1. Biodiversity impacts of the 2019-2020 Australian megafires.
- Author
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Driscoll DA, Macdonald KJ, Gibson RK, Doherty TS, Nimmo DG, Nolan RH, Ritchie EG, Williamson GJ, Heard GW, Tasker EM, Bilney R, Porch N, Collett RA, Crates RA, Hewitt AC, Pendall E, Boer MM, Gates J, Boulton RL, Mclean CM, Groffen H, Maisey AC, Beranek CT, Ryan SA, Callen A, Hamer AJ, Stauber A, Daly GJ, Gould J, Klop-Toker KL, Mahony MJ, Kelly OW, Wallace SL, Stock SE, Weston CJ, Volkova L, Black D, Gibb H, Grubb JJ, McGeoch MA, Murphy NP, Lee JS, Dickman CR, Neldner VJ, Ngugi MR, Miritis V, Köhler F, Perri M, Denham AJ, Mackenzie BDE, Reid CAM, Rayment JT, Arriaga-Jiménez A, Hewins MW, Hicks A, Melbourne BA, Davies KF, Bitters ME, Linley GD, Greenville AC, Webb JK, Roberts B, Letnic M, Price OF, Walker ZC, Murray BR, Verhoeven EM, Thomsen AM, Keith D, Lemmon JS, Ooi MKJ, Allen VL, Decker OT, Green PT, Moussalli A, Foon JK, Bryant DB, Walker KL, Bruce MJ, Madani G, Tscharke JL, Wagner B, Nitschke CR, Gosper CR, Yates CJ, Dillon R, Barrett S, Spencer EE, Wardle GM, Newsome TM, Pulsford SA, Singh A, Roff A, Marsh KJ, Mcdonald K, Howell LG, Lane MR, Cristescu RH, Witt RR, Cook EJ, Grant F, Law BS, Seddon J, Berris KK, Shofner RM, Barth M, Welz T, Foster A, Hancock D, Beitzel M, Tan LXL, Waddell NA, Fallow PM, Schweickle L, Le Breton TD, Dunne C, Green M, Gilpin AM, Cook JM, Power SA, Hogendoorn K, Brawata R, Jolly CJ, Tozer M, Reiter N, and Phillips RD
- Subjects
- Animals, Australia, Conservation of Natural Resources methods, Conservation of Natural Resources statistics & numerical data, Conservation of Natural Resources trends, Droughts statistics & numerical data, Mammals classification, Plants classification, Rainforest, Biodiversity, Wildfires prevention & control, Wildfires statistics & numerical data, Environmental Monitoring, Global Warming prevention & control, Global Warming statistics & numerical data
- Abstract
With large wildfires becoming more frequent
1,2 , we must rapidly learn how megafires impact biodiversity to prioritize mitigation and improve policy. A key challenge is to discover how interactions among fire-regime components, drought and land tenure shape wildfire impacts. The globally unprecedented3,4 2019-2020 Australian megafires burnt more than 10 million hectares5 , prompting major investment in biodiversity monitoring. Collated data include responses of more than 2,000 taxa, providing an unparalleled opportunity to quantify how megafires affect biodiversity. We reveal that the largest effects on plants and animals were in areas with frequent or recent past fires and within extensively burnt areas. Areas burnt at high severity, outside protected areas or under extreme drought also had larger effects. The effects included declines and increases after fire, with the largest responses in rainforests and by mammals. Our results implicate species interactions, dispersal and extent of in situ survival as mechanisms underlying fire responses. Building wildfire resilience into these ecosystems depends on reducing fire recurrence, including with rapid wildfire suppression in areas frequently burnt. Defending wet ecosystems, expanding protected areas and considering localized drought could also contribute. While these countermeasures can help mitigate the impacts of more frequent megafires, reversing anthropogenic climate change remains the urgent broad-scale solution., Competing Interests: Competing interests: The authors declare that some of them work for government agencies involved in forestry and implementing planned burns (Supplementary Table 8). The lead author declares that, despite the potential for government agencies to impose policy positions on staff communications (see ref. 51), scientific independence and integrity has been maintained throughout this project., (© 2024. The Author(s).)- Published
- 2024
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