow outdated seed varieties often 15 to 20 years old, which lack resistance to pests, disease or weather-related shocks. This new Feed the Future Innovation Lab will be an important driver of change by enhancing crop breeding in ways that bring productive, resilient varieties to smallholder farmers, increasing their incomes and making nutritous food more available and affordable for low-income people in both rural and urban settings,” said Robert Bertram, Chief Scientist in USAID’s Bureau for Food Security.

Feed the Future Innovation Labs are led by U.S. universities in collaboration with partner country 研究 institutions. The Innovation Lab for Crop Improvement will take a collaborative and multi-disciplinary approach to equip institutions and individuals to solve complex problems with scientific excellence and social benefit.

Integrating local capacity development into research activities is a prime focus aspect of the ILCI. Competitive 研究 investments and funding opportunities will aim to build coordinated, high impact national programs utilizing local talent and knowledge. The ILCI approach will empower the development of new crop varieties with a strong grounding in regional priorities and production systems and empower self-reliant programs that are positioned to tackle the most pressing challenges in 农业 and food security.