1. Adriana, G. K., Mercau, J. L., Slafer, G. A., & Sadras, V. O. (2007). Simulated yield advantages of extending post flowering development at the expense of a shorter pre flowering development in soybean. Field Crops Research, 101, 321–330.
2. Ali, M., Gupta, S., & Basu, P. S. (2009). Higher levels of warming in North India will affect crop productivity. Hindu Survey of Indian Agriculture, pp. 44–48.
3. Bhatia, V. S., & Jumrani, K. (2016). A maximin-minimax approach for classifying soybean genotypes for drought tolerance based on yield potential and loss. Plant Breeding, 136, 691–700.
4. Bhatia, V. S., Jumrani, K., & Pandey, G. P. (2014a). Developing drought tolerance in soybean using physiological approaches. Soybean Research, 12, 1–19.
5. Bhatia, V. S., Jumrani, K., & Pandey, G. P. (2014b). Evaluation of the usefulness of senescing agent potassium iodide as a screening tool for tolerance to terminal drought in soybean. Plant Knowledge Journal, 3, 23–30.