Large root systems: are they useful in adapting wheat to dry environments? JA Palta, X Chen, SP Milroy, GJ Rebetzke, MF Dreccer, M Watt Functional Plant Biology 38 (5), 347-354, 2011 | 351 | 2011 |
Pheno-copter: a low-altitude, autonomous remote-sensing robotic helicopter for high-throughput field-based phenotyping SC Chapman, T Merz, A Chan, P Jackway, S Hrabar, MF Dreccer, ... Agronomy 4 (2), 279-301, 2014 | 339 | 2014 |
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 | 328 | 2011 |
Plant adaptation to climate change—opportunities and priorities in breeding SC Chapman, S Chakraborty, MF Dreccer, SM Howden Crop and Pasture Science 63 (3), 251-268, 2012 | 323 | 2012 |
Genetic improvement in wheat yield and associated traits. A re‐examination of previous results and the latest trends DF Calderini, MF Dreccer, GA Slafer Plant breeding 114 (2), 108-112, 1995 | 316 | 1995 |
Grain number and grain weight in wheat lines contrasting for stem water soluble carbohydrate concentration MF Dreccer, AF van Herwaarden, SC Chapman Field Crops Research 112 (1), 43-54, 2009 | 240 | 2009 |
Comparative response of wheat and oilseed rape to nitrogen supply: absorption and utilisation efficiency of radiation and nitrogen during the reproductive stages determining yield MF Dreccer, A Schapendonk, GA Slafer, R Rabbinge Plant and soil 220 (1), 189-205, 2000 | 226 | 2000 |
Consequences of breeding on biomass, radiation interception and radiation-use efficiency in wheat DF Calderini, MF Dreccer, GA Slafer Field Crops Research 52 (3), 271-281, 1997 | 207 | 1997 |
Dynamics of vertical leaf nitrogen distribution in a vegetative wheat canopy. Impact on canopy photosynthesis MF Dreccer, M Van Oijen, A Schapendonk, CS Pot, R Rabbinge Annals of Botany 86 (4), 821-831, 2000 | 179 | 2000 |
High night temperatures during grain number determination reduce wheat and barley grain yield: a field study GA García, MF Dreccer, DJ Miralles, RA Serrago Global change biology 21 (11), 4153-4164, 2015 | 165 | 2015 |
Comparison of sensitive stages of wheat, barley, canola, chickpea and field pea to temperature and water stress across Australia MF Dreccer, J Fainges, J Whish, FC Ogbonnaya, VO Sadras Agricultural and Forest Meteorology 248, 275-294, 2018 | 154 | 2018 |
Developmental and growth controls of tillering and water-soluble carbohydrate accumulation in contrasting wheat (Triticum aestivum L.) genotypes: can we dissect … MF Dreccer, SC Chapman, AR Rattey, J Neal, Y Song, JJT Christopher, ... Journal of Experimental Botany 64 (1), 143-160, 2013 | 120 | 2013 |
Producción de granos: bases funcionales para su manejo EH Satorre, RL Benech-Arnold, GA Slafer, ME Otegui, R Savin, ... Buenos Aires: Editorial Facultad de Agronomía,, 2003 | 120 | 2003 |
CIMMYT-selected derived synthetic bread wheats for rainfed environments: yield evaluation in Mexico and Australia MF Dreccer, MG Borgognone, FC Ogbonnaya, RM Trethowan, B Winter Field Crops Research 100 (2-3), 218-228, 2007 | 117 | 2007 |
Post-anthesis warm nights reduce grain weight in field-grown wheat and barley GA García, RA Serrago, MF Dreccer, DJ Miralles Field Crops Research 195, 50-59, 2016 | 110 | 2016 |
Source-sink ratio in barley (Hordeum vulgare L.) during grain filling: effects on senescence and grain protein concentration MF Dreccer, C Grashoff, R Rabbinge Field Crops Research 49 (2-3), 269-277, 1997 | 98 | 1997 |
Adaptation of wheat, barley, canola, field pea and chickpea to the thermal environments of Australia V Sadras, MF Dreccer Crop and Pasture Science 66 (11), 1137-1150, 2015 | 81 | 2015 |
More fertile florets and grains per spike can be achieved at higher temperature in wheat lines with high spike biomass and sugar content at booting MF Dreccer, KB Wockner, JA Palta, CL McIntyre, MG Borgognone, ... Functional Plant Biology 41 (5), 482-495, 2014 | 71 | 2014 |
Resilience achieved via multiple compensating subsystems: The immediate impacts of COVID-19 control measures on the agri-food systems of Australia and New Zealand V Snow, D Rodriguez, R Dynes, W Kaye-Blake, T Mallawaarachchi, ... Agricultural Systems 187, 103025, 2021 | 65 | 2021 |
Preanthesis shading effects on the number of grains of three bread wheat cultivars of different potential number of grains GA Slafer, DF Calderini, DJ Miralles, MF Dreccer Field Crops Research 36 (1), 31-39, 1994 | 60 | 1994 |