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个人简介
Research Interests
As a plant breeder, I use and develop technologies to release new varieties of pulses with improved traits that allow farmers to produce pulse crops with reduced inputs, such as pesticides. At the same time, the varieties produced in my program provide consumers with higher quality pulse products, such as enhanced nutrition or taste. Our lab focuses on the development of pulse cultivars.
Plant Breeding and Genetics: Cultivar development is a crucial technological component of agriculture. Maintaining genetic gain means that farmers can access cultivars that can cope with disease, insect and environmental stresses which reduces dependency on pesticides and natural resources such as water. Cultivar development also provides consumers with a superior and healthier product that is produced sustainably.
Plant Phenomics: Due to the size of segregating populations, plant breeding programs are often limited by the ability to identify superior individuals. The advent of field-based sensors to measure traits coupled with artificial intelligence and machine learning is enabling breeders to select for conventional traits faster and identify novel traits that are otherwise not detectable by the human eye to develop and accelerate plant improvement. Our lab focuses on developing and implementing plant phenomics tools in plant breeding programs for agronomic traits as well as quality traits.
As a plant breeder, I use and develop technologies to release new varieties of pulses with improved traits that allow farmers to produce pulse crops with reduced inputs, such as pesticides. At the same time, the varieties produced in my program provide consumers with higher quality pulse products, such as enhanced nutrition or taste. Our lab focuses on the development of pulse cultivars.
Plant Breeding and Genetics: Cultivar development is a crucial technological component of agriculture. Maintaining genetic gain means that farmers can access cultivars that can cope with disease, insect and environmental stresses which reduces dependency on pesticides and natural resources such as water. Cultivar development also provides consumers with a superior and healthier product that is produced sustainably.
Plant Phenomics: Due to the size of segregating populations, plant breeding programs are often limited by the ability to identify superior individuals. The advent of field-based sensors to measure traits coupled with artificial intelligence and machine learning is enabling breeders to select for conventional traits faster and identify novel traits that are otherwise not detectable by the human eye to develop and accelerate plant improvement. Our lab focuses on developing and implementing plant phenomics tools in plant breeding programs for agronomic traits as well as quality traits.
研究兴趣
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PLANT GENOMEno. 1.0 (2017): 0
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