C. Andy King Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
Crop, Soil and Environmental Sciences
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
C. Andy King's research focuses on understanding the genetic basis of plant traits, particularly in soybean (Glycine max). His work involves identifying and confirming genetic loci associated with important agronomic characteristics, such as canopy wilting and water use efficiency. King utilizes genome-wide association mapping and genetic markers, including single nucleotide polymorphisms, to investigate the relationship between genotype and phenotype in soybean.
His research has been supported by federal funding, including a grant from the NIH/National Institute of General Medical Sciences for work on branch stress microscopy and the mechanobiology of 3D morphogenesis and invasive diseases. King has a h-index of 32 and has authored 56 publications, which have been cited approximately 2,947 times. He actively collaborates with other researchers at the University of Arkansas at Fayetteville, including Larry C. Purcell, Siva K. Chamarthi, and Avjinder S. Kaler, and maintains an active laboratory website.
Metrics
- h-index: 32
- Publications: 56
- Citations: 2,968
Selected Publications
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Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction (2024)
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Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping (2021)
Federal Grants 1 $190,629 total
Developing branch stress microscopy for the mechanobiology of 3D morphogenesis and invasive diseases
Collaboration Network
Top Collaborators
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Association mapping for water use efficiency in soybean identifies previously reported and novel loci and permits genomic prediction
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
- Identification and Confirmation of Loci Associated With Canopy Wilting in Soybean Using Genome-Wide Association Mapping
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