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  • ABS. 2011. Measures of Australia's Progresses 2010—Catalouge Number 1370, Australian Bureau of Statistics: Canberra.
  • Anagnostopoulou CHR, Maheras P, Karacostas T, Vafiadis M. 2003. Spatial and temporal analysis of dry spells in Greece. Theoretical and Applied Climatology 74: 7791.
  • Argue JR (ed). 2004. WSUD: Basic Procedures for Source Control of Stormwater—A Handbook for Australian Practice, 1st edn, Urban Water Resources Centre: University of South Australia, 201226.
  • ARQ. 2005. Australian Runoff Quality–A Guide to Water Sensitive Urban Design, Wong THF (ed). Engineers: Australia.
  • Barron J, Rockström J, Gichuki F, Hatibu N. 2003. Dry spell analysis and maize yields for two semi-arid locations in east Africa. Agricultural and Forest Meteorology 117: 2337.
  • Bedient PB, Huber WC. 2002. Hydrology and Floodplain Analysis, 3rd edn, Prentice-Hall: NJ.
  • Beecham S. 2003. Water sensitive urban design—a technological assessment. Waterfall, Journal of the Stormwater Industry Association 17(1): 513.
  • Beecham S, Chowdhury RK. 2010. Temporal characteristics and variability of point rainfall: a statistical and wavelet analysis. International Journal of Climatology 30(3): 458473.
  • Beecham S, Hourigan P, Wells J, Brisbin S. 2005. Estimating the treatment performance and OSD characteristics of both proprietary and non-proprietary WSUD systems at Castle Hill in Sydney. Proceedings of the WSUD Conference 2004, Australia, 528536.
  • Berger A, Goosens C. 1983. Persistence of wet and dry spells at Uccle (Belgium). Journal of Climatology 3: 2134.
  • Blairfish JA. 1975. An investigation into spells of wet and dry days by region and season for great Britain. Meteorological Magazine 104: 360375.
  • Chapman GT. 1998. Stochastic models of daily rainfall: the impact of adjoining wet days on the distribution of rainfall amounts. Environmental Modelling and Software 13(3–4): 317324.
  • Chowdhury RK, Beecham S. 2010. Australian rainfall trends and their relation to the southern oscillation index. Hydrological Processes 24(4): 504514.
  • Deni SM, Jemain AA, Ibrahim K. 2008. The spatial distribution of wet and dry spells over peninsular Malaysia. Theoretical and Applied Climatology 94: 163173.
  • Donald A, Meinke H, Power B, Maia AHN, Wheeler MC, White N, Stone RC, Ribbe J. 2006. Near global impact of the Madden–Julian Oscillation on rainfall. Geophysical Research Letters 33: L09704, DOI: 10.1029/2005GL025155.
  • Gabriel KR, Neumann J. 1957. On a distribution of weather cycles by length. Quarterly Journal of the Royal Meteorological Society 83: 375380.
  • Gabriel KR, Neumann J. 1962. A Marcov chain model for daily rainfall occurrence at Tel Aviv. Journal of the Royal Meteorological Society 88: 9095.
  • Green JR. 1970. A generalised probability model for sequences of wet and dry days. Monthly Weather Review 98: 238241.
  • Harrold TI, Sharma A, Sheather SJ. 2003a. A nonparametric model for stochastic generation of daily rainfall occurrence. Water Resources Research 39(10): 1300.
  • Harrold TI, Sharma A, Sheather SJ. 2003b. A nonparametric model for stochastic generation of daily rainfall amounts. Water Resources Research 39(12): 1343.
  • IPCC. 2007. Climate Change–2007 Synthesis Report. A Report of the Intergovernmental Panel on Climate Change.
  • Jimoh OD, Webster P. 1996. The optimum order of a Markov chain model for daily rainfall in Nigeria. Journal of Hydrology 185: 4569.
  • Kandasamy J, Beecham S, Dunphy A. 2008. Stormwater sand filters in water sensitive urban design. Water Management 161(WM2): 5564.
  • Lambert MF, Whiting JP, Metcalfe AV. 2003. A non-parametric hidden Markov model for climate state identification. Hydrology and Earth System Sciences 7(5): 652667.
  • Lana X, Burgueňo A. 1998. Probabilities of repeated long dry episodes based on the poisson distribution: an example for Catalonia (NE Spain). Theoretical and Applied Climatology 60: 111120.
  • McMahon TA, Mein RG. 1986. River and Reservoir Yield, Water Resources Publications: Littleton, CO, 270302.
  • Myers B, Sagi I, van-Leeuwen J, Beecham S. 2007. Water quality improvement by base course aggregate in a permeable pavement with underlying reservoir structure. 5th International Water Sensitive Urban Design Conference, Sydney, Australia.
  • Ochola WO, Kerkides P. 2003. A Markov chain simulation model for predicting critical wet and dry spells in Kenya: analysing rainfall events in the Kano Plains. Irrigation and Drainage 52: 327342.
  • Salas JD. 1993. Analysis and Modelling of Hydrologic Time Series in Handbook of Hydrology, Maidment DR (ed). McGraw-Hill, Inc.: New York, USA; 19: 172.
  • Sharma TC. 1996. Simulation of the Kenyan longest dry and wet spells and the largest rain-sums using a Markov model. Journal of Hydrology 178: 5567.
  • Smith IN, Mcintose P, Ansell TJ, Reason CJC, Mcinnes K. 2000. Southwest western Australian winter rainfall and its association with Indian ocean climate variability. International Journal of Climatology 20: 19131930.
  • Srikanthan R, Harrold TI, Sharma A, McMahon TA. 2005. Comparison of two approaches for generation of daily rainfall data. Stoch Environ Res Risk Assess 19: 215226.
  • Srinivasan TR. 1958. A statistical model suitable for describing weather persistence. Indian Journal of Meteorology and Geophysics 10: 321324.
  • Theoharatos GA, Tselepidaki IG. 1990. The distribution of rainy days in the Aegean area. Theoretical and Applied Climatology 42: 111116.
  • Thyer M, Kuczera G. 2000. Modelling long-term persistence in hydro-climatic time series using a hidden state Markov model. Water Resources Research 36(11): 33013310.
  • Tolika K, Maheras P. 2005. Spatial and temporal characteristics of wet spells in Greece. Theoretical and Applied Climatology 81: 7185.
  • Yap WC. 1973. The persistence of wet and dry spells in Sungai Buloh, Selangor. Meteorological Magazine 102: 240245.