Rattan Lal
Affiliations: | Ohio State University, Columbus, Columbus, OH |
Area:
Soil Science, Hydrology, Physical GeographyGoogle:
"Rattan Lal"Children
Sign in to add trainee| Vasant A. Akala | grad student | 2000 | Ohio State |
| Sjoerd W. Duiker | grad student | 2000 | Ohio State |
| Wilma Trujillo | grad student | 2000 | Ohio State |
| Mary E. Salchow | grad student | 2001 | Ohio State |
| Morgan M. Wairiu | grad student | 2001 | Ohio State |
| Lukman N. Mulumba | grad student | 2004 | Ohio State |
| Yuri L. Zinn | grad student | 2006 | Ohio State |
| Umakant Mishra | grad student | 2009 | Ohio State |
| Anjali Dubey | grad student | 2012 | Ohio State |
| Ryan D. Hottle | grad student | 2013 | Ohio State |
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Publications
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| Iqbal A, Ligeng J, Mo Z, et al. (2023) Substation of vermicompost mitigates Cd toxicity, improves rice yields and restores bacterial community in a Cd-contaminated soil in Southern China. Journal of Hazardous Materials. 465: 133118 |
| Lin BJ, Li RC, Liu KC, et al. (2023) Management-induced changes in soil organic carbon and related crop yield dynamics in China's cropland. Global Change Biology |
| Shrestha RK, Jacinthe PA, Lal R, et al. (2023) Biochar as a negative emission technology: A synthesis of field research on greenhouse gas emissions. Journal of Environmental Quality |
| Serafim ME, Mendes IC, Wu J, et al. (2022) Soil physicochemical and biological properties in soybean areas under no-till Systems in the Brazilian Cerrado. The Science of the Total Environment. 862: 160674 |
| Norman LM, Lal R, Wohl E, et al. (2022) Natural infrastructure in dryland streams (NIDS) can establish regenerative wetland sinks that reverse desertification and strengthen climate resilience. The Science of the Total Environment. 849: 157738 |
| Liu WX, Wei YX, Li RC, et al. (2022) Improving soil aggregates stability and soil organic carbon sequestration by no-till and legume-based crop rotations in the North China Plain. The Science of the Total Environment. 847: 157518 |
| Haj-Amor Z, Araya T, Kim DG, et al. (2022) Soil salinity and its associated effects on soil microorganisms, greenhouse gas emissions, crop yield, biodiversity and desertification: A review. The Science of the Total Environment. 156946 |
| Gao X, Kou Q, Ren K, et al. (2022) Quantitative characterization of non-DLVO factors in the aggregation of black soil colloids. Scientific Reports. 12: 5064 |
| de Moraes Sá JC, Lal R, Briedis C, et al. (2022) Can C-budget of natural capital be restored through conservation agriculture in a tropical and subtropical environment? Environmental Pollution (Barking, Essex : 1987). 298: 118817 |
| Kan ZR, Liu WX, Liu WS, et al. (2021) Mechanisms of soil organic carbon stability and its response to no-till: A global synthesis and perspective. Global Change Biology |