AI Article Synopsis
- Rapid climate change in the 21st century may result in significant population declines and extinctions among species in Andean tropical montane cloud forests.
- Although species migration has been studied, the migration of ecotones (transitional zones between different ecosystems) is crucial since they can hinder species movement if they do not adapt to climate shifts.
- Research indicates that while timberline is migrating faster in protected areas compared to grazed lands, the overall migration rates are much slower than necessary, potentially leading to severe biodiversity loss unless proactive management is implemented.
Article Abstract
Rapid 21st-century climate change may lead to large population decreases and extinction in tropical montane cloud forest species in the Andes. While prior research has focused on species migrations per se, ecotones may respond to different environmental factors than species. Even if species can migrate in response to climate change, if ecotones do not they can function as hard barriers to species migrations, making ecotone migrations central to understanding species persistence under scenarios of climate change. We examined a 42-year span of aerial photographs and high resolution satellite imagery to calculate migration rates of timberline--the grassland-forest ecotone-inside and outside of protected areas in the high Peruvian Andes. We found that timberline in protected areas was more likely to migrate upward in elevation than in areas with frequent cattle grazing and fire. However, rates in both protected (0.24 m yr(-1)) and unprotected (0.05 m yr(-1)) areas are only 0.5-2.3% of the rates needed to stay in equilibrium with projected climate by 2100. These ecotone migration rates are 12.5 to 110 times slower than the observed species migration rates within the same forest, suggesting a barrier to migration for mid- and high-elevation species. We anticipate that the ecotone will be a hard barrier to migration under future climate change, leading to drastic population and biodiversity losses in the region unless intensive management steps are taken.
Download full-text PDF |
Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3770544 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0074496 | PLOS |
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