An assessment of the climate change impacts on groundwater recharge at a continental scale using a probabilistic approach with an ensemble of GCMs (original) (raw)
References
Ali R, McFarlane D, Varma S, Dawes W, Emelyanova I, Hodgson G (2012) Potential climate change impacts on the water balance of regional unconfined aquifer systems in South-Western Australia. Hydrol Earth Syst Sci Discuss 9:6367–6408. doi:doi:10.5194/hessd-9-6367-2012 Article Google Scholar
Allen DM, Cannon AJ, Toews MW, Scibek J (2010) Variability in simulated recharge using different GCMs. Water Resour Res 46:W00F03 Article Google Scholar
Barron OV, Crosbie RS, Charles SP, Dawes WR, Ali R, Evans WR, Cresswell RG, Pollock D, Hodgson G, Currie D, Mpelasoka FS, Pickett T, Aryal S, Donn M, Wurcker B (2011) Climate change impact on groundwater resources in Australia. Waterlines Report No 67, National Water Commission, Canberra
BRS (2008) Integrated vegetation cover 2008. Bureau of Rural Sciences, Canberra Google Scholar
Chiew FHS, Teng J, Vaze J, Post DA, Perraud JM, Kirono DGC, Viney NR (2009) Estimating climate change impact on runoff across southeast Australia: method, results, and implications of the modeling method. Water Resour Res 45:W10414 Article Google Scholar
Crosbie RS, Binning P, Kalma JD (2005) A time series approach to inferring groundwater recharge using the water table fluctuation method. Water Resour Res 41(1):W01008 Article Google Scholar
Crosbie RS, Dawes WR, Charles SP, Mpelasoka FS, Aryal S, Barron O, Summerell GK (2011) Differences in future recharge estimates due to GCMs, downscaling methods and hydrological models. Geophys Res Lett 38(11):L11406 Article Google Scholar
Crosbie RS, Jolly ID, Leaney FW, Petheram C (2010a) Can the dataset of field based recharge estimates in Australia be used to predict recharge in data-poor areas? Hydrol Earth Syst Sci 14(10):2023–2038 Article Google Scholar
Crosbie RS, McCallum JL, Walker GR, Chiew FHS (2010b) Modelling the climate change impact on groundwater recharge in the Murray-Darling Basin. Hydrogeol J 18(7):1639–1656 Article Google Scholar
Crosbie RS, McCallum JL, Walker GR, Chiew FHS (2012a) Episodic recharge and climate change in the Murray-Darling Basin, Australia. Hydrogeol J 20(2):245–261. doi:10.1007/s10040-011-0804-4 Article Google Scholar
Crosbie RS, Pollock DW, Mpelasoka FS, Barron OV, Charles SP, Donn MJ (2012b) Changes in Köppen-Geiger climate types under a future climate for Australia: hydrological implications. Hydrol Earth Syst Sci Discuss 9(6):7415–7440. doi:10.5194/hessd-9-7415-2012 Article Google Scholar
CSIRO (2009a) Water in northern Australia: Summary of reports to the Australian Government from the CSIRO Northern Australia Sustainable Yields Project. CSIRO: Water for a Healthy Country National Research Flagship, Canberra
CSIRO (2009b) Water yields and demands in south-west Western Australia: Summary of a report to the Australian Government from the CSIRO SWSY Project. CSIRO: Water for a Healthy Country National Research Flagship
Dawes W, Zhang L, Dyce P (1998) WAVES V3.5 User Manual, 35th edn. CSIRO Land and Water, Canberra Google Scholar
Döll P (2009) Vulnerability to the impact of climate change on renewable groundwater resources: a global-scale assessment. Environ Res Lett 4(3):35006–35006 Article Google Scholar
Eckhardt K, Ulbrich U (2003) Potential impacts of climate change on groundwater recharge and streamflow in a central European low mountain range. J Hydrol 236:244–252 Article Google Scholar
Green TR, Bates BC, Charles SP, Fleming PM (2007) Physically based simulation of potential effects of carbon dioxide-altered climates on groundwater recharge. Vadose Zone J 6(3):597–609 Article Google Scholar
Green TR, Taniguchi M, Kooi H, Gurdak JJ, Allen DM, Hiscock KM, Treidel H, Aureli A (2011) Beneath the surface of global change: impacts of climate change on groundwater. J Hydrol 405(3–4):532–560 Article Google Scholar
Gulden LE, Rosero E, Yang Z-L, Rodell M, Jackson CS, Niu G-Y, Yeh PJF, Famiglietti J (2007) Improving land-surface model hydrology: is an explicit aquifer model better than a deeper soil profile? Geophys Res Lett 34(9):L09402. doi:10.1029/2007gl029804 Article Google Scholar
Holman IP, Tascone D, Hess TM (2009) A comparison of stochastic and deterministic downscaling methods for modelling potential groundwater recharge under climate change in East Anglia, UK: implications for groundwater resource management. Hydrogeol J 17(7):1629–1641 Article Google Scholar
IPCC (2007) Climate Change 2007: The physical science basis. contribution of working group 1 to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge Google Scholar
Isbell RF (2002) The Australian soil classification. CSIRO Publishing, Collingwood Google Scholar
Jackson CR, Meister R, Prudhomme C (2011) Modelling the effects of climate change and its uncertainty on UK Chalk groundwater resources from an ensemble of global climate model projections. J Hydrol 399(1–2):12–28 Article Google Scholar
Jeffrey SJ, Carter JO, Moodie KB, Beswick AR (2001) Using spatial interpolation to construct a comprehensive archive of Australian climate data. Environ Model Softw 16(4):309–330 Article Google Scholar
Johnston RM, Barry SJ, Bleys E, Bui EN, Moran CJ, Simon DAP, Carlile P, McKenzie NJ, Henderson BL, Chapman G, Imhoff M, Maschmedt D, Howe D, Grose C, Schoknecht N, Powell B, Grundy M (2003) ASRIS: the database. Aust J Soil Res 41(6):1021–1036 Article Google Scholar
Liang X, Xie Z, Huang M (2003) A new parameterization for surface and groundwater interactions and its impact on water budgets with the variable infiltration capacity (VIC) land surface model. J Geophys Res 108(D16):8613. doi:10.1029/2002jd003090 Article Google Scholar
McCallum JL, Crosbie RS, Walker GR, Dawes WR (2010) Impacts of climate change on groundwater: a sensitivity analysis of recharge. Hydrogeol J 18(7):1625–1638 Article Google Scholar
Meehl GA, Covey C, Delworth T, Latif M, McAvaney B, Mitchell JFB, Stouffer RJ, Taylor KE (2007) The WCRP CMIP3 multimodel dataset - A new era in climate change research. B Am Meteorol Soc 88(9):1383–1394 Article Google Scholar
Nakicenovic N, Swart R (2000) Special Report on Emission Scenarios. Intergovernmental Panel on Climate Change
Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) (2007) Contribution of working group II to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge Google Scholar
Post DA, Chiew FHS, Teng J, Viney NR, Ling FLN, Harrington G, Crosbie RS, Graham B, Marvanek S, McLoughlin R (2011) A robust methodology for conducting large-scale assessments of current and future water availability and use: a case study in Tasmania, Australia. J Hydrol 412–413:233–245. doi:10.1016/j.jhydrol.2011.02.011 Google Scholar
Serrat-Capdevila A, Valdés JB, Pérez JG, Baird K, Mata LJ, Maddock T (2007) Modeling climate change impacts - and uncertainty - on the hydrology of a riparian system: the San Pedro Basin (Arizona/Sonora). J Hydrol 347(1–2):48–66 Article Google Scholar
Tebaldi C, Knutti R (2007) The use of the multi-model ensemble in probabilistic climate projections. Philos Trans R Soc A-Math Phys Eng Sci 365(1857):2053–2075. doi:10.1098/rsta.2007.2076 Article Google Scholar
Toews MW, Allen DM (2009) Simulated response of groundwater to predicted recharge in a semi-arid region using a scenario of modelled climate change. Environ Res Lett 4(3):35003–35003 Article Google Scholar
van Roosmalen L, Sonnenborg TO, Jensen KH (2009) Impact of climate and land use change on the hydrology of a large-scale agricultural catchment. Water Resour Res 45:A15–A15 Google Scholar
Wood C (2011) Improved estimates of groundwater recharge in South East South Australia. Government of South Australia, through Department for Water, Adelaide
Zhang L, Dawes W (1998) WAVES - An integrated energy and water balance model. CSIRO Land and Water, Canberra Google Scholar