|An overview of APSIM, a model designed for farming systems simulation|
BA Keating, PS Carberry, GL Hammer, ME Probert, MJ Robertson, ...
European journal of agronomy 18 (3-4), 267-288, 2003
|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
|APSIM: a novel software system for model development, model testing and simulation in agricultural systems research|
RL McCown, GL Hammer, JNG Hargreaves, DP Holzworth, DM Freebairn
Agricultural systems 50 (3), 255-271, 1996
|Development of a generic crop model template in the cropping system model APSIM|
E Wang, MJ Robertson, GL Hammer, PS Carberry, D Holzworth, ...
European journal of Agronomy 18 (1-2), 121-140, 2002
|The value of skill in seasonal climate forecasting to wheat crop management in a region with high climatic variability|
GL Hammer, DP Holzworth, R Stone
Australian Journal of Agricultural Research 47 (5), 717-737, 1996
|Agricultural production systems modelling and software: current status and future prospects|
DP Holzworth, V Snow, S Janssen, IN Athanasiadis, M Donatelli, ...
Environmental Modelling & Software 72, 276-286, 2015
|APSIM Next Generation: Overcoming challenges in modernising a farming systems model|
D Holzworth, NI Huth, J Fainges, H Brown, E Zurcher, R Cichota, S Verrall, ...
Environmental Modelling & Software 103, 43-51, 2018
|Re-inventing model-based decision support with Australian dryland farmers. 4. Yield ProphetŪ helps farmers monitor and manage crops in a variable climate|
Z Hochman, H Van Rees, PS Carberry, JR Hunt, RL McCown, ...
Crop and Pasture Science 60 (11), 1057-1070, 2009
|Infusing the use of seasonal climate forecasting into crop management practice in North East Australia using discussion support software|
RA Nelson, DP Holzworth, GL Hammer, PT Hayman
Agricultural Systems 74 (3), 393-414, 2002
|Reprint of “Quantifying yield gaps in rainfed cropping systems: A case study of wheat in Australia”|
Z Hochman, D Gobbett, D Holzworth, T McClelland, H van Rees, ...
Field Crops Research 143, 65-75, 2013
|Potential to improve on-farm wheat yield and WUE in Australia|
Z Hochman, D Holzworth, JR Hunt
Crop and Pasture Science 60 (8), 708-716, 2009
|Plant modelling framework: software for building and running crop models on the APSIM platform|
HE Brown, NI Huth, DP Holzworth, EI Teixeira, RF Zyskowski, ...
Environmental Modelling & Software 62, 385-398, 2014
|The Common Modelling Protocol: A hierarchical framework for simulation of agricultural and environmental systems|
AD Moore, DP Holzworth, NI Herrmann, NI Huth, MJ Robertson
Agricultural Systems 95 (1-3), 37-48, 2007
|Modelling the seasonal and geographical pattern of pasture production in New Zealand|
FY Li, VO Snow, DP Holzworth
New Zealand Journal of Agricultural Research 54 (4), 331-352, 2011
|Scope for improved eco-efficiency varies among diverse cropping systems|
PS Carberry, W Liang, S Twomlow, DP Holzworth, JP Dimes, ...
Proceedings of the National Academy of Sciences 110 (21), 8381-8386, 2013
|APSIM: an agricultural production system simulation model for operational research|
RL McCown, GL Hammer, JNG Hargreaves, D Holzworth, NI Huth
Mathematics and computers in simulation 39 (3-4), 225-231, 1995
|Leading farmers in South East Australia have closed the exploitable wheat yield gap: prospects for further improvement|
H van Rees, T McClelland, Z Hochman, P Carberry, J Hunt, N Huth, ...
Field Crops Research 164, 1-11, 2014
|Landscapes Toolkit: an integrated modelling framework to assist stakeholders in exploring options for sustainable landscape development|
IC Bohnet, PC Roebeling, KJ Williams, D Holzworth, ME van Grieken, ...
Landscape Ecology 26, 1179-1198, 2011
|Simplifying environmental model reuse|
DP Holzworth, NI Huth, PG de Voil
Environmental Modelling & Software 25 (2), 269-275, 2010
|Seasonal climate forecasts provide more definitive and accurate crop yield predictions|
JN Brown, Z Hochman, D Holzworth, H Horan
Agricultural and forest meteorology 260, 247-254, 2018