KAUST and the International Maize and Wheat Improvement Center (CIMMYT) have signed an MoU to collaborate on developing climate-resilient food crops. The collaboration will combine CIMMYT’s expertise in maize and wheat breeding with KAUST’s strengths in genomics and computational agriculture. The partnership will focus on genomic selection, data analytics, and digital breeding technologies, including capacity-building programs. Why it matters: The partnership aims to enhance food security in Saudi Arabia and the wider region by developing resilient, high-yielding crop varieties suited to arid environments.
Dr. John Bedbrook of DiCE Molecules LLC spoke at KAUST about the challenges of feeding a growing population with increasingly stressed arable land. He noted the increasing demand for meat in emerging economies exacerbates the problem. Bedbrook emphasized the role of genetics and hybridization in improving crop yields and quality to address food security. Why it matters: Investments in agricultural biotechnology are crucial for the GCC region to enhance food security and reduce reliance on imports amid changing climate conditions.
KAUST researchers have developed a genomic resource for Tausch’s goatgrass (Aegilops tauschii), a wild relative of wheat, by creating 46 high-quality genome assemblies. They compiled 493 genetically distinct accessions from an initial 900, collaborating with the Open Wild Wheat Consortium to select accessions with traits of interest, such as disease resistance and stress tolerance. Screening these assemblies helped identify rust resistance genes, including mapping a stem rust resistance gene to the Sr33 locus. Why it matters: This genomic resource will accelerate gene discovery in wheat, potentially improving modern wheat varieties and enhancing global food security.
KAUST's Center for Desert Agriculture is holding an international conference on November 3-5, 2014, focusing on desert rhizosphere microbes for sustainable agriculture. Researchers aim to understand how plants survive in extreme conditions by studying microbes that help them tolerate heat, drought, and salt. They will explore genetic engineering and natural microbe usage to improve crop performance under heightened stress conditions. Why it matters: This research is critical for adapting agricultural systems to global warming and meeting future food production challenges in arid regions like the Middle East.
Fred Davies from Texas A&M University spoke at KAUST about the challenges of feeding the world's growing population. The keynote address was part of KAUST's Enrichment in the Fall program. Davies discussed the growing needs and problems related to global food production. Why it matters: Such discussions at KAUST can help foster research and innovation in agricultural technologies relevant to Saudi Arabia and the wider region.
KAUST plant scientists are advocating for the deployment of new plant breeding technologies, including gene editing, to enhance global food security. Researchers Mark Tester and Magdy Mahfouz highlight these methods' potential to improve crops by minimizing crop life cycle for research on breeding, selection, and fixing of useful genes. They argue these technologies offer alternatives to genetically modified crops, potentially lowering regulatory costs and increasing seed affordability for farmers in developing countries. Why it matters: These advancements, coupled with regional seed-sharing initiatives, could significantly boost food production and accessibility in less-developed countries in the Middle East and globally.
KAUST Associate Professor Salim Al-Babili and his team have been awarded an approximately $5 million grant by the Bill & Melinda Gates Foundation. The grant will support the development of strategies to combat the parasitic purple witchweed (Striga hermonthica), which threatens food security in sub-Saharan Africa. Al-Babili's project will focus on protecting pearl millet production through hormone-based soil cleansing, novel chemistries, and identifying genetic factors for resistance. Why it matters: This grant enables KAUST to contribute significantly to addressing food security challenges in Africa and the Middle East by tackling a pervasive parasitic plant, demonstrating the university's commitment to translating research into real-world impact.
KAUST postdoctoral fellow Muhammad Jamil won the best poster award at the 15th World Congress on Parasitic Plants for his research on combating the parasitic plant *Striga hermonthica*. His poster outlined his work at KAUST on developing technologies to help farmers in sub-Saharan Africa control this weed, which severely impacts cereal crops. Jamil is part of the Bill & Melinda Gates Foundation-funded project at KAUST focused on controlling *Striga* in pearl millet. Why it matters: This recognition highlights KAUST's contributions to addressing critical food security challenges in Africa through innovative agricultural technologies.