Sindhuja Sankaran

Dr. Sindhuja Sankaran is a professor in the Department of Biological Systems Engineering at Washington State University (WSU). Her research is in the nascent and evolving field of phenomics, which involves the design, development, integration, testing, and deployment of a range of cutting-edge sensor technologies to advance crop phenotype monitoring – an important component of plant breeding, crop science, and precision agriculture research and applications. The sensor technologies are used for automated, non-invasive, rapid, and continuous monitoring of plant responses to the environment and abiotic and biotic stressors on a scale previously unattainable, and contribute to addressing pressing challenges in global food security and sustainable agriculture.

Dr. Sankaran has published over 110 peer-reviewed articles and has given over 95 outreach talks. She has been successful in securing internal and external competitive grants worth USD 33 million (with USD 4.2 million going into her program), mostly from the U.S. Department of Agriculture and the National Institute of Food and Agriculture (USDA-NIFA) programs. She leads the USDA-NIFA Research and Extension Experiences for Undergraduates project on research and extension partnership for accelerated technology adoption and resilient agricultural systems.

Dr. Sankaran is an active member of the American Society of Agricultural and Biological Engineers (ASABE), the National Association of Plant Breeders (NAPB), and the North American Plant Phenotyping Network (NAPPN). She is an associate Editor of the Plant Phenome Journal and Computers and Electronics in Agriculture. She is a recipient of the Early Career Excellence Award from the College of Agricultural, Human, and Natural Resource Sciences at WSU, the Outstanding Associate Editor award from ASABE’s Plant Phenome Journal, an ASABE Leadership Citation, and an International Society for Horticultural Science (ISHS) Medal, among others.

Phenomics refers to multidimensional phenotyping through sensing and automation to facilitate objective and quantitative assessment of crop responses. This aids in the critical process used for selecting stress-tolerant, high-performing crop varieties, cultivars, and hybrids in crop breeding programs, which is one of the key strategies in addressing issues related to food security. Dr. Sankaran’s Fulbright-Nehru project is developing phenomics-enabled decision support tools for understanding plant physiology in order to enhance the development of germplasms. Her project in India of facilitating the development and applications of phenomics tools will also benefit crop breeding programs in the U.S. and worldwide.