Dealing with salinity in Wheatbelt Valleys - Department of Water

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Bowler, J.M. (1976). Aridity in Australia: Age Origins and Expression in Aeolian Landforms and Sediments, Earth- Science Reviews, 12: 279–310. George and Coleman George, R.J., Cochrane, D.L. & Bennett, D.L. (1994). Groundwater systems responsible for dryland salinity in the Lake Towerrinning catchment, Western Australia. In: Proceedings Water Down Under, IAH and IEA Conference, Adelaide, 355–360. Bowler, J.M & Teller, J.T. (1986). Quaternary evaporites and hydrological change, Lake Tyrrell, north-west Victoria. Australian Journal Earth Science, 33: 43–63 George R.J., McFarlane D.J. & Lewis M.F. (1991). A review Bowler, J.M, Hope, G.S., Jennings, J.N., Singh, G. & Walker, D. (1976). Late Quaternary climates of Australia and New Guinea. Quaternary Research, 6: 359–394. Bowman, S. & Ruprecht, J. (2000). Blackwood River Catchment Flood Risk Study. Water and River Commission, Report SWH 29, 36 pp. Bromage, N.R. & Shepherd, C.J. (1990). Fish, their requirements and site evaluation. In: Shepherd, C.J., Bromage, N.R. (Ed) Intensive Fish Fanning. BSP Professional Books, Oxford, 17–49. Clarke, C.J., George, R.J., Bennett, D.L. & Bell, R.W. (2000). Geologically related variations in saturated hydraulic conductivity in the regolith of the Western Wheatbelt of Western Australia and its implications for the development of dryland salinity. Australian Journal of Soil Research, 38: 555–568. Coles, N.A., George, R.J. & Bathgate, A.D. (1999). An assessment of the efficacy of deep drains constructed in the Wheatbelt of Western Australia. Bulletin 4391, Department of Agriculture, Perth, 28 pp. De Dekker, P. (1988). Biological and sedimentary facies of Australian salt lakes. Palaeogeography, Palaeoclimatology and Palaeoecoloy, 62: 237–270. Ferdowsian, R., George, R., Lewis, F., McFarlane, D., Short, R. & Speed, R. (1996). The extent of dryland salinity in Western Australia. In: Proceedings 4th National Conference and Workshop on the Productive Use of Saline Lands, Albany, Western Australia Promoco Conventions Pty Ltd: 89–97. George, R.J. (1990). The 1989 saltland survey. Journal Agriculture Western Australia (4th Series), 31: 159–166. George, R.J. (1992a). Hydraulic properties of groundwater systems in the saprolite and sediments of the Wheatbelt, Western Australia. Journal of Hydrology, 130: 251–278. George, R.J. (1992b). Estimating and modifying the effects of agricultural development on the groundwater balance of large wheatbelt catchments. Applied Hydrogeology, 1: 41– 54 George, R.J. (1999). Evaluation of airborne geophysics for catchment management, Toolibin catchment - Western Australia, 95 pp (www.ndsp.gov.au). – 19 – of recharge and implications for management in saline agricultural catchments, Western Australia. In: Proceedings, International Hydrology and Water Resources Symposium, Perth, 193–197. George, R.J., McFarlane, D.J. & Speed, R.S. (1995). The consequences of a changing hydrological environment for native vegetation in south-western Australia. In: D.A. Saunders, J.L. Craig & E.M. Mattiske (Editors), Nature Conservation 4 – The Role of Networks, Surrey-Beatty, Sydney, 9–21 George, R.J., McFarlane, D.J. & Nulsen, R.A. (1997). Salinity threatens the viability of agriculture and ecosystems in Western Australia. Hydrogeology Journal, 5(1): 6–21. George, R.J., Nulsen, R.A., Ferdowsian, R. & Raper, P. (1999). Interactions between trees and groundwaters in recharge and discharge areas – A survey of Western Australian sites. Agricultural Water Management, 39: 91– 113 George, R.J. & Dogramaci, S. (2000)., Toolibin- A life and death struggle for the last freshwater Wheatbelt lake. In: Proceedings Hydro2000 Conference, Perth, Western Australia. George, R.J., Clarke, C.J. & Hatton, T.J. (2001). Computer modelled groundwater response to recharge management for dryland salinity control in Western Australia. Environmental Monitoring and Modelling, in press. Greenwood, E.A.N. & Beresford, J.D. (1980). Evaporation from vegetation in landscapes developing secondary salinity using the ventilated chamber technique; II Evaporation from Atriplex plantations over shallow saline watertable. Journal of Hydrology, 45: 313–319 Hingston, F.J. & Gailitis V. (1976). The geographic variation of salt precipitated over Western Australia. Australian Journal of Soil Research, 14: 319–335. Johnson, S. L. (2000). Hydrogeology of the Northern Goldfields, Western Australia. Environmental Engineering, Perth, UWA. Killigrew, L.P. & Gilkes, R.J. (1974). Development of Playa Lakes in south-western Australia, Nature, 247: 454–455. Kueltz, D. & Onke, H. (1993). Long term acclimation of the teleost Oreochromis mossambicus to various salinities: Two different strategies in mastering hypertonic stress. Marine Biology, 117(3): 527–533.
George and Coleman Lawrence, C. (1996). Aquaculture Options for Saline Land. In: Proceedings 4th National Conference and Workshop on the Productive Use and Rehabilitation of Saline Lands, Albany, Western Australia, 25–30 March. Lenaton, R.C.L. (1976). Aspects of the Ecology of Fish and Commercial Crustaceans of the Blackwood River, Western Australia. Fisheries Research Bulletin, No. 19. Lewis, M.F. (2001, personal communication). Unpublished PhD Thesis, In Press. Macumber, P.G. (1978). Hydrologic change in the Loddon Basin: The influence of groundwater dynamics on surface processes. Proceedings Royal Society Victoria, 90(1): 125– 138. Macumber, P.G. (1991). Interactions between groundwater and surface systems in northern Victoria. Department of Conservation and Environment, Victoria, 345 pp. Malcolm, C.V. (1983). Wheatbelt salinity. Department of Agriculture, Technical Bulletin No 52, 65 pp. Matta, J. (2000). The Rural Towns Program. Groundwater modelling the Merredin Catchment. Department of Agriculture Technical Report No 198, 31 pp. Mazor, E. & George, R.J. (1992). Marine airborne salts applied to trace evapotranspiration, local recharge and groundwater, example: Wheatbelt, Western Australia. Journal of Hydrology, 139: 63–77. McArthur, W.M., Turner, J.V., Lyons, W.B. & Thirwill, M. (1989). Salt sources and water-rock interaction on the Yilgarn Block, Australia: Isotopic and major element Morrissy, N.M. (1992). An introduction to marron and freshwater crayfish fanning in Western Australia. Fisheries Department of Western Australia. Morrissy, N.M. & Cassells, G. (1992). Spread of the introduced yabbie Cherax albidus Clark, 1936 in Westem Australia. Fisheries Research Report No. 92. Morrissy, N.M., Evans, L. & Huner, J.Y. (1990). Australian freshwater crayfish: Aquaculture species. World Aquaculture, 21(2): 113–122. Murashige, R., Bass, P., Wallace, L., Moiner, A., Eastham, B., Sato, V., Tamaru, C. & Lee, Cheng-Sheng (1991). The effect of salinity on the survival and growth of striped mullet (Mugil cephalus) larvae in the hatchery. Aquaculture, 96(3–4): 249–254. Nulsen, R.A. (1981). Critical depth to saline groundwater in non-irrigated situations. Australian Journal of Soil Research, 19: 83–6. Nulsen, R.A. & Henschke, C.J. (1981). Groundwater systems associated with secondary salinity in Western Australia. Agricultural Water Management, 4: 173–186. Persoone, G., Sorgeloos, P., Roels, O. & Jaspers, E. (1980). Experiences with Artemia at solar saltworks. In: The brine shrimp Artemia, Vol 3: Ecology, culturing, use in aquaculture. PPK (2001). Options for the Productive Use of Salinity (OPUS), National Dryland Salinity Program (see www.ndsp.gov.au). Pridham, M. (2001). Rural Towns Program, ABARE Outlook Conference, Canberra. tracers. Applied Geochemistry, 4: 79–92. Peck, A.J., Yendle, P.A., Batini, F.E. (1980). Hydraulic McFarlane, D.J. & George, R.J. (1992). Factors affecting dryland salinity in two wheatbelt catchments in Western Australia. Australian Journal of Soil Research, 30: 85–100. McFarlane, D.J., Engel, R. & Ryder, A.T. (1989). The location of recharge areas responsible for valley salinity in the Lake Toolibin Catchment, Western Australia. In: Groundwater Recharge (Ed. M. Sharma), Balkema Publishing Company: Rotterdam, 255–268. McFarlane, D.J., George, R.J. & Farrington P. (1993). Changes in the hydrologic cycle. In: Reintegrating Fragmented Landscapes Towards Sustainable Production and Nature Conservation (Eds. R.J. Hobbs, D.A. Saunders, conductivity of deeply weathered materials in the Darling Range, Western Australia. Australian Journal of Soil Research, 18: 129–138. Salama, R.B., Farrington, P., Bartle, G.A. & Watson G.D. (1993). The role of geological structures and relict channels in the development of dryland salinity in the Wheatbelt of Western Australia. Australian Journal of Earth Sciences, 40: 45–56. Salama, R.B. (1997). Geomorphology, geology and palaeohydrology of the broad alluvial valleys of the Salt River System, Western Australia. Australian Journal of Earth Sciences, 44: 751–765. Springer-Verlag, New York, 146–186. Sedgwick, S.D. (1985). Trout Farming Handbook. 4th ed, Fishing News Books. England. Mills, B.1 & Geddes, M.C. (1980). Salinity tolerance and osmoregulation of the Australian freshwater crayfish erax destructor Clark (Decapoda:Parastacidac). Australian Journal of Marine and Freshwater Research, 131: 667–676. – 20 – Schuster, W.H. (1960). Synopsis of Biological Data on Milkfish, Chanos chanos (Forskal), 1775. FAO Fisheries Biology Synopsis No 4.
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Foreword Dealing with Salinity in W
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1Day one: Monday 30th July. Field t
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Papers Dealing with Salinity in Whe
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Ali and Coles biggest challenges fa
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Ali and Coles erosion, maintenance
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Ali and Coles expected under these
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Ali and Coles Coles, N.A. & Ali, M.
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Commander, Schoknecht, Verboom and
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Commander, Schoknecht, Verboom and
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Page 41 and 42: APPRECIATING AND CREATING OUR HISTO
Page 43 and 44: services. The Government responded
Page 45 and 46: WHEATBELT VALLEYS IN DIFFICULTIES T
Page 47 and 48: argue that they were really abnorma
Page 49 and 50: 1990s, the wheatbelt valleys in par
Page 51 and 52: REFERENCES Agstats (1997). Agricult
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Page 65 and 66: George and Coleman advantages of so
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Page 69: George and Coleman Venture Economy
Page 73 and 74: Hatton and Ruprecht WATCHING THE RI
Page 75 and 76: Since the mid 1970s annual rainfall
Page 77 and 78: Effect of clearing on runoff The ot
Page 79 and 80: Salinity Monthly streamflow (ML) 10
Page 81 and 82: The ratio of the salt outputs to in
Page 83 and 84: - 11 - Hatton and Ruprecht Table 4:
Page 85 and 86: THE FUTURE In looking at the future
Page 87 and 88: McFarlane, D.J., George, R.J. & Far
Page 89 and 90: Keighery, Halse and McKenzie Terres
Page 91 and 92: Keighery, Halse and McKenzie Wetlan
Page 93 and 94: Keighery, Halse and McKenzie specie
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Page 97 and 98: Lloyd number of legal cases pending
Page 99 and 100: Lloyd 0 -500 -1000 -1500 -2000 -250
Page 101 and 102: Lloyd Table 3. Sheep grazing days i
Page 103 and 104: Lloyd Hectares project to provide w
Page 105 and 106: INTRODUCTION The Lake Chinocup Catc
Page 107 and 108: agriculture) in various stages, the
Page 109 and 110: - 3,477 ha of remnant vegetation or
Page 111 and 112: Scientists talk of up to 30% of the
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Page 115 and 116: Although the waterlogged area under
Page 117 and 118: eliminates drainage through the nex
Page 119 and 120: REFERENCES Dawes, W.R., Stauffacher
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Pannell ECONOMICS, SOCIETY AND ENVI
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Pannell • the area of land protec
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Pannell Proposals to construct majo
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Pannell been conducted for the Cent
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Pannell investments in long-term la
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Pannell Pannell, D.J. (2001). Dryla
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Porter, Bartle and Cooper Table 1:
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Porter, Bartle and Cooper operation
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Porter, Bartle and Cooper Increase
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Porter, Bartle and Cooper support i
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Porter, Bartle and Cooper that is a
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CASE STUDY - TOOLIBIN LAKE AND CATC
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• The distribution, storage and m
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Secondly, there is a set of practic
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within three categories: relationsh
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CONCLUSIONS Actions to protect and
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FIELD TOUR LOCATIONS FIELD TOUR NOT
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COLES FARM “Avon River Basin Over
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Conference Outcomes Dealing with Sa
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with Salinity in Wheatbelt Valleys:
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with Salinity in Wheatbelt Valleys
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Photo Gallery 2 Dealing with Salini
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APPENDIX 1 BACKGROUND HYDROLOGY AND
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WHEATBELT HYDROLOGY Flow in the Yil
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Flow (ML) STREAM SALINITY Salt Rive
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APPENDIX 2 WATER MANAGEMENT OPTIONS
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APPENDIX 3 MANAGING WATER AND SALIN
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SUMMARY- TIMELINE OF RECENT SIGNIFI
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RECENT HISTORY OF WATER AND SALINIT
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Figure 1. Hydrological cross-sectio
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Depth (m) 316 315 314 313 312 311 M
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FURTHER INVESTIGATIONS AND MANAGEME
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