DryadLab Package: Extinction Risk
- Dryad data: doi:10.5061/dryad.82
- Participants: Samantha Price, Anna Thanukos, Peggy Schaeffer
Text and excel version of the dataset in Dryad - cleaned up with log10 values already added.
Background extinction and mass extinction
Extinctions of species have occurred gradually and continuously throughout the history of life, creating a turnover of species through time. This is background extinction. However, there are particular points in time when a very large number of species go extinct, this is a mass extinction. Historically we recognize 5 big events including the most recent event, which occurred approximately 65 million years ago at the K-T boundary when the non-avian dinosaurs went extinct. The causes of these past events are varied and still debated but include climate-change, volcanic activity and asteroid impacts.
Insert image about background vs mass extinctions from Understanding Evolution website -> evolution.berkeley.edu/evolibrary/search/imagedetail.php
Although estimates vary on the precise numbers of current extinctions, most scientists agree that we are very close to entering a sixth mass extinction event due to human actions such as habitat destruction, pollution and overexploitation. For example, the IUCN (an international union of scientists and conservation organizations) estimates that 20% of the world’s 5,494 livings mammals are currently threatened with extinction. Given their rates of decline, it is estimated that all threatened mammals may go extinct within 1000 years, which exceeds the rates of background extinction estimated from the fossil record.
Barnosky et al. 2011 Has the Earth's sixth mass extinction already arrived? Nature 471, 51-57.
It has long been recognized that extinctions appear to be non-random with respect to which species survive and which go extinct. For example, it has been shown that large carnivores that specialize on large vertebrate prey (known as hypercarnivores) evolve repeatedly but have far shorter durations within the fossil record than other mammalian species. One of the most extreme examples of repeated hypercarnivore evolution is the saber-tooth cat-like form, which has evolved multiple times within the history of mammals.
Insert image from Valkenburgh et al. 2007 Integrative and Comparative Biology 47(1), 147-163 showing skulls of two different sabertooth skulls from very different time periods
The hypothesized explanation for the short duration of these hypercarnivorous clades is that their large size and highly specialized diets, which required lots of morphological adaptations, means they are unable to switch to other prey types during environmental perturbations.
Many other traits that have been proposed to predispose species to extinction as well (see table below).
Links to include
Other articles and resources on extinction:
- including jablonski and stuff on UE
- Paper on body size and extinction risk:
Johnson, C. N. 2002 Determinants of loss of mammal species during the Late Quaternary ‘megafauna’ extinctions: life history and ecology, but not body size. Proc. R. Soc. B 269, 2221–2227. http://dx.doi.org/10.1098/rspb.2002.2130
Images to include
- This figure would require permission from the publisher:
Fig. 7 from: Van Valkenburgh, B. et al. (2007) Déjà vu: the evolution of feeding morphologies in the Carnivora. Integrative and Comparative Biology 47(1), 147-163 doi: 10.1093/icb/icm016
- This image from Flickr user yun dan carries the CC-BY license:
- These images appear on the web without any copyright statement; they may be freely available: