C
Cammy Willett Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
10 h-index
31 pubs
380 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Cammy Willett's research focuses on the environmental persistence and degradation of herbicides, particularly atrazine and S-metolachlor. Her work investigates the factors influencing herbicide dissipation in soil, including the impact of within-season and inter-annual herbicide application. Willett also explores the role of plant extracts and microbial communities in the biodegradation of these agricultural chemicals. Her publications address the development of predictive models for herbicide dissipation endpoints and the estimation of herbicide-treated areas in watersheds based on stream loads. Willett has authored 31 publications, with an h-index of 10 and 377 citations. She has collaborated with researchers including Matthew B. Bertucci, Nilda R. Burgos, Mary C. Savin, and Erin M. Grantz, all from the University of Arkansas at Fayetteville, with multiple shared publications.
Metrics
- h-index: 10
- Publications: 31
- Citations: 380
Selected Publications
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Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions (2024)
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Evaluating phytochemical and microbial contributions to atrazine degradation (2022)
Collaboration Network
Top Collaborators
Koffi Badou‐Jeremie Kouame
University of Arkansas at Fayetteville (US)
4 shared publications
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Matthew B. Bertucci
University of Arkansas at Fayetteville
4 shared publications
In database
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Mary C. Savin
University of Arkansas at Fayetteville
4 shared publications
In database
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Thomas R. Butts
University of Arkansas System (US)
4 shared publications
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Nilda R. Burgos
University of Arkansas at Fayetteville
4 shared publications
In database
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Erin M. Grantz
University of Arkansas at Fayetteville
3 shared publications
In database
- S-metolachlor persistence in soil as influenced by within-season and inter-annual herbicide use
- S -Metolachlor Persistence in Soil as Influenced by Within-Season and Inter-Annual Herbicide Use
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Robert N. Lerch
Agricultural Research Service (US)
2 shared publications
- Evaluating phytochemical and microbial contributions to atrazine degradation
- Estimating simazine‐treated area in watersheds based on annual stream loads
Taghi Bararpour
Mississippi State University (US)
1 shared publication
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
Lawrence E. Steckel
University of Tennessee at Knoxville (US)
1 shared publication
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
Fellipe Goulart Machado
Universidade Estadual de Maringá (BR)
1 shared publication
- Resistance of Palmer amaranth (<i>Amaranthus palmeri</i>) to <i>S</i>-metolachlor in the midsouthern United States
Kathleen Marie Hatch
University of Arkansas at Fayetteville
1 shared publication
In database
- Evaluating phytochemical and microbial contributions to atrazine degradation
Robert J. Kremer
1 shared publication
- Evaluating phytochemical and microbial contributions to atrazine degradation
C. A. Roberts
University of Missouri (US)
1 shared publication
- Evaluating phytochemical and microbial contributions to atrazine degradation
Keith W. Goyne
University of Missouri (US)
1 shared publication
- Evaluating phytochemical and microbial contributions to atrazine degradation
Samantha Robinson
University of Arkansas at Fayetteville
1 shared publication
In database
- Biphasic models improved <i>S</i>‐metolachlor dissipation endpoint predictions
Similar Researchers
Based on overlapping research topics
David M. Miller
Arkansas Agricultural Experiment Station
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Arkansas State University
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Ethan Leonard
Arkansas State University
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Kathleen Marie Hatch
University of Arkansas at Fayetteville
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D. W. Sweeney
Arkansas Agricultural Experiment Station
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L. Hargrave
Arkansas Agricultural Experiment Station
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