Daniel D. Shults Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
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Research Areas
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Biography and Research Information
OverviewAI-generated summary
Daniel D. Shults' research focuses on water resource management and agricultural practices in Arkansas. His work investigates the extension of irrigation reservoir histories to improve groundwater modeling and conjunctive water management, particularly in critical groundwater areas within the state. Shults also studies the potential for methane mitigation in rice production through innovative management strategies. His recent publications address the automated detection of on-farm irrigation reservoirs and the historical context of these reservoirs for enhanced water management. Shults collaborates with researchers including John W. Nowlin at Arkansas State University and Benjamin R. K. Runkle at the University of Arkansas at Fayetteville. His scholarship metrics include an h-index of 2 with 4 total publications and 8 total citations.
Metrics
- h-index: 2
- Publications: 4
- Citations: 9
Selected Publications
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Automated Detection of On-Farm Irrigation Reservoirs in Two Critical Groundwater Regions of Arkansas (2024)
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Extending irrigation reservoir histories for improved groundwater modeling and conjunctive water management in two Arkansas critical groundwater areas (2024)
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Assessing the methane mitigation potential of innovative management in US rice production (2023)
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Extending Irrigation Reservoir Histories for Improved Groundwater Modeling and Conjunctive Water Management in Two Arkansas Critical Groundwater Areas (2023)
Collaboration Network
Top Collaborators
- Assessing the methane mitigation potential of innovative management in US rice production
- Extending irrigation reservoir histories for improved groundwater modeling and conjunctive water management in two Arkansas critical groundwater areas
- Extending Irrigation Reservoir Histories for Improved Groundwater Modeling and Conjunctive Water Management in Two Arkansas Critical Groundwater Areas
- Automated Detection of On-Farm Irrigation Reservoirs in Two Critical Groundwater Regions of Arkansas
- Extending irrigation reservoir histories for improved groundwater modeling and conjunctive water management in two Arkansas critical groundwater areas
- Extending Irrigation Reservoir Histories for Improved Groundwater Modeling and Conjunctive Water Management in Two Arkansas Critical Groundwater Areas
- Automated Detection of On-Farm Irrigation Reservoirs in Two Critical Groundwater Regions of Arkansas
- Extending irrigation reservoir histories for improved groundwater modeling and conjunctive water management in two Arkansas critical groundwater areas
- Extending Irrigation Reservoir Histories for Improved Groundwater Modeling and Conjunctive Water Management in Two Arkansas Critical Groundwater Areas
- Extending irrigation reservoir histories for improved groundwater modeling and conjunctive water management in two Arkansas critical groundwater areas
- Automated Detection of On-Farm Irrigation Reservoirs in Two Critical Groundwater Regions of Arkansas
- Extending Irrigation Reservoir Histories for Improved Groundwater Modeling and Conjunctive Water Management in Two Arkansas Critical Groundwater Areas
- Assessing the methane mitigation potential of innovative management in US rice production
- Assessing the methane mitigation potential of innovative management in US rice production
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