This paper describes the output from the integration of a dynamic pasture resource development (DPRD) simulation model into a seasonal stochastic dynamic programming (SSDP) model. The combined modelling process was used to identify optimal tactical and strategic decision rules that achieve maximum economic yields from a grassland resource under climatic uncertainty on a sustainable basis. The model was calibrated based on the Cicerone farmlet experiment (Behrendt et al. 2013a)
In dryland agricultural systems, efficient farm management requires a degree of flexibility accordin...
We develop a bio-economic model that combines the process based grassland simulation model PROGRASS ...
Grazing systems in Europe increasingly have to meet environmental objectives, which influence manage...
This paper describes the output from the integration of a dynamic pasture resource development (DPRD...
There are significant challenges in managing the trade-offs between the production of pastures and g...
The integration of grassland dynamics, livestock production and economics is necessary to improve de...
The application of fertilisers to pastures in the high rainfall regions of southern Australia have c...
Grazing enterprises on the Central Tablelands of New South Wales employ a range of different strateg...
This study reports on the development of a stochastic dynamic model to simulate a pastoral sheep ent...
Commencing in 2009, Meat and Livestock Australia has funded the Northern Grazing Systems Project (NG...
Decision support tools (DST) based on models of grazing systems allow the evaluation of changes in e...
Context: The large inter-annual and decadal rainfall variability that occurs in northern Australian ...
Intensification of production in the water-limited grasslands of temperate Australia has increased t...
Extreme year-to-year rainfall variability, long periods of drought, and temporal variability in fora...
Annual production on Canterbury light land sheep farms fluctuates markedly. A major reason for this ...
In dryland agricultural systems, efficient farm management requires a degree of flexibility accordin...
We develop a bio-economic model that combines the process based grassland simulation model PROGRASS ...
Grazing systems in Europe increasingly have to meet environmental objectives, which influence manage...
This paper describes the output from the integration of a dynamic pasture resource development (DPRD...
There are significant challenges in managing the trade-offs between the production of pastures and g...
The integration of grassland dynamics, livestock production and economics is necessary to improve de...
The application of fertilisers to pastures in the high rainfall regions of southern Australia have c...
Grazing enterprises on the Central Tablelands of New South Wales employ a range of different strateg...
This study reports on the development of a stochastic dynamic model to simulate a pastoral sheep ent...
Commencing in 2009, Meat and Livestock Australia has funded the Northern Grazing Systems Project (NG...
Decision support tools (DST) based on models of grazing systems allow the evaluation of changes in e...
Context: The large inter-annual and decadal rainfall variability that occurs in northern Australian ...
Intensification of production in the water-limited grasslands of temperate Australia has increased t...
Extreme year-to-year rainfall variability, long periods of drought, and temporal variability in fora...
Annual production on Canterbury light land sheep farms fluctuates markedly. A major reason for this ...
In dryland agricultural systems, efficient farm management requires a degree of flexibility accordin...
We develop a bio-economic model that combines the process based grassland simulation model PROGRASS ...
Grazing systems in Europe increasingly have to meet environmental objectives, which influence manage...