The Science Division of the Department of Science, Information Technology, Innovation and the Arts (DSITIA) considers that the current borderline El Niño conditions and warm phase of the Inter-decadal Pacific Oscillation (IPO) increases the probability of below-median summer (November to March) rainfall for most of Queensland and reduces the probability of widespread drought-breaking rainfall. Read more (PDF, 340K, last updated 12:11PM, 15 December 2014)*
DSITIA’s rainfall outlooks for Queensland are based on the current and projected state of the El Niño–Southern Oscillation (ENSO) phenomenon and on factors which alter the impact of ENSO on Queensland rainfall (i.e. the more slowly changing extra-tropical sea surface temperature (SST) pattern in the Pacific Ocean).
At this time of year the prevailing ENSO pattern (as measured by indices such as the Southern Oscillation Index (SOI) or central equatorial Pacific Ocean SST anomalies) offers a useful basis for providing seasonal outlooks for summer.
Monthly values of the SOI have been negative since June, averaging -6.3 for the last six-month period since June and -7.6 for the last three-month period since September. Monthly SST anomalies in the central equatorial Pacific have been warmer than average since April this year and remain close to El Niño thresholds. The six-month average SST anomaly since June was +0.4 ºC and the three-month average since September was +0.6 ºC. These conditions indicate ‘coupling’ of the atmosphere and ocean, an important component of El Niño development.
Borderline El Niño
Although the definition of ‘El Niño’ varies between agencies, DSITIA considers current conditions to be bordering on El Niño. However it is immaterial to the seasonal outlook presented on the following page, as to whether or not an ‘El Niño event’ is eventually declared by national and international agencies in coming months. The seasonal outlook discussed on the following page indicates that there is an increased probability of below-median to well below-median summer rainfall for most of Queensland. As such, an increased risk of current drought conditions becoming more protracted should be factored into decision-making and allocation of resources.
Outlook for summer rainfall
DSITIA scientists have shown that extra-tropical SST anomalies, when measured in specific regions of the Pacific Ocean in March each year, provide a useful basis for long-lead forecasting of summer rainfall in Queensland. This outlook can be modified, with increasing accuracy, as the monthly ENSO-related SST pattern is also taken into account from June to November.
This understanding has been incorporated in an experimental system known as SPOTA-1 (Seasonal Pacific Ocean Temperature Analysis version 1), which has been operationally evaluated by DSITIA scientists for over a decade. SPOTA-1 relies on the gradient in SST across the South Pacific Convergence Zone, as an indicator of ENSO conditions. This gradient remains quite neutral, despite warm conditions in the central equatorial Pacific.
As at 1 November, DSITIA’s final long-lead outlook for summer (November to March 2014/15) indicates a higher than normal probability of below-median to well below-median rainfall for most of Queensland and, conversely, a low probability of widespread drought-breaking rainfall.
This outlook for summer rainfall has been consistent since April this year and is strongly related to the extra-tropical SST pattern measured in March this year, which is indicative of a warm phase of the IPO.
In summary, it should be noted that:
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