Gulab Rangani Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Program Associate
University of Arkansas at Fayetteville
faculty
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Biography and Research Information
OverviewAI-generated summary
Gulab Rangani's research focuses on understanding the mechanisms of herbicide resistance in agricultural weeds, particularly Palmer amaranth (*Amaranthus palmeri*) and *Echinochloa colona*. Their work investigates the genetic and physiological basis for resistance to various herbicides, including S-metolachlor, quinclorac, and PPO-inhibitors. Publications explore how specific gene mutations, such as in the PPO2 gene, confer resistance and influence cross-resistance patterns. Rangani also studies the impact of herbicide resistance on plant stress tolerance and transpiration responses, especially under drought conditions. Further research examines resistance to ACCase inhibitors in *Lolium multiflorum*. Rangani collaborates with researchers at the University of Arkansas at Fayetteville, including Nilda R. Burgos, Reiofeli A. Salas-Perez, Matthew B. Bertucci, and Mary C. Savin, contributing to a body of work on weed science and crop protection.
Metrics
- h-index: 9
- Publications: 16
- Citations: 257
Selected Publications
- Prevalence of Junglerice ( <i>Echinochloa colona</i> ) among <i>Echinochloa</i> species in Arkansas rice fields (2026) DOI
- Resistance to Acetyl Coenzyme A Carboxylase (ACCase) Inhibitor in Lolium multiflorum: Effect of Multiple Target-Site Mutations (2024) DOI
- Assessment of Efficacy and Mechanism of Resistance to Soil-Applied PPO Inhibitors in Amaranthus palmeri (2023) DOI
- Field-Evolved ΔG210-ppo2 from Palmer Amaranth Confers Pre-emergence Tolerance to PPO-Inhibitors in Rice and Arabidopsis (2022) DOI
- High Resistance to Quinclorac in Multiple-Resistant Echinochloa colona Associated with Elevated Stress Tolerance Gene Expression and Enriched Xenobiotic Detoxification Pathway (2022) DOI
- Transpiration Responses of Herbicide-Resistant and -Susceptible Palmer Amaranth (Amaranthus palmeri (S.) Wats.) to Progressively Drying Soil (2022) DOI
- Transpiration Responses of Herbicide-Resistant and -Susceptible Palmer amaranth [<em>Amaranthus palmeri</em> (S.) Wats.] to Progressively Drying Soil (2022) DOI
- PPO2 Mutations in Amaranthus palmeri: Implications on Cross-Resistance (2021) DOI
- Mechanism of Resistance to S-metolachlor in Palmer amaranth (2021) DOI
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