Extinction debt from climate change for frogs in the wet tropics

Damien A. Fordham; Barry W. Brook; Conrad J. Hoskin; Robert L. Pressey; Jeremy VanDerWal; Stephen E. Williams

doi:10.1098/rsbl.2016.0236

Extinction debt from climate change for frogs in the wet tropics

Biology Letters ◽

10.1098/rsbl.2016.0236 ◽

2016 ◽

Vol 12 (10) ◽

pp. 20160236 ◽

Cited By ~ 9

Author(s):

Damien A. Fordham ◽

Barry W. Brook ◽

Conrad J. Hoskin ◽

Robert L. Pressey ◽

Jeremy VanDerWal ◽

...

Keyword(s):

Climate Change ◽

Habitat Suitability ◽

Climate Change Impacts ◽

Time Lags ◽

Extinction Debt ◽

Demographic Models ◽

Extinction Rates ◽

Species Area ◽

Wet Tropics ◽

Bioclimatic Envelope

The effect of twenty-first-century climate change on biodiversity is commonly forecast based on modelled shifts in species ranges, linked to habitat suitability. These projections have been coupled with species–area relationships (SAR) to infer extinction rates indirectly as a result of the loss of climatically suitable areas and associated habitat. This approach does not model population dynamics explicitly, and so accepts that extinctions might occur after substantial (but unknown) delays—an extinction debt. Here we explicitly couple bioclimatic envelope models of climate and habitat suitability with generic life-history models for 24 species of frogs found in the Australian Wet Tropics (AWT). We show that (i) as many as four species of frogs face imminent extinction by 2080, due primarily to climate change; (ii) three frogs face delayed extinctions; and (iii) this extinction debt will take at least a century to be realized in full. Furthermore, we find congruence between forecast rates of extinction using SARs, and demographic models with an extinction lag of 120 years. We conclude that SAR approaches can provide useful advice to conservation on climate change impacts, provided there is a good understanding of the time lags over which delayed extinctions are likely to occur.

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Bioclimatic envelope model of climate change impacts on blanket peatland distribution in Great Britain

Climate Research ◽

10.3354/cr00911 ◽

2010 ◽

Vol 45 ◽

pp. 151-162 ◽

Cited By ~ 75

Author(s):

AV Gallego-Sala ◽

JM Clark ◽

JI House ◽

HG Orr ◽

IC Prentice ◽

...

Keyword(s):

Climate Change ◽

Great Britain ◽

Climate Change Impacts ◽

Bioclimatic Envelope Model ◽

Envelope Model ◽

Bioclimatic Envelope

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Incorporating habitat suitability into community projections: Ant responses to climate change in the Australian Wet Tropics

Diversity and Distributions ◽

10.1111/ddi.12935 ◽

2019 ◽

Cited By ~ 1

Author(s):

Somayeh Nowrouzi ◽

Alex Bush ◽

Tom Harwood ◽

Kyran M. Staunton ◽

Simon K. A. Robson ◽

...

Keyword(s):

Climate Change ◽

Habitat Suitability ◽

Wet Tropics

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Managing a World Heritage Site in the Face of Climate Change: A Case Study of the Wet Tropics in Northern Queensland

Earth ◽

10.3390/earth2020015 ◽

2021 ◽

Vol 2 (2) ◽

pp. 248-271

Author(s):

Ellen T. Weber ◽

Carla P. Catterall ◽

John Locke ◽

Liz S. Ota ◽

Bruce Prideaux ◽

...

Keyword(s):

Climate Change ◽

Cultural Landscapes ◽

Climate Adaptation ◽

Scientific Evidence ◽

Climate Change Impacts ◽

World Heritage ◽

World Heritage Site ◽

The Face ◽

Wet Tropics

World Heritage is the pinnacle of the recognition of the natural, aesthetic, and cultural value of a place on the planet. Since its inception in 1972, over 1100 sites have received World Heritage status. Many of these places are being challenged by the effects of climate change. Urgent action is needed to build the resilience and adaptive capacity of World Heritage sites in the face of climate change threats to come. The Wet Tropics of Queensland World Heritage Area (WTWHA) is one of the most effectively regulated and managed protected Areas in the world. This includes the scientific evidence upon which that regulation and management is based. However, there is growing evidence that climate change impacts are a clear and present threat to the Outstanding Universal Value (OUV) upon which the listing is based. This challenges the very concept of OUV and points to the business-as-usual regulation and management not being sufficient to deal with the threat. It also calls for quantum changes in the approaches to protecting natural and cultural heritage and the OUV in World Heritage Areas. This WTWHA case study gives insights into the journey travelled and the pathways that need to be laid out to protect our most cherished internationally recognised natural and cultural landscapes. We demonstrate the importance of evidence in support of advocacy and management action to address the clear impacts of climate change on species, ecosystems, people, and societies living in the WTWHA. The strategic and climate adaptation plans provide the framework upon which these actions take place. Community engagement in the delivery of mitigation, adaptation, and resilience policy is key to the long-term future of the WTWHA.

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Assessment of climate change impacts on river hydrology and habitat suitability of Oxynoemacheilus bergianus. Case study: Kordan River, Iran

Hydrobiologia ◽

10.1007/s10750-015-2617-2 ◽

2016 ◽

Vol 771 (1) ◽

pp. 83-100 ◽

Cited By ~ 9

Author(s):

Reihaneh Morid ◽

Majid Delavar ◽

Soheil Eagderi ◽

Lalit Kumar

Keyword(s):

Climate Change ◽

Habitat Suitability ◽

Climate Change Impacts ◽

River Hydrology

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Modeling future wildlife habitat suitability: serious climate change impacts on the potential distribution of the Rock Ptarmigan Lagopus muta japonica in Japan’s northern Alps

BMC Ecology ◽

10.1186/s12898-019-0238-8 ◽

2019 ◽

Vol 19 (1) ◽

Author(s):

Masanobu Hotta ◽

Ikutaro Tsuyama ◽

Katsuhiro Nakao ◽

Masaaki Ozeki ◽

Motoki Higa ◽

...

Keyword(s):

Climate Change ◽

Habitat Suitability ◽

Potential Distribution ◽

Climate Change Impacts ◽

Wildlife Habitat ◽

Rock Ptarmigan ◽

Lagopus Muta ◽

Northern Alps

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Is Climate Change Reversible? CDRMIP simulations of the Earth system response to a massive CO2 increase and decrease (emissions followed by negative emissions).

10.5194/egusphere-egu2020-9435 ◽

2020 ◽

Author(s):

David Keller ◽

Andrew Lenton ◽

Vivian Scott ◽

Naomi Vaughan ◽

Keyword(s):

Climate Change ◽

Local Level ◽

Climate Change Impacts ◽

System Response ◽

Time Lags ◽

Earth System ◽

The Earth ◽

Long Time ◽

Industrial Level

To stabilize long-term climate change at well-below 2&#176;C (ideally below 1.5&#176;C) above pre-industrial levels, large and sustained CO2 emission reductions are needed.&#160; Despite pledges from numerous governments, the world is not on track to achieve the required reductions within the timeframes outlined in the Paris Agreement, and it appears increasingly likely that an overshoot of the 1.5 or 2 &#176;C temperature target will occur.&#160; If this happens, it may be possible to use carbon dioxide removal methods to return atmospheric CO2 concentrations to lower levels or even to reduce the magnitude of the overshoot, with the hope that lower CO2 will rapidly lead to lower temperatures and reverse or limit other climate change impacts.&#160; Here we present a multi-model analysis of how the Earth system and climate respond during the CMIP6 CDRMIP cdr-reversibility experiment, an idealized overshoot scenario, where CO2 increases from a pre-industrial level by 1% yr-1 until it is 4 times the initial value, then decrease again at 1% yr-1 until the pre-industrial level is again reached, at which point CO2 is held constant.&#160; For many modelled quantities climate change appears to eventually be reversible, at least when viewed at the global mean level.&#160; However, at a local level the results suggest some changes may be irreversible, although spatial patterns of change differ considerably between models.&#160; For many variables the response time-scales to the CO2 increase are very different than to the decrease in CO2 with a many properties exhibiting long time lags before responding to decreasing CO2, and much longer again to return to their unperturbed values (if this occurs).

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