The conservation impacts of ecological disturbance: Time‐bound estimates of population loss and recovery for fauna affected by the 2019–2020 Australian megafires

Legge, Sarah; Rumpff, Libby; Woinarski, John C. Z.; Whiterod, Nick S.; Ward, Michelle; Southwell, Darren; Scheele, Ben C.; Nimmo, Dale G.; Lintermans, Mark; Geyle, Hayley M.; Garnett, Stephen T.; Hayward-Brown, Brittany K.; Ensbey, Michelle; Ehmke, Glenn; Ahyong, Shane T.; Blackmore, Caroline; Bower, Deborah S.; Brizuela‐Torres, Diego; Burbidge, Allan H.; Burns, Phoebe A.; Butler, Gavin L.; Catullo, Renee A.; Chapple, David G.; Dickman, Chris R.; Doyle, Katherine; Ferris, Jason; Fisher, Diana O.; Gallagher, Rachael V.; Gillespie, Graeme R.; Greenlees, Matt J.; Hohnen, Rosie; Hoskin, Conrad J.; Hunter, David; Jolly, Chris J.; Kennard, Mark J.; King, Alison J.; Kuchinke, Diana; Law, Bradley; Lawler, Ivan R.; Lawler, Susan; Loyn, Richard; Lunney, Daniel; Lyon, Jarod; MacHunter, Josephine; Mahony, Michael; Mahony, Stephen V.; McCormack, Rob B.; Melville, Jane; Menkhorst, Peter; Michael, Damian; Mitchell, Nicola J.; Mulder, Eridani; Newell, David; Pearce, Luke; Raadik, Tarmo A.; Rowley, Jodi J. L.; Sitters, Holly; Spencer, Ricky John; Valavi, Roozbeh; West, Matt; Wilkinson, David P.; Zukowski, Sylvia

doi:10.1111/geb.13473

Cited by 60 publications

(64 citation statements)

References 96 publications

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“…Directly documenting changes in density after fires of variable severity improves our understanding of population processes in relation to fire; a common disturbance event in Australian forests and one that is predicted to increase in frequency and severity with climate change (Bowman et al., 2017; Clarke & Evans, 2019). At present, direct responses of forest species to the recent mega‐fires are poorly known and rapid post‐fire assessments have relied substantially on expert opinion (Legge et al, 2022) or extrapolation based on fire extent without considering severity (Ward et al., 2020). Expert elicitation for the koala suggested the most plausible population loss to severe fire was 77% 1 week after fire and 63% after 10 years (with uncertainty increasing with time since fire), making the koala one of the most sensitive species to severe fire (Legge et al, 2022).…”

Section: Discussionmentioning

confidence: 99%

“…At present, direct responses of forest species to the recent mega‐fires are poorly known and rapid post‐fire assessments have relied substantially on expert opinion (Legge et al, 2022) or extrapolation based on fire extent without considering severity (Ward et al., 2020). Expert elicitation for the koala suggested the most plausible population loss to severe fire was 77% 1 week after fire and 63% after 10 years (with uncertainty increasing with time since fire), making the koala one of the most sensitive species to severe fire (Legge et al, 2022). Population response to mild fires was predicted to be about a 40% reduction after 1 year (Legge et al, 2022).…”

Section: Discussionmentioning

confidence: 99%

“…Expert elicitation for the koala suggested the most plausible population loss to severe fire was 77% 1 week after fire and 63% after 10 years (with uncertainty increasing with time since fire), making the koala one of the most sensitive species to severe fire (Legge et al, 2022). Population response to mild fires was predicted to be about a 40% reduction after 1 year (Legge et al, 2022). Comparisons with our field assessments demonstrate that experts reliably assessed the impacts of high severity fire on koalas, which is perhaps not surprising given the vulnerability of koalas to canopy fire, but overestimated the effects of low severity fire, where we detected no difference.…”

Section: Discussionmentioning

confidence: 99%

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Fire severity and its local extent are key to assessing impacts of Australian mega‐fires on koala (Phascolarctos cinereus) density

Law

Gonsalves

Burgar

et al. 2022

Global Ecol Biogeogr

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Aim Mega‐fires are predicted to increase with climate change. Australia experienced the largest ever documented forest fires in 2019–2020, but the response of most taxa remains poorly known. We used acoustic arrays to estimate impact of the mega‐fires on the density of an iconic marsupial. Location North‐east New South Wales, Australia. Time period Pre‐fire density estimated in 2018–2019 and post‐fire density in 2019–2020. Major taxa studied Koala, Phascolarctos cinereus. Methods We estimated male density before and after fires using large acoustic arrays and spatial count models. Acoustic arrays sampled three timber production forests with a gradient in fire severity and three unburnt controls in national parks. Results Koalas were temporarily extirpated where high fire severity dominated the landscape, but some localized recovery was evident after 1 year. Where moderate severity fire dominated, density was reduced by about 50% within 1 year, but koalas were widespread throughout the burnt area. In our third area dominated by low severity fire, no impact was detected as pre‐ and post‐fire uncertainty intervals overlapped. Control sites surveyed at similar times showed little change in density between years. There was no relationship between pyrodiversity and koala density. Within arrays broadly dominated by moderate or high severity fire, density 1 year after fire was lower in burnt patches of both low and high severity fire. Regionally, 9.8% of landscape samples (2 km × 2 km) in koala habitat were dominated by high fire severity, while a further 6.1% were dominated by moderate fire severity, suggesting c. 13% decline in koala density. Main conclusions A substantial impact of high severity fire was confirmed. Severe impacts were localized across the landscape, recovery had begun within a year and resilience was evident where low severity fire dominated. However, more frequent fires in the future will compound koala losses.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Fire severity and its local extent are key to assessing impacts of Australian mega‐fires on koala (Phascolarctos cinereus) density

Law

Gonsalves

Burgar

et al. 2022

Global Ecol Biogeogr

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“…In addition to centuries of ongoing degradation, in the 2019-2020 summer, Australia experienced the largest fire season on record (Boer et al 2020). These fires burned ∼104 000 km 2 of vegetation across southern Australia, with 545 flora (Gallagher et al 2021) and 114 fauna identified as immediate priorities for conservation action due to a substantial proportion of their habitat being impacted, their threat status, and their high sensitivity to fire (Legge et al 2022). Of the 114 priority fauna species, 90 (68 vertebrates and 22 invertebrates) were listed as threatened by IUCN, and/or national legislation (Legge 2022), driven mostly by habitat loss, fragmentation, and degradation .…”

Section: Introductionmentioning

confidence: 99%

“…These fires burned ∼104 000 km 2 of vegetation across southern Australia, with 545 flora (Gallagher et al 2021) and 114 fauna identified as immediate priorities for conservation action due to a substantial proportion of their habitat being impacted, their threat status, and their high sensitivity to fire (Legge et al 2022). Of the 114 priority fauna species, 90 (68 vertebrates and 22 invertebrates) were listed as threatened by IUCN, and/or national legislation (Legge 2022), driven mostly by habitat loss, fragmentation, and degradation . A multi-threat analysis is required to assess opportunities to address the many processes that degrade species habitat-which then helps to recover these priority species.…”

Section: Introductionmentioning

confidence: 99%

Restoring habitat for fire-impacted species’ across degraded Australian landscapes

Ward

Tulloch

Stewart³

et al. 2022

Environ. Res. Lett.

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In the summer of 2019–2020, southern Australia experienced the largest fires on record, detrimentally impacting the habitat of native species, many of which were already threatened by past and current anthropogenic land use. A large-scale restoration effort to improve degraded species habitat would provide fire-affected species with the chance to recover and persist in burnt and unburnt habitat. To facilitate this, decision-makers require information on priority species needs for restoration intervention, the suite of potential restoration interventions, and the priority locations for applying these interventions. We prioritize actions in areas where restoration would most likely provide cost-effective benefits to priority species (defined by each species proportion of habitat burned, threat status, and vulnerability to fires), by integrating current and future species habitat suitability maps with spatially modelled costs of restoration interventions such as replanting, removing invasive species, and implementing ecologically appropriate fire management. We show that restoring the top ∼69% (112 million hectares) of the study region (current and future distributions of priority species) accounts for, on average, 95% of current and future habitat for every priority species and costs ∼AUD$73 billion yr−1 (AUD$650 hectare−1 yr−1) annualized over 30 years. This effort would include restoration actions over 6 million hectares of fire-impacted habitat, costing ∼AUD$8.8 billion/year. Large scale restoration efforts are often costly but can have significant societal co-benefits beyond biodiversity conservation. We also show that up to 291 MtCO2 (∼150 Mt DM) of carbon could be sequestered by restoration efforts, resulting in approximately AUD$253 million yr−1 in carbon market revenue if all carbon was remunerated. Our approach highlights the scale, costs, and benefits of targeted restoration activities both inside and outside of the immediate bushfire footprint over vast areas of different land tenures.

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Phylogeography of a widespread Australian freshwater fish, western carp gudgeon (Eleotridae: Hypseleotris klunzingeri): Cryptic species, hybrid zones, and strong intra‐specific divergences

Unmack,

Cook,

Johnson

et al. 2023

Ecology and Evolution

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Despite belonging to the most abundant and widespread genus of freshwater fishes in the region, the carp gudgeons of eastern Australia (genus Hypseleotris) have proved taxonomically and ecologically problematic to science since the 19th century. Several molecular studies and a recent taxonomic revision have now shed light on the complex biology and evolutionary history that underlies this group. These studies have demonstrated that carp gudgeons include a sexual/unisexual complex (five sexual species plus an assortment of hemiclonal lineages), many members of which also co‐occur with an independent sexual relative, the western carp gudgeon (H. klunzingeri). Here, we fill yet another knowledge gap for this important group by presenting a detailed molecular phylogeographic assessment of the western carp gudgeon across its entire and extensive geographic range. We use a suite of nuclear genetic markers (SNPs and allozymes) plus a matrilineal genealogy (cytb) to demonstrate that H. klunzingeri s.l. also displays considerable taxonomic and phylogeographic complexity. All molecular datasets concur in recognizing the presence of multiple candidate species, two instances of historic between‐species admixture, and the existence of a natural hybrid zone between two of the three candidate species found in the Murray–Darling Basin. We also discuss the major phylogeographic patterns evident within each taxon. Together, these analyses provide a robust molecular, taxonomic, and distributional framework to underpin future morphological and ecological investigations on this prominent member of regional freshwater ecosystems in eastern Australia.

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The conservation impacts of ecological disturbance: Time‐bound estimates of population loss and recovery for fauna affected by the 2019–2020 Australian megafires

Cited by 60 publications

References 96 publications

Fire severity and its local extent are key to assessing impacts of Australian mega‐fires on koala (Phascolarctos cinereus) density

Fire severity and its local extent are key to assessing impacts of Australian mega‐fires on koala (Phascolarctos cinereus) density

Restoring habitat for fire-impacted species’ across degraded Australian landscapes

Phylogeography of a widespread Australian freshwater fish, western carp gudgeon (Eleotridae: Hypseleotris klunzingeri): Cryptic species, hybrid zones, and strong intra‐specific divergences

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