Extinction risk from climate change
Chris D. Thomas,Alison Cameron,Rhys E. Green,Rhys E. Green,Michel Bakkenes,Linda J. Beaumont,Yvonne C. Collingham,Barend F.N. Erasmus,Marinez Ferreira de Siqueira,Alan Grainger,Lee Hannah,Lesley Hughes,Brian Huntley,Albert S. van Jaarsveld,Guy F. Midgley,Lera Miles,Lera Miles,Miguel A. Ortega-Huerta,A. Townsend Peterson,Oliver L. Phillips,Stephen E. Williams +20 more
TLDR
Estimates of extinction risks for sample regions that cover some 20% of the Earth's terrestrial surface show the importance of rapid implementation of technologies to decrease greenhouse gas emissions and strategies for carbon sequestration.Abstract:
Climate change over the past approximately 30 years has produced numerous shifts in the distributions and abundances of species and has been implicated in one species-level extinction. Using projections of species' distributions for future climate scenarios, we assess extinction risks for sample regions that cover some 20% of the Earth's terrestrial surface. Exploring three approaches in which the estimated probability of extinction shows a power-law relationship with geographical range size, we predict, on the basis of mid-range climate-warming scenarios for 2050, that 15-37% of species in our sample of regions and taxa will be 'committed to extinction'. When the average of the three methods and two dispersal scenarios is taken, minimal climate-warming scenarios produce lower projections of species committed to extinction ( approximately 18%) than mid-range ( approximately 24%) and maximum-change ( approximately 35%) scenarios. These estimates show the importance of rapid implementation of technologies to decrease greenhouse gas emissions and strategies for carbon sequestration.read more
Citations
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Global change, parasite transmission and disease control: lessons from ecology
Joanne Cable,Iain Barber,Brian Boag,Amy Ellison,Eric R. Morgan,Kris A. Murray,Emily L. Pascoe,Steven M. Sait,Anthony J. Wilson,Mark Booth +9 more
TL;DR: Evidence regarding potential effects of ‘system changes’ on parasite transmission from wild host–parasite systems is highlighted and synthesized to support robust predictions of altered parasite dynamics in a rapidly changing world.
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Transitions in ancient inland freshwater resource management in Sri Lanka affect biota and human populations in and around coastal lagoons.
Farid Dahdouh-Guebas,Sanath Hettiarachchi,D. Lo Seen,Okke Batelaan,S Sooriyarachchi,L.P. Jayatissa,Nico Koedam +6 more
TL;DR: It is reported that changes to the historic system of inland freshwater management have increased dramatically in recent times and have resulted in a qualitative ecological and socioeconomic degradation in three coastal lagoons in southern Sri Lanka.
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Abrupt non-linear climate change, irreversibility and surprise
TL;DR: In this paper, the authors demonstrate that external forcings such as increases in GHG concentrations can push complex systems from one equilibrium state to another, with non-linear abrupt change as a possible consequence.
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Hybridization in a warmer world
TL;DR: How ecological responses to climate change will increase the likelihood of hybridization via the dissolution of species barriers maintained by habitat, time, or behavior is reviewed to identify several cases where novel hybrid zones have recently formed.
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Move it or lose it? The ecological ethics of relocating species under climate change
Ben A. Minteer,James P. Collins +1 more
TL;DR: A more dynamic and pragmatic approach to ethical analysis and debate is needed to help ecologists, conservationists, and environmental decision makers come to grips with managed relocation and the emerging ethical challenges of ecological policy and management under global environmental change.
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