1a.Objectives (from AD-416):
To develop high yielding drought tolerance cultivars adapted to Nebraska and other drought-prone U.S. environments.
1b.Approach (from AD-416):
Soybean germplasm will be screened to identify drought tolerance. Putative tolerant types will be verified. Genetics of the tolerance will be investigated. This work will be pursued in lab, greenhouse, and field studies.
This project is related to Objective 3 of this in-house project: to discover novel genes/alleles in soybean for ‘tolerance to drought and related stress’, determine their inheritance, determine genomic location, transfer to adapted germplasm, and release. The Drought Tolerance project seeks to unlock the rich store of drought tolerance genes that exist in the USDA’s preserve of soybean germplasm. This preserve was formed by scientists through decades of work, combing the globe to find exotic soybean. This reservoir of exotic diversity, although collected by scientists, was produced originally by over 3000 years of ‘on-farm breeding’ in Asia, in which farmers adapted the soybean to a range of climate conditions. Special genes for drought tolerance, bred into soybean so long ago by these ancient farmers, are key to coping with the problem of drought in the USA today. The drought problem is so severe for our farmers in the USA because U.S. varieties do not presently contain these special drought genes from Asia. The central theme of our drought tolerance work is that we can ‘turn the tables’ on drought in the USA by putting the world’s genetic resources in soybean to work on U.S. farms. To that end, the United Soybean Board's drought tolerance project coordinates the research activities of 8 scientists and 7 research institutions in the Midwest and South. This effort is aimed at transferring drought genes from exotic Asian material into adapted genetic materials which will protect agriculture from damaging droughts. In the first years of the project, novel genetic drought tolerant resources were found in later maturing southern types. As this research matured, the drought tolerance trait was transferred first to Southern breeding lines and then moved north to Midwestern breeding lines. More recently, new discoveries have occurred in exotic materials of Midwestern maturity. Drought tolerance from these Midwestern maturity types is being transferred to Midwestern breeding lines now and will soon be transferred to Southern breeding lines as well. This national rather than regional approach to drought has ensured a great cross fertilization of science, using advances in one region to spur advances in the other. An important aspect of the drought tolerance project in Nebraska is to develop advanced breeding lines carrying the slow wilting trait. Through extensive testing, a series of adapted lines were developed and tested in regional trials. Over 2000 breeding lines were evaluated for drought tolerance potential in 2012, and a similar number are under evaluated in 2013. Ten high yielding breeding lines derived from this effort are being tested for drought response in three states in 2013.