TY - GEN
T1 - Modelling for the complex issue of groundwater management
AU - Jakeman, Anthony
AU - Kelly, Rebecca
AU - Ticehurst, Jenifer
AU - Blakers, Rachel
AU - Croke, Barry
AU - Curtis, Allan
AU - Fu, Baihua
AU - Gardner, Alex
AU - Guillaume, Joseph
AU - Hartley, Madeleine
AU - Holley, Cameron
AU - Hutchings, Patrick
AU - Pannell, David
AU - Powell, Sue
AU - Ross, Andrew
AU - Sharp, Emily
AU - Sinclair, Darren
AU - Wilson, Alison
PY - 2012
Y1 - 2012
N2 - Groundwater management is a complex issue that in many instances has all the features of messy or wicked problems. These are defined by there being multiple stakeholders and decision makers with competing and conflicting goals, and where the systems of interest are complex - being social, economic, and ecological - and are subject to a range of uncertainties caused by limited data, information and knowledge. Modellers can nevertheless play a key role in resolving and providing support for framing the issues of concern, clarifying decision options for managing environmental issues, and appropriately engaging with identified stakeholders. A key policy issue in Australia is how to deal with the over-allocation of groundwater in many catchments. In this paper we present the elements of an integrated approach to support the ongoing resolution of the over-allocation problem. With a collaborative multi-disciplinary research team we have developed an integrated model to identify the social, economic and environmental trade-offs in the Namoi catchment in Australia under various water policy decisions and climate variations. The model allows the exploration of adaptation mechanisms, identified by our social science team, that water users are likely to accept in order to minimise the impacts of climate change and reductions in their water allocation.
AB - Groundwater management is a complex issue that in many instances has all the features of messy or wicked problems. These are defined by there being multiple stakeholders and decision makers with competing and conflicting goals, and where the systems of interest are complex - being social, economic, and ecological - and are subject to a range of uncertainties caused by limited data, information and knowledge. Modellers can nevertheless play a key role in resolving and providing support for framing the issues of concern, clarifying decision options for managing environmental issues, and appropriately engaging with identified stakeholders. A key policy issue in Australia is how to deal with the over-allocation of groundwater in many catchments. In this paper we present the elements of an integrated approach to support the ongoing resolution of the over-allocation problem. With a collaborative multi-disciplinary research team we have developed an integrated model to identify the social, economic and environmental trade-offs in the Namoi catchment in Australia under various water policy decisions and climate variations. The model allows the exploration of adaptation mechanisms, identified by our social science team, that water users are likely to accept in order to minimise the impacts of climate change and reductions in their water allocation.
KW - Groundwater management
KW - Integrated modelling
UR - http://www.scopus.com/inward/record.url?scp=84867700447&partnerID=8YFLogxK
M3 - Conference contribution
SN - 9789898565204
T3 - SIMULTECH 2012 - Proceedings of the 2nd International Conference on Simulation and Modeling Methodologies, Technologies and Applications
SP - IS25-IS35
BT - SIMULTECH 2012 - Proceedings of the 2nd International Conference on Simulation and Modeling Methodologies, Technologies and Applications
T2 - 2nd International Conference on Simulation and Modeling Methodologies, Technologies and Applications, SIMULTECH 2012
Y2 - 28 July 2012 through 31 July 2012
ER -