Publications
- Khanal, S., Fulton, J., Klopfenstein, A., Douridas, N., & Shearer, S. (2018). Integration of high resolution remotely sensed data and machine learning techniques for spatial prediction of soil properties and corn yield. Computers and Electronics in Agriculture, 153, 213-225.
- Khanal, S., Fulton, J., Douridas, N., Klopfenstein, A., & Shearer, S. (2018). Integrating aerial images for in-season nitrogen management in a corn field. Computers and Electronics in Agriculture, 148, 121-131.
- Khanal, S., Lal, R., Kharel, G., & Fulton, J. (2018). Identification and classification of critical soil and water conservation areas in the Muskingum River basin in Ohio. Journal of Soil and Water Conservation, 73(2), 213-226.
- Vasco-Correa, J., Khanal, S., Manandhar, A., & Shah, A. (2018). Anaerobic digestion for bioenergy production: Global status, environmental and techno-economic implications, and government policies. Bioresource technology, 247, 1015-1026.
- Khanal, S., Fulton, J., & Shearer, S. (2017). An overview of current and potential applications of thermal remote sensing in precision agriculture. Computers and Electronics in Agriculture, 139, 22-32.
- Shah, A., Darr, M., Khanal, S., & Lal, R. (2017). A techno-environmental overview of a corn stover biomass feedstock supply chain for cellulosic biorefineries. Biofuels, 8(1), 59-69.
- Khanal, S., Anex, R. P., Anderson, C. J., & Herzmann, D. E. (2014). Streamflow impacts of biofuel policy-driven landscape change. PloS one, 9(10), e109129.
- Khanal, S., Anex, R. P., Gelder, B. K., & Wolter, C. (2014). Nitrogen balance in Iowa and the implications of corn-stover harvesting. Agriculture, ecosystems & environment, 183, 21-30.
- Khanal, S., Anex, R. P., Anderson, C. J., Herzmann, D. E., & Jha, M. K. (2013). Implications of biofuel policy‐driven land cover change for rainfall erosivity and soil erosion in the United States. Gcb Bioenergy, 5(6), 713-722.
- Khanal, S., Ambinakudige, S., & Rodgers, J. (2013). A GIS analysis of the spatial relation between evapotranspiration and pan evaporation in the United States. Water international, 38(3), 353-360.
- Anderson, C. J., Anex, R. P., Arritt, R. W., Gelder, B. K., Khanal, S., Herzmann, D. E., & Gassman, P. W. (2013). Regional climate impacts of a biofuels policy projection. Geophysical Research Letters, 40(6), 1217-1222.
- Khanal, S., Anex, R. P., Gelder, B. K., Dixon, P., & Caragea, P. (2012). Cropping pattern choice with proximity to ethanol production and animal feeding operations. Biofuels, Bioproducts and Biorefining, 6(4), 431-443.
- Shah, A., Darr, M. J., Medic, D., Anex, R. P., Khanal, S., & Maski, D. (2012). Techno‐economic analysis of a production‐scale torrefaction system for cellulosic biomass upgrading. Biofuels, Bioproducts and Biorefining, 6(1), 45-57.
- Ambinakudige, S., & Khanal, S. (2010). Assessment of Impacts of Hurricane Katrina on Net Primary Productivity in Mississippi. Earth Interactions, 14(14), 1-12.
- Ambinakudige, S., Choi, J., & Khanal, S. (2010). A comparative analysis of CBERS-2 CCD and LANDSAT-TM satellite images in vegetation mapping. Revista Brasileira de Cartografia, (63/01), 115-122.
Reports
- 2017 eFields Report. OSU Digital Ag Program. College of Food, Agricultural, and Environmental Sciences. The Ohio State University.
- Janowiak, M. K., Iverson, L. R., Mladenoff, D. J., Peters, E., Wythers, K. R., Xi, W., ... & Swanston, C. (2014). Forest ecosystem vulnerability assessment and synthesis for northern Wisconsin and western Upper Michigan: a report from the Northwoods Climate Change Response Framework project. Gen. Tech. Rep. NRS-136. Newtown Square, PA: US Department of Agriculture, Forest Service, Northern Research Station. 247 p., 136, 1-247
Factsheets
Book Chapters
- Khanal, S., & Lal, R. (2015). Precision Agriculture for Improving Water Quality under Changing Climate. In Lal & Stewart (Eds). Soil-Specific Farming: Precision Agriculture, 22, 283.
- Khanal, S., Hochman, G., Shah, A., and Bielicki, J., 2015. Government policy and standards for bioenergy. In Y. Li and S.K. Khanal (Eds.), Bioenergy: Principles and Applications.