首页|A gap analysis of reconnaissance surveys assessing the impact of the 2019-20 wildfires on vertebrates in Australia
A gap analysis of reconnaissance surveys assessing the impact of the 2019-20 wildfires on vertebrates in Australia
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NSTL
Elsevier
Large-scale disturbance events are forecast to increase in severity and frequency due to climate change. Onground surveys are crucial for assessing the immediate impact of disturbances on biodiversity and for informing management responses. However, there are few examples where quantitative tools have guided postdisturbance survey design. In this study, we integrated species distribution modelling and spatial prioritisation to identify taxonomic and spatial gaps in surveys for 92 priority vertebrates 6 months after the 2019-20 wildfires in Australia. We predicted the pre-fire distribution of priority species, mapped locations of post-wildfire surveys that were already underway, and integrated this information with remotely-sensed fire severity maps in the tool, Zonation, to prioritise locations for new surveys across three fire severity classes (unburnt, low severity, high severity). Our results suggest that 6 months after the wildfires, surveys by government agencies had targeted 17 of 20 mammals (85%); 11 of 17 birds (65%); 10 of 17 frogs (59%); 10 of 23 reptiles (43%) and 5 of 17 fish (29%). We developed species distribution models for 63 of these species after collating 120,118 occurrence records from 6 data repositories. By predicting their distribution before the wildfires, we most efficiently identified gaps in survey effort while ensuring representation across species and fire severity classes. Our analysis provided an important `stocktake' of the response effort to the 2019-20 wildfires in Australia and helped inform the allocation of government-funded wildfire recovery programs. Although we focus on wildfire, our approach could assess gaps in survey effort following any large-scale disturbance.
MonitoringPrioritisationSpecies distribution modelsThreatened speciesWildfireZonationSPATIAL CONSERVATION PRIORITIZATIONSPECIES DISTRIBUTIONCLIMATE-CHANGEMODELSMAXENTFIREACCESSIBILITYEQUIVALENCEUNCERTAINTYSELECTION
NSTL
Elsevier
