Rainfall averaged over the wider southwest region of Western Australia (SWWA) that encompasses Perth and its catchments declined significantly in the early 1970s and has not shown any signs of recovering to the values experienced during
most of the 20th century (IOCI, 2002). This decline has been most evident in the early winter period (May to July) and has been linked to a decrease in the number of low pressure troughs and westerly frontal systems combined with a decrease in the amount of rainfall associated with rain bearing systems (Hope et al., 2006a and Raut et al., 2014). These changes have had a serious impact on the total amount of water held in Perth’s major dams (Power et al., 2005 and Hope and Ganter, 2010) located to the south and east of the city in the nearby Darling escarpment (Fig. 1). Explaining the observed rainfall decline has been problematic. Many studies have investigated the role of the Saracatinib datasheet El Nino Southern Oscillation find more (e.g. Nicholls, 2009), the Southern Annular Mode (e.g. Meneghini et al., 2007, Hendon et al., 2007 and Feng et al., 2010), and Indian Ocean sea surface temperature patterns (e.g. Smith, 1994, Smith et al., 2000 and Risbey et
al., 2009) without being conclusive. Smith and Timbal (2012) suggested that trends in southern Australia rainfall, including SWWA rainfall, were more likely to be explained by large scale shifts in atmospheric circulation patterns rather than by regional SST changes. This is also indicated by the fact that early climate model experiments
based on prescribed SST anomalies tend to have no real effect on simulated rainfall unless the anomalies are made unrealistically large (Frederiksen et al., 1999). Other evidence that the rainfall trends are primarily linked to large-scale atmospheric circulation changes is provided by Verdon-Kidd and Kiem (2014) who noted that the period over which the SWWA dry spell occurred coincided with rainfall changes over several continents including Australia, New Zealand and southern and western Africa, and van Ommen and Morgan (2010), who identified an apparent inverse relationship between precipitation the records in East Antarctica and SWWA. Analyses of climate model simulations have also been inconclusive since, although it has been possible to detect simulated declines in rainfall over similar time scales, these are generally only half the amount observed (Timbal et al., 2006). For example, Hope and Ganter (2010) noted that recent declines in winter rainfall and increases in winter mean sea level pressure are similar to those projected by climate models forced by increases in atmospheric greenhouse gas concentrations, but only for the end of the 21st century. Bates et al. (2008) concluded that the observed decline most likely comprised some anthropogenic signal combined with some (unexplained) multi-decadal scale variability.