|
2008 Book Chapter Integrating Breeding Tools to Generate Information for Efficient Breeding: Past, Present, and FutureCooper, M., Smith, O. S., Merrill, R. E., Arthur, L., Podlich, D. W. and Löffler, C. M. (2008). Integrating Breeding Tools to Generate Information for Efficient Breeding: Past, Present, and Future. Plant Breeding: The Arnel R. Hallauer International Symposium. (pp. 141-154) Blackwell Publishing. doi: 10.1002/9780470752708.ch10 |
|
2008 Journal Article Genotypic variation for drought stress response traits in soybean. II. Inter-relations between epidermal conductance, osmotic potential, relative water content, and plant survivalJames, A. T., Lawn, R. J. and Cooper, M. (2008). Genotypic variation for drought stress response traits in soybean. II. Inter-relations between epidermal conductance, osmotic potential, relative water content, and plant survival. Australian Journal of Agricultural Research, 59 (7), 670-678. doi: 10.1071/AR07160 |
|
2008 Journal Article Genotypic variation for drought stress response traits in soybean. III. Broad-sense heritability of epidermal conductance, osmotic potential, and relative water contentJames, A. T., Lawn, R. J. and Cooper, M. (2008). Genotypic variation for drought stress response traits in soybean. III. Broad-sense heritability of epidermal conductance, osmotic potential, and relative water content. Australian Journal of Agricultural Research, 59 (7), 679-689. doi: 10.1071/AR07161 |
|
2008 Journal Article Genotypic variation for drought stress response traits in soybean. I. Variation in soybean and wild Glycine spp. for epidermal conductance, osmotic potential, and relative water contentJames, A. T., Lawn, R. J. and Cooper, M. (2008). Genotypic variation for drought stress response traits in soybean. I. Variation in soybean and wild Glycine spp. for epidermal conductance, osmotic potential, and relative water content. Australian Journal of Agricultural Research, 59 (7), 656-669. doi: 10.1071/AR07159 |
|
2007 Journal Article A mixed-model quantitative trait loci (QTL) analysis for multiple-environment trial data using environmental covariables for QTL-by-environment interactions, with an example in maizeBoer, Martin P., Wright, Deanne, Feng, Lizhi, Podlich, Dean W., Luo, Lang, Cooper, Mark and van Eeuwijk, Fred A. (2007). A mixed-model quantitative trait loci (QTL) analysis for multiple-environment trial data using environmental covariables for QTL-by-environment interactions, with an example in maize. Genetics, 177 (3), 1801-1813. doi: 10.1534/genetics.107.071068 |
|
2007 Journal Article Global adaptation patterns of Australian and CIMMYT spring bread wheatMathews, K. L., Chapman, S. C., Trethowan, R., Pfeiffer, W., van Ginkel, M., Crossa, J., Payne, T., DeLacy, I., Fox, P. N. and Cooper, M. (2007). Global adaptation patterns of Australian and CIMMYT spring bread wheat. Theoretical And Applied Genetics, 115 (6), 819-835. doi: 10.1007/s00122-007-0611-4 |
|
2007 Journal Article Genotype-by-environment interactions for grain yield associated with water availability at flowering in rainfed lowland riceOuk, M., Basnayake, J., Tsubo, M., Fukai, S., Fischer, K. S., Kang, S., Men, S., Thun, V. and Cooper, M. (2007). Genotype-by-environment interactions for grain yield associated with water availability at flowering in rainfed lowland rice. Field Crops Research, 101 (2), 145-154. doi: 10.1016/j.fcr.2006.10.003 |
|
2007 Book Chapter Modeling QTL effects and MAS in plant breedingCooper, Mark, Podlich, Dean W. and Luo, Lang (2007). Modeling QTL effects and MAS in plant breeding. Genomics-Assisted Crop Improvement. (pp. 57-95) Dordrecht: Springer Netherlands. doi: 10.1007/978-1-4020-6295-7_4 |
|
2006 Journal Article Models for navigating biological complexity in breeding improved crop plantsHammer, G. L., Cooper, M., Tardieu, F., Welch, S., Walsh, B., van Eeuwijk, A., Chapman, S. C. and Podlich, D. (2006). Models for navigating biological complexity in breeding improved crop plants. Trends in Plant Science, 11 (12), 587-593. doi: 10.1016/j.tplants.2006.10.006 |
|
2006 Journal Article Use of drought response index for identification of drought tolerant genotypes in rainfed lowland riceOuk, Makara, Basnayake, J., Tsubo, M., Fukai, S., Fischer, K.S., Cooper, M. and Nesbitt, H. (2006). Use of drought response index for identification of drought tolerant genotypes in rainfed lowland rice. Field Crops Research, 99 (1), 48-58. doi: 10.1016/j.fcr.2006.03.003 |
|
2006 Journal Article Genetic diversity among maize hybrids widely grown in contrasting regional environments in the United States during the 1990sSmith, S., Loffler, C. and Cooper, M. (2006). Genetic diversity among maize hybrids widely grown in contrasting regional environments in the United States during the 1990s. Maydica, 51 (2), 233-242. |
|
2006 Book Chapter Integrating breeding tools to generate information for efficient breeding: past, present, and futureCooper, M., Smith, O.S., Merrill, R.E., Arthur, L., Podlich, D.W. and Loffler, C.M. (2006). Integrating breeding tools to generate information for efficient breeding: past, present, and future. Plant breeding: the Arnel R. Hallauer International Symposium. (pp. 141-154) edited by Kendall R. Lamkey and Michael Lee. Ames, IA, United States: Blackwell Publishing. doi: 10.1002/9780470752708.ch10 |
|
2006 Journal Article Use of drought response index for identification of drought tolerant genotypes in rainfed lowland riceOuk, M, Basnayake, J, Tsubo, M, Fukai, S, Fischer, KS, Cooper, M and Nesbitt, H (2006). Use of drought response index for identification of drought tolerant genotypes in rainfed lowland rice. Field Crops Research, 99 (1), 48-58. doi: 10.1016/j.fcr.2006.03.003 |
|
2006 Journal Article Temporal trends in SSR allele frequencies associated with long-term selection for yield of maizeFeng, L., Sebastian, S., Smith, S. and Cooper, M. (2006). Temporal trends in SSR allele frequencies associated with long-term selection for yield of maize. Maydica, 51 (2), 293-300. |
|
2006 Book Chapter Genotype-by-environment interactions under water-limited conditionsCooper, Mark, van Eeuwijk, Fred, Chapman, Scott C., Podlich, Dean W. and Loffler, Carlos (2006). Genotype-by-environment interactions under water-limited conditions. Drought Adaptation in Cereals. (pp. 51-96) edited by Jean-Marcel Ribaut. New York, NY, United States: Food Products Press. doi: 10.1201/9781003578338-5 |
|
2006 Journal Article Changes in drought tolerance in maize associated with fifty years of breeding for yield in the US corn beltCampos, H., Cooper, M., Edmeades, G. O., Loffler, C., Schussler, J. R. and Ibanez, M. (2006). Changes in drought tolerance in maize associated with fifty years of breeding for yield in the US corn belt. Maydica, 51 (2), 369-381. |
|
2005 Journal Article Gene-to-phenotype models and complex trait geneticsCooper, Mark, Podlich, Dean W. and Smith, Oscar S. (2005). Gene-to-phenotype models and complex trait genetics. Australian Journal of Agricultural Research, 56 (9), 895-918. doi: 10.1071/AR05154 |
|
2005 Journal Article Classification of maize environments using crop simulation and geographic information systemsLoffler, C.M., Wei, J., Fast, T., Gogerty, J., Langton, S., Bergman, M., Merrill, B. and Cooper, M. (2005). Classification of maize environments using crop simulation and geographic information systems. Crop Science, 45 (5), 1708-1716. doi: 10.2135/cropsci2004.0370 |
|
2005 Book Chapter Improving drought tolerance in maizeBarker, T., Campos, H., Cooper, M., Dolan, D., Edmeades, G., Habben, J., Schussler, J., Wright, D. and Zinselmeier, C. (2005). Improving drought tolerance in maize. Plant breeding reviews. (pp. 173-253) edited by Jules Janick. Hoboken, NJ, United States: John Wiley & Sons. doi: 10.1002/9780470650301.ch7 |
|
2005 Journal Article Comparison of identity by descent and identity by state for detecting genetic regions under selection in a sorghum pedigree breeding programJordan, D., Tao, Y. Z., Henzell, R. G., Godwin, I. D., Cooper, M. and McIntyre, C. L. (2005). Comparison of identity by descent and identity by state for detecting genetic regions under selection in a sorghum pedigree breeding program. Molecular Breeding, 14 (4), 441-454. doi: 10.1007/s11032-005-0901-y |
