Yield potential, yield stability and stress tolerance in maize

Anonymous, 1977. Unpublished leaflet distributed by DeKalb Seed Company. DeKalb, IL.

Bänziger, 1999, Selection for drought tolerance increases maize yields across a range of nitrogen levels, Crop Sci., 39, 1035, 10.2135/cropsci1999.0011183X003900040012x

Becker, 1988, Stability analysis in plant breeding, Plant Breeding, 101, 1, 10.1111/j.1439-0523.1988.tb00261.x

Bradley, 1988, Statistical methods in seed corn product selection, J. Prod. Agric., 1, 34, 10.2134/jpa1988.0034

Cardwell, 1982, Fifty years of Minnesota corn production: sources of yield increase, Agron. J., 74, 984, 10.2134/agronj1982.00021962007400060013x

Crosbie, T.M., 1982. Changes in physiological traits associated with long-term efforts to improve grain yield of maize. In: Loden, H.D., Wilkinson, D. (Eds.), Proceedings of the 37th Annual Research Conference on Corn and Sorghum, Chicago, IL, December 5–9, 1982. American Seed Trade Association, Washington, DC, pp. 206–233.

Darrah, L.L., Lundquist, R.L., Hibbard, B.E., Mbuvi, S., Poneleit, C.G., West, D.R., Bernardo, R., Betran, F.J., Pataky, J.K., Maddux, L.D., Gordon, B., Elmore, R.W., Stenburg, D., Ziegler, K.E., Wicks III, Z.W., Thomison, P.R., Schaafsma, A., Zhu, X., Fischer, D., Henry, R., Deutsch, J.A., Benson, D., 1998. White Food Corn 1998 performance tests. Special Report 518. USDA-ARS and Agriculture Experimental Station, University of Missouri–Columbia.

Darrah, L.L., Lundquist, R.L., Hibbard, B.E., Mbuvi, S., Poneleit, C.G., West, D.R., Betran, F.J., Xu, W., Pataky, J.K., Maddux, L.D., Gordon, B., Elmore, R.W., Stenburg, D.E., Wicks III, Z.W., Beauzay, P., Thomison, P.R., Jordan, D.M., Schaafsma, A., Lee, E.A., Ziegler, K.E., Zhu, X., Fischer, D.B., Henry, R., Deutsch, J.A., Strissel, J.F., 1999 White Food Corn 1999 performance tests. Special Report 528. USDA-ARS and Agriculture Experimental Station, University of Missouri–Columbia.

Darrah, L.L., West, D.R., Lundquist, R.L., Hibbard, B.E., Schaafsma, A., Lee, E.A., Mbuvi, S., Poneleit, C.G., Betran, F.J., Xu, W., Pataky, J.K., Maddux, L.D., Gordon, B., Elmore, R.W., Stenburg, D.E., Wicks III, Z.W., Beauzay, P., Thomison, P.R., Jordan, D.M., Ziegler, K.E., Henry, R., Deutsch, J.A., Strissel, J.F., Fischer, D.B., 2000. White Food Corn 2000 performance tests. Special Report 535. USDA-ARS and Agriculture Experimental Station, University of Missouri–Columbia.

Duvick, 1977, Genetic rates of gain in hybrid maize during the past 40 years, Maydica, 22, 187

Duvick, D.N., 1984. Genetic contributions to yield gains of U.S. hybrid maize, 1930–1980. In: Fehr, W.R. (Ed.), Genetic Contributions to Yield Gains of Five Major Crop Plants. CSSA Special Publication No. 7. ASA, CSSA, and SSSA, Madison, WI, pp. 1–47.

Duvick, 1992, Genetic contributions to advances in yield of U.S. maize, Maydica, 37, 69

Duvick, D.N., 1997. What is yield? In: Edmeades, G.O., Bänziger, B., Mickelson, H.R., Pena-Valdivia, C.B. (Eds.), Developing Drought and Low N-tolerant Maize. CIMMYT, El Batan, Mexico, pp. 332–335.

Duvick, D.N., 1999. Heterosis: feeding people and protecting natural resources. In: Coors, J.G., Pandey, S. (Eds.), The Genetics and Exploitation of Heterosis in Crops. ASSA/CSSA/SSSA, Madison, WI, pp. 19–29.

Evans, 1999, Yield potential: its definition, measurement, and significance, Crop Sci., 39, 1544, 10.2135/cropsci1999.3961544x

Finlay, 1963, The analysis of adaptation in a plant breeding programme, Aust. J. Agric. Res., 14, 742, 10.1071/AR9630742

Jensen, 1983, Drought tolerance in US maize, Agric. Wat. Manage., 7, 223, 10.1016/0378-3774(83)90085-9

Lafitte, 1995, Stress tolerance in tropical maize is linked to constitutive changes in ear growth characteristics, Crop Sci., 35, 820, 10.2135/cropsci1995.0011183X003500030031x

Loomis, 1999, Yield potential, plant assimilatory capacity, and metabolic efficiencies, Crop Sci., 39, 1584, 10.2135/cropsci1999.3961584x

Murrell, 2000, Redefining corn yield potential, Better Crops, 84, 33

Russell, 1985, Evaluations for plant, ear, and grain traits of maize cultivars representing different eras of breeding, Maydica, 30, 85

Tollenaar, 1983, Potential vegetative productivity in Canada, Can. J. Plant Sci., 63, 1, 10.4141/cjps83-001

Tollenaar, 1984, Dry matter accumulation of maize grown hydroponically under controlled-environment and field conditions, Can. J. Plant Sci., 64, 475, 10.4141/cjps84-070

Tollenaar, 1999, Yield improvement in temperate maize is attributable to greater stress tolerance, Crop Sci., 39, 1597, 10.2135/cropsci1999.3961597x

Tollenaar, M., McCullough, D.E., Dwyer, L.M., 1994. Physiological basis of the genetic improvement of corn. In: Slafer, G.A. (Ed.), Genetic Improvement of Field Crops. Marcel Dekker, New York, pp. 183–236.

Tollenaar, M., Ying, J., Duvick, D.N., 2000. Genetic gain in corn hybrids. In: Proceedings of the 55th Annual Research Conference on Corn and Sorghum, Chicago, IL, December 6–8, 2000. American Seed Trade Association, Washington, DC, pp. 53–62.

Troyer, 1990, A retrospective view of corn genetic resources, J. Hered., 81, 17, 10.1093/oxfordjournals.jhered.a110920

Warsaw, H., 1985. High yield corn production. In: Munson, R.D. (Ed.), Physiology, Biochemistry, and Chemistry Associated with Maximum Yield Corn. Proceedings of the Workshop Foundation for Agronomic Research and Potash Phosphate Institute, November 11–12, 1985, St. Louis, MO, pp. 193–199.

Ying, 2000, Response of maize leaf photosynthesis to low temperature during the grain-filling period, Field Crops Res., 68, 87, 10.1016/S0378-4290(00)00107-6