Alastair Doherty
Alastair Doherty
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Cited by
Cited by
APSIM–evolution towards a new generation of agricultural systems simulation
DP Holzworth, NI Huth, PG deVoil, EJ Zurcher, NI Herrmann, G McLean, ...
Environmental Modelling & Software 62, 327-350, 2014
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
Quantifying impacts of enhancing photosynthesis on crop yield
A Wu, GL Hammer, A Doherty, S von Caemmerer, GD Farquhar
Nature plants 5 (4), 380-388, 2019
Crop design for specific adaptation in variable dryland production environments
GL Hammer, G McLean, S Chapman, B Zheng, A Doherty, MT Harrison, ...
Crop and Pasture Science 65 (7), 614-626, 2014
Designing crops for adaptation to the drought and high‐temperature risks anticipated in future climates
GL Hammer, G McLean, E van Oosterom, S Chapman, B Zheng, A Wu, ...
Crop Science 60 (2), 605-621, 2020
Spatial impact of projected changes in rainfall and temperature on wheat yields in Australia
A Potgieter, H Meinke, A Doherty, VO Sadras, G Hammer, S Crimp, ...
Climatic Change 117, 163-179, 2013
A simple regional-scale model for forecasting sorghum yield across North-Eastern Australia
AB Potgieter, GL Hammer, A Doherty, P De Voil
Agricultural and Forest Meteorology 132 (1-2), 143-153, 2005
The APSIM-wheat module (7.5 R3008)
B Zheng, K Chenu, A Doherty, S Chapman
Agricultural Production Systems Simulator (APSIM) Initiative 615, 2014
Simulating daily field crop canopy photosynthesis: an integrated software package
A Wu, A Doherty, GD Farquhar, GL Hammer
Functional Plant Biology 45 (3), 362-377, 2017
On the dynamic determinants of reproductive failure under drought in maize
CD Messina, GL Hammer, G McLean, M Cooper, EJ van Oosterom, ...
in silico Plants 1 (1), diz003, 2019
Analysis and modelling of the effects of water stress on maize growth and yield in dryland conditions
Y Song, C Birch, S Qu, A Doherty, J Hanan
Plant Production Science 13 (2), 199-208, 2010
Oz-wheat: a regional-scale crop yield simulation model for Australian wheat
AB Potgieter, GL Hammer
Queensland Department of Primary Industries and Fisheries, 2006
Reliability of production of quick to medium maturity maize in areas of variable rainfall in north-east Australia
CJ Birch, K Stephen, G McLean, A Doherty, GL Hammer, MJ Robertson
Australian Journal of Experimental Agriculture 48 (3), 326-334, 2008
Sorghum crop modeling and its utility in agronomy and breeding
G Hammer, G McLean, A Doherty, E van Oosterom, S Chapman
Sorghum: A State of the Art and Future Perspetives 58, 215-239, 2019
Genetic variation in potential kernel size affects kernel growth and yield of sorghum
Z Yang, EJ van Oosterom, DR Jordan, A Doherty, GL Hammer
Crop Science 50 (2), 685-695, 2010
Quantification of wheat water-use efficiency at the shire-level in Australia
A Doherty, VO Sadras, D Rodriguez, A Potgieter
Crop and Pasture Science 61 (1), 1-11, 2009
APSIM next generation: the final frontier
D Holzworth, NI Huth, J Fainges, NI Herrmann, E Zurcher, H Brown, ...
Proceedings of the 21st International Congress on Modelling and Simulation …, 2015
StressMaster: a web application for dynamic modelling of the environment to assist in crop improvement for drought adaptation
K Chenu, A Doherty, GJ Rebetzke, SC Chapman
Proceedings of the 7th International Conference on Functional-Structural …, 2013
The impact of climate and technology on Australian grain yields.
D Stephens, A Potgieter, A Doherty, P Davis, M Nunweek
Climate change severely affects wheat yield trends across southern Australia, whereas sorghum yield trends surge
D Stephens, A Potgieter, A Doherty, P Davis, M Nunweek
Australian Society of Agronomy, 2012
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