Yield Improvement in Temperate Maize is Attributable to Greater Stress Tolerance

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SYMPOSIUM-1998 ASA MEETING -BALTIMORE

Yield Improvement in Temperate Maize is Attributable to Greater Stress Tolerance

M. Tollenaar^a and J. Wu^a

^a Dept. of Plant Agriculture, Crop Science Division, University of Guelph, Guelph, ON, N1G 2W1, Canada

ttollena{at}plant.uoguelph.ca

A retrospective analysis of the physiological basis of geneticyield improvement may provide an understanding of yield potentialand may indicate avenues for future yield improvement. Rateof yield improvement of maize (Zea mays L.) hybrids in Ontario,Canada has been ${approx}$ 1.5% yr^-1 during the last five decades. Comparisonof short-season hybrids representing yield improvement fromthe late 1950s to the late 1980s showed that genetic yield improvementwas 2.5% per year and that most of the genetic yield improvementcould be attributed to increased stress tolerance. Differencesin stress tolerance between older and more recent hybrids havebeen shown for high plant population density, weed interference,low night temperatures during the grain-filling period, lowsoil moisture, low soil N, and a number of herbicides. Yieldimprovement is the result of more efficient capture and useof resources, and the improved efficiency in resource captureand use of newer hybrids is frequently only evident under stress.Improved resource capture has resulted from increased interceptionof seasonal incident radiation and greater uptake of nutrientsand water. The improved resource capture is associated withincreased leaf longevity, a more active root system, and a higherratio of assimilate supply by the leaf canopy (source) and assimilatedemand by the grain (sink) during the grain-filling period.Improvements of resource use under optimum conditions have beensmall, as leaf photosynthesis, leaf-angle distribution of thecanopy, grain chemical composition, and the proportion of drymatter allocated to the grain at maturity (i.e., harvest index)have remained virtually constant. Genetic improvement of maizehas been accompanied by a decrease in plant-to-plant variability.Results of our studies indicate that increased stress toleranceis associated with lower plant-to-plant variability and thatincreased plant-to-plant variability results in lower stresstolerance.

Abbreviations: CV, coefficient of variability • PPFD, photosynthetic photon flux density

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				T. F. Stanger and J. G. Lauer Corn Grain Yield Response to Crop Rotation and Nitrogen over 35 Years Agron. J., May 7, 2008; 100(3): 643 - 650. [Abstract] [Full Text] [PDF]

				D. B. Egli Comparison of Corn and Soybean Yields in the United States: Historical Trends and Future Prospects Agron. J., May 7, 2008; 100(Supplement_3): S-79 - S-88. [Abstract] [Full Text] [PDF]

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				B. M. Schwartz and C.W. Smith Genetic Gain in Yield Potential of Upland Cotton under Varying Plant Densities Crop Sci., March 19, 2008; 48(2): 601 - 605. [Abstract] [Full Text] [PDF]

				L. Echarte, S. Rothstein, and M. Tollenaar The Response of Leaf Photosynthesis and Dry Matter Accumulation to Nitrogen Supply in an Older and a Newer Maize Hybrid Crop Sci., March 19, 2008; 48(2): 656 - 665. [Abstract] [Full Text] [PDF]

				E. A. Lee and M. Tollenaar Physiological Basis of Successful Breeding Strategies for Maize Grain Yield Crop Sci., December 18, 2007; 47(Supplement_3): S-202 - S-215. [Abstract] [Full Text] [PDF]

				K. S. Dhugga Maize Biomass Yield and Composition for Biofuels Crop Sci., November 7, 2007; 47(6): 2211 - 2227. [Abstract] [Full Text] [PDF]

				T. H. Kebrom and T. P. Brutnell The molecular analysis of the shade avoidance syndrome in the grasses has begun J. Exp. Bot., October 5, 2007; (2007) erm205v1. [Abstract] [Full Text] [PDF]

				M. M. Williams II and J. L. Lindquist Influence of Planting Date and Weed Interference on Sweet Corn Growth and Development Agron. J., June 5, 2007; 99(4): 1066 - 1072. [Abstract] [Full Text] [PDF]

				K. D. Subedi, B. L. Ma, and D. L. Smith Response of a Leafy and Non-Leafy Maize Hybrid to Population Densities and Fertilizer Nitrogen Levels Crop Sci., July 25, 2006; 46(5): 1860 - 1869. [Abstract] [Full Text] [PDF]

				L. Echarte and M. Tollenaar Kernel Set in Maize Hybrids and Their Inbred Lines Exposed to Stress Crop Sci., February 24, 2006; 46(2): 870 - 878. [Abstract] [Full Text] [PDF]

				P. M. O'Neill, J. F. Shanahan, and J. S. Schepers Use of Chlorophyll Fluorescence Assessments to Differentiate Corn Hybrid Response To Variable Water Conditions Crop Sci., February 1, 2006; 46(2): 681 - 687. [Abstract] [Full Text] [PDF]

				K. L. Martin, P. J. Hodgen, K. W. Freeman, R. Melchiori, D. B. Arnall, R. K. Teal, R. W. Mullen, K. Desta, S. B. Phillips, J. B. Solie, et al. Plant-to-Plant Variability in Corn Production Agron. J., November 17, 2005; 97(6): 1603 - 1611. [Abstract] [Full Text] [PDF]

				L. DING, K. J. WANG, G. M. JIANG, D. K. BISWAS, H. XU, L. F. LI, and Y. H. LI Effects of Nitrogen Deficiency on Photosynthetic Traits of Maize Hybrids Released in Different Years Ann. Bot., October 1, 2005; 96(5): 925 - 930. [Abstract] [Full Text] [PDF]

				R. F. Davis and O. L. May Relationship between Yield Potential and Percentage Yield Suppression Caused by the Southern Root-Knot Nematode in Cotton Crop Sci., September 23, 2005; 45(6): 2312 - 2317. [Abstract] [Full Text] [PDF]

				F. H. Andrade and P. E. Abbate Response of Maize and Soybean to Variability in Stand Uniformity Agron. J., July 13, 2005; 97(4): 1263 - 1269. [Abstract] [Full Text] [PDF]

				E. A. Lee, A. Ahmadzadeh, and M. Tollenaar Quantitative Genetic Analysis of the Physiological Processes underlying Maize Grain Yield Crop Sci., May 6, 2005; 45(3): 981 - 987. [Abstract] [Full Text] [PDF]

				E. R. Cober, M. J. Morrison, B. Ma, and G. Butler Genetic Improvement Rates of Short-Season Soybean Increase with Plant Population Crop Sci., May 6, 2005; 45(3): 1029 - 1034. [Abstract] [Full Text] [PDF]

				P. M. O'Neill, J. F. Shanahan, J. S. Schepers, and B. Caldwell Agronomic Responses of Corn Hybrids from Different Eras to Deficit and Adequate Levels of Water and Nitrogen Agron. J., November 1, 2004; 96(6): 1660 - 1667. [Abstract] [Full Text] [PDF]

				M. Tollenaar, A. Ahmadzadeh, and E. A. Lee Physiological Basis of Heterosis for Grain Yield in Maize Crop Sci., November 1, 2004; 44(6): 2086 - 2094. [Abstract] [Full Text] [PDF]

				L. Echarte, F. H. Andrade, C. R. C. Vega, and M. Tollenaar Kernel Number Determination in Argentinean Maize Hybrids Released between 1965 and 1993 Crop Sci., September 1, 2004; 44(5): 1654 - 1661. [Abstract] [Full Text] [PDF]

				O. R. Valentinuz and M. Tollenaar Vertical Profile of Leaf Senescence during the Grain-Filling Period in Older and Newer Maize Hybrids Crop Sci., May 1, 2004; 44(3): 827 - 834. [Abstract] [Full Text] [PDF]

				L. A. Hunt, M. P. Reynolds, K. D. Sayre, S. Rajaram, J. W. White, and W. Yan Crop Modeling and the Identification of Stable Coefficients that May Reflect Significant Groups of Genes Agron. J., January 1, 2003; 95(1): 20 - 31. [Abstract] [Full Text] [PDF]

				W. B. Bruce, G. O. Edmeades, and T. C. Barker Molecular and physiological approaches to maize improvement for drought tolerance J. Exp. Bot., January 1, 2002; 53(366): 13 - 25. [Abstract] [Full Text] [PDF]

				M. P. Reynolds, M. van Ginkel, and J.-M. Ribaut Avenues for genetic modification of radiation use efficiency in wheat J. Exp. Bot., February 1, 2000; 51(90001): 459 - 473. [Abstract] [Full Text]

				J.E. Specht, D.J. Hume, and S.V. Kumudini Soybean Yield Potential--A Genetic and Physiological Perspective Crop Sci., November 1, 1999; 39(6): 1560 - 1570. [Abstract] [Full Text]

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