Robert C. Holland Data-verified
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Biography and Research Information
OverviewAI-generated summary
Robert C. Holland's research focuses on plant pathology and agronomy, with a significant emphasis on soybean cultivation. His work investigates the impact of various factors on soybean health and yield, including disease resistance, drought stress, and the efficacy of agricultural treatments.
Recent publications from Holland and his collaborators examine the response of soybean seed-borne pathogens like *Diaporthe* spp. and *Cercospora* spp. to foliar fungicides, as well as methods for estimating infection potential at physiological maturity. His research also assesses soybean cultivar resistance to diseases such as target spot using detached leaf assays and explores the effects of drought stress during seed development on charcoal rot and overall yield.
Holland holds a h-index of 22 with 136 total publications and 1,669 citations. He is recognized as a highly cited researcher and leads a research group at the University of Arkansas at Fayetteville. His collaborations include work with J. C. Rupe, Edward E. Gbur, Kevin C. Thompson, and Samuel B. Fernandes.
Metrics
- h-index: 22
- Publications: 136
- Citations: 1,675
Selected Publications
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Response of the Soybean Seed-Borne Pathogens <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. to Foliar Fungicides in Arkansas (2025)
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Estimating the Potential for Soybean Seed Infection by <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. at Physiological Maturity (2025)
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Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay (2024)
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Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean (2024)
Collaboration Network
Top Collaborators
- Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean
- Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay
- Estimating the Potential for Soybean Seed Infection by <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. at Physiological Maturity
- Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean
- Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay
- Estimating the Potential for Soybean Seed Infection by <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. at Physiological Maturity
- A comparison of machine-learning assisted optical and thermal camera systems for beehive activity counting
- A comparison of machine-learning assisted optical and thermal camera systems for beehive activity counting
- A comparison of machine-learning assisted optical and thermal camera systems for beehive activity counting
- A comparison of machine-learning assisted optical and thermal camera systems for beehive activity counting
- Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean
- Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean
- Effect of Drought Stress During Seed Development on Charcoal Rot and Yield of Soybean
- Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay
- Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay
- Assessing Soybean Cultivar Resistance to Target Spot Using a Detached Leaf Assay
- Estimating the Potential for Soybean Seed Infection by <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. at Physiological Maturity
- Estimating the Potential for Soybean Seed Infection by <i>Diaporthe</i> spp. and <i>Cercospora</i> spp. at Physiological Maturity
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