Abstract
Compound climate extremes (CCEs) can have significant and persistent environmental impacts on ecosystems. However, knowledge of the occurrence of CCEs beyond the past ~ 50 years, and hence their ecological impacts, is limited. Here, we place the widespread 2015–16 mangrove dieback and the more recent 2020 inland native forest dieback events in northern Australia into a longer historical context using locally relevant palaeoclimate records. Over recent centuries, multiple occurrences of analogous antecedent and coincident climate conditions associated with the mangrove dieback event were identified in this compilation. However, rising sea level—a key antecedent condition—over the three decades prior to the mangrove dieback is unprecedented in the past 220 years. Similarly, dieback in inland forests and savannas was associated with a multi-decadal wetting trend followed by the longest and most intense drought conditions of the past 250 years, coupled with rising temperatures. While many ecological communities may have experienced CCEs in past centuries, the addition of new environmental stressors associated with varying aspects of global change may exceed their thresholds of resilience. Palaeoclimate compilations provide the much-needed longer term context to better assess frequency and changes in some types of CCEs and their environmental impacts.
Highlights
Compound climate extremes (CCEs) can have significant and persistent environmental impacts on ecosystems
We have shown that by drawing together a diverse range of palaeoclimate records, it is possible to significantly extend the record of likely CCE occurrence to place current extreme impacts into the appropriate historical context
While the climatic conditions associated with the mangrove dieback have occurred with several times per century over the past 500 years, the interaction with rapidly increasing sea level is unique over the past 220 years
Summary
Compound climate extremes (CCEs) can have significant and persistent environmental impacts on ecosystems. Dieback in inland forests and savannas was associated with a multi-decadal wetting trend followed by the longest and most intense drought conditions of the past 250 years, coupled with rising temperatures. The mangrove dieback occurred during moderate to below average moisture conditions after almost three relatively wet decades (preconditioning event). The subsequent joint occurrence of reduced rainfall and a fall in sea level, lead to decreased water availability and acute physiological stress for the regional mangrove ecosystem. These stresses were driven by the effects of the 2015–16 Indian Ocean Dipole (IOD) and a strong El Niño e vent The shallow soils in the worst affected areas are believed to have exacerbated reduced moisture availability (https://www.abc.net.au/news/rural/2020-11-13/widespread-tree-deaths-reported-on-nt-rangelands/12880710), and other factors such as land management practices cannot be ruled out
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