Christopher E. Rouse Data-verified
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Researcher
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Biography and Research Information
OverviewAI-generated summary
Christopher E. Rouse's research focuses on understanding herbicide resistance in plants, particularly in weed species. His work has investigated the genetic and molecular mechanisms underlying this resistance, including the role of gene expression and detoxification pathways. In a 2022 publication, he co-authored a study on high resistance to quinclorac in *Echinochloa colona*, linking it to elevated stress tolerance gene expression and enriched xenobiotic detoxification pathways. Another recent publication in 2021 examined how ammonium sulfate can improve the efficacy of glyphosate on *Eragrostis plana* under water-stressed conditions.
Rouse's scholarship metrics include an h-index of 7, with 16 total publications and 257 total citations. He has collaborated with Nilda R. Burgos on two shared publications, and with Reiofeli A. Salas-Perez and Gulab Rangani on one shared publication each, all at the University of Arkansas at Fayetteville. His recent activity indicates ongoing research in his field.
Metrics
- h-index: 7
- Publications: 16
- Citations: 261
Selected Publications
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High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway (2022)
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Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress (2021)
Collaboration Network
Top Collaborators
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- Ammonium sulfate improves the efficacy of glyphosate on South African lovegrass (<i>Eragrostis plana</i>) under water stress
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway
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