Mark Cooper
Mark Cooper
Professor of Prediction Based Crop Improvement
Verified email at - Homepage
Cited by
Cited by
Development of drought-resistant cultivars using physiomorphological traits in rice
S Fukai, M Cooper
Field Crops Research 40 (2), 67-86, 1995
Can changes in canopy and/or root system architecture explain historical maize yield trends in the US corn belt?
GL Hammer, Z Dong, G McLean, A Doherty, C Messina, J Schussler, ...
Crop Science 49 (1), 299-312, 2009
Improving drought tolerance in maize: a view from industry
H Campos, M Cooper, JE Habben, GO Edmeades, JR Schussler
Field crops research 90 (1), 19-34, 2004
Long-term selection in a commercial hybrid maize breeding program
DN Duvick, JSC Smith, M Cooper
Plant breeding reviews 24 (2), 109-152, 2004
Relationships among analytical methods used to study genotypic variation and genotype-by-environment interaction in plant breeding multi-environment experiments
M Cooper, IH DeLacy
Theoretical and Applied Genetics 88, 561-572, 1994
Models for navigating biological complexity in breeding improved crop plants
G Hammer, M Cooper, F Tardieu, S Welch, B Walsh, F van Eeuwijk, ...
Trends in plant science 11 (12), 587-593, 2006
Breeding drought-tolerant maize hybrids for the US corn-belt: discovery to product
M Cooper, C Gho, R Leafgren, T Tang, C Messina
Journal of Experimental Botany 65 (21), 6191-6204, 2014
Analysis of multi-environment trials–an historical perspective
IH DeLacy, KE Basford, M Cooper, JK Bull, CG McLaren
Plant adaptation and crop improvement 39124, 39-124, 1996
Genotype× environment interactions and some considerations of their implications for wheat breeding in Australia
KE Basford, M Cooper
Australian Journal of Agricultural Research 49 (2), 153-174, 1998
Predicting the future of plant breeding: complementing empirical evaluation with genetic prediction
M Cooper, CD Messina, D Podlich, LR Totir, A Baumgarten, ...
Crop and Pasture Science 65 (4), 311-336, 2014
Leaf water potential and osmotic adjustment as physiological traits to improve drought tolerance in rice
B Jongdee, S Fukai, M Cooper
Field Crops Research 76 (2-3), 153-163, 2002
The role of physiological understanding in plant breeding; from a breeding perspective
P Jackson, M Robertson, M Cooper, G Hammer
Field Crops Research 49 (1), 11-37, 1996
Environment characterization as an aid to wheat improvement: interpreting genotype–environment interactions by modelling water-deficit patterns in North-Eastern Australia
K Chenu, M Cooper, GL Hammer, KL Mathews, MF Dreccer, ...
Journal of experimental botany 62 (6), 1743-1755, 2011
Breeding for low input conditions and consequences for participatory plant breeding examples from tropical maize and wheat
M Bänziger, M Cooper
Euphytica 122, 503-519, 2001
Evaluating plant breeding strategies by simulating gene action and dryland environment effects
S Chapman, M Cooper, D Podlich, G Hammer
Agronomy Journal 95 (1), 99-113, 2003
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 …
MP Boer, D Wright, L Feng, DW Podlich, L Luo, M Cooper, ...
Genetics 177 (3), 1801-1813, 2007
Screening for drought resistance in rainfed lowland rice
S Fukai, G Pantuwan, B Jongdee, M Cooper
Field Crops Research 64 (1-2), 61-74, 1999
Accelerating crop genetic gains with genomic selection
KP Voss-Fels, M Cooper, BJ Hayes
Theoretical and Applied Genetics 132, 669-686, 2019
Yield response of rice (Oryza sativa L.) genotypes to different types of drought under rainfed lowlands: Part 1. Grain yield and yield components
G Pantuwan, S Fukai, M Cooper, S Rajatasereekul, JC O’Toole
Field Crops Research 73 (2-3), 153-168, 2002
Plant adaptation and crop improvement
M Cooper, GL Hammer
IRRI, 1996
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