How unusual was Australia's 2017–2019 Tinderbox Drought?

IF 6.1 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES Weather and Climate Extremes Pub Date : 2024-10-17 DOI:10.1016/j.wace.2024.100734
Georgina Falster , Sloan Coats , Nerilie Abram
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Abstract

Australia's Murray-Darling Basin experienced three consecutive years of meteorological drought across 2017–2019, collectively named the ‘Tinderbox Drought’. Rainfall deficits during the three-year drought were most pronounced in the Australian cool season (April to September). Deficits in both the cool season and annual total rainfall were unprecedented in the instrumental record. However, the instrumental record provides just one of a range of equally plausible climate trajectories that could have occurred during this period. To determine if the Tinderbox Drought was outside this range, we used observational data from prior to the onset of the drought to construct Linear Inverse Models (LIMs) that emulate the stationary statistics of Australian rainfall and its connection to global sea surface temperature (SST) anomalies. Overall, we find that rainfall deficits were most unusual in the northern Murray-Darling Basin, and during the final year of the drought. The global SST anomalies observed during the first two years of the Tinderbox Drought, particularly the cool anomalies in the central tropical Pacific and western Indian Ocean, are not typically associated with low rainfall across the Murray-Darling Basin. In terms of single-year rainfall anomalies, the only aspect of the Tinderbox Drought that was beyond the range of the LIMs was annual-total rainfall over the northern Murray-Darling Basin during 2019. This coincided with an extreme positive Indian Ocean Dipole event that was also beyond the range of the LIMs. When considered in terms of basin-wide rainfall over the full three years, rainfall deficits during the Tinderbox Drought were beyond the LIM range in terms of both cool-season and annual-total rainfall. This suggests an anthropogenic contribution to the severity of the drought—likely exacerbated by the 2019 extreme positive Indian Ocean Dipole event.
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澳大利亚 2017-2019 年的 "火药桶干旱 "有多不寻常?
2017-2019 年间,澳大利亚墨累-达令盆地连续三年遭遇气象干旱,被统称为 "火药桶干旱"。三年干旱期间,澳大利亚冷季(4 月至 9 月)的降雨量不足最为明显。冷季降雨量和全年总降雨量的不足在仪器记录中都是前所未有的。然而,仪器记录只是提供了这一时期可能出现的一系列同样合理的气候轨迹之一。为了确定 Tinderbox 旱灾是否超出了这一范围,我们利用旱灾发生前的观测数据构建了线性反演模型 (LIM),模拟澳大利亚降雨量的静态统计及其与全球海面温度 (SST) 异常的联系。总体而言,我们发现在墨累-达令盆地北部以及干旱的最后一年,降雨量不足的情况最为异常。在 Tinderbox 旱灾的前两年观测到的全球 SST 异常,尤其是热带太平洋中部和印度洋西部的低温异常,通常与墨累-达令盆地的降雨量偏低无关。就单年降雨量异常而言,Tinderbox 旱灾中唯一超出 LIMs 范围的是 2019 年墨累-达令盆地北部的年总降雨量。这与印度洋偶极子极端正向事件相吻合,该事件也超出了 LIMs 的范围。从整个三年的全流域降雨量来看,Tinderbox 旱灾期间的冷季降雨量和年总降雨量都超出了 LIM 范围。这表明干旱的严重程度是人为因素造成的--2019 年印度洋偶极子极端事件可能加剧了干旱。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Weather and Climate Extremes
Weather and Climate Extremes Earth and Planetary Sciences-Atmospheric Science
CiteScore
11.00
自引率
7.50%
发文量
102
审稿时长
33 weeks
期刊介绍: Weather and Climate Extremes Target Audience: Academics Decision makers International development agencies Non-governmental organizations (NGOs) Civil society Focus Areas: Research in weather and climate extremes Monitoring and early warning systems Assessment of vulnerability and impacts Developing and implementing intervention policies Effective risk management and adaptation practices Engagement of local communities in adopting coping strategies Information and communication strategies tailored to local and regional needs and circumstances
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