Jeffrey Melkonian
Senior Research Associate (Retired), Visiting Scientist, School of Integrative Plant Science, Soil and Crop Sciences Section
My work involves the application of dynamic simulation modeling combined with field experimentation to better understand resource use, crop productivity, and the impact of climate in agricultural crops.
Interests
Dynamic simulation modeling
Crop productivity and resource use, c, and the .
Climate impacts on agricultural crops
Recent Research
The focus of my research is the application of simulation modeling, data analyses and field research to better understand crop production, nitrogen and water fluxes in agricultural and environmental systems, and the impact of the biophysical environment, including high temperature and soil water deficits, on crop production. Research includes examining strategies for nutrient and water management to reduce negative environmental impacts, increase crop production and provide insight into the soil/plant/atmosphere continuum to design more targeted and fruitful experimental and breeding strategies.
Outreach and Extension Focus
My main extension/outreach focus is on improving a well-tested/calibrated dynamic simulation model of water and nitrogen in a maize/soil system to develop improved sidedress nitrogen recommendations for maize production in the major maize production areas in the USA, including New York.
Selected Publications
- Carter, E. K., Riha, S., Melkonian, J. J., & Steinschneider, S. (2018). Yield response to climate, management, and genotype: a large-scale observational analysis to identify climate-adaptive crop management practices in high-input maize systems. Environmental Research Letters. 13:11.
- Carter, E. K., Melkonian, J. J., Steinschneider, S., & Riha, S. J. (2018). Rainfed maize yield response to management and climate: Covariability at large spatial scales. Agricultural and Forest Meteorology. 256-257:242-252.
- Carter, E. K., Melkonian, J. J., Riha, S. J., & Shaw, S. B. (2016). Separating heat stress from moisture stress: Analyzing yield response to high temperature in irrigated maize. Environmental Research Letters. 11:11.
- Moebius-Clune, B., van Es, H. M., & Melkonian, J. J. (2013). Adapt-N Uses Models and Weather Data to Improve Nitrogen Management for Corn. Better Crops with Plant Food. 97:7.
- Sogbedji, J., Melkonian, J. J., Amouzou, K., Ezui, K., & van Es, H. M. (2013). Application of a Nitrogen Management Model under Maize and Mucuna Cover Cropping in West Africa. Journal of Renewable Agriculture. 1:152-159.
- Xue, Y., van Es, H. M., Schindelbeck, R. R., Moebius-Clune, B. N., Melkonian, J. J., Graham, C., & Yang, P. (2013). Effects of N placement, carbon distribution and temperature on N2O emissions in clay loam and loamy sand soils. Soil Use and Management. 29:240-249.
- Melkonian, J. J., Owens, T. G., & Wolfe, D. W. (2004). Gas exchange and co-regulation of photochemical and nonphotochemical quenching in bean during chilling at ambient and elevated carbon dioxide. Photosynthesis Research. 79:71-82.
Others
- Melkonian, J. J., & van Es, H. M. (2008). 2008 Recommended Adjustments to N Fertilizer Recommendations for Corn Production in New York..
- Melkonian, J. J., & van Es, H. M. (2008). 2008 Recommended Adjustments to N Fertilizer Recommendations for Corn Production in New York..
Awards & Honors
Citation of Excellence for Associate Editors (2016) Crop Science Society of America
Contact Information
1016 Bradfield Hall
Ithaca, NY 14853
jjm11 [at] cornell.edu
Graduate Fields
- Soil and Crop Sciences
Education
- Doctorate
Cornell University
1994
- Master of Science
Cornell University
1983
- Bachelor of Science
Middlebury College
1977
- Soil and Crop Sciences