Pitcher-plant-dwelling mosquito shows effects of Earth’s changing climate
August 25th, 2010 - 5:53 pm ICT by ANIWashington, Aug 25 (ANI): Scientists at the University of Oregon have determined the genetic structure of the pitcher-plant-dwelling mosquito, the first animal to show an evolutionary response to rapid climate change.
They used a high-throughput sequencing technique called Restriction-site Associated DNA (RAD) tagging to make the discovery.
Using the RAD-Tag approach, the scientists have demonstrated that post-glacial populations of this mosquito originated from a southern Appalachian Mountain refugium after recession of the Laurentide Ice Sheet some 22,000 to 19,000 years ago.
Range expansion into the previously glaciated north proceeded in a sequential, ordered wave.
With this information, they can now determine the genetic mechanism underlying photoperiod response to rapid climate change–responsible for the correct timing of dormancy, migration, development and reproduction in temperate organisms.
The knowledge will act as a template for research on blood feeding in mosquito vectors of dengue, encephalitis and malaria.
Researchers can accurately describe genome-wide variation to shed light on evolution at the population level, to predict patterns of invasion of species during rapid climate change, and to correlate gene-based illnesses with susceptible human populations on a local or worldwide scale.
“Along with the ability to illustrate the fine-scale phylogeographic patterns in species with few or no prior genomic resources, this technique will have applications in fields from ecology and evolution to human behavior and medicine,” said William Cresko.
The study is published in Proceedings of the National Academy of Sciences. (ANI)
- Gene-based controls 'could stop mosquitoes spreading malaria' - Apr 21, 2011
- Gene coats different butterfly species in similar patterns - Jul 24, 2011
- Boffins create malaria-proof mosquito - Jul 16, 2010
- 'Evolving' malaria-transmitting mosquito 'to complicate disease control efforts' - Oct 22, 2010
- Entire genome of extinct human decoded from finger bone - Feb 08, 2012
- Bison bones show adaptability to climate change - Feb 01, 2012
- A quicker way of detecting hearing loss - Oct 07, 2011
- Our genome more closely related to orangutans than chimps - Jan 27, 2011
- Malaria causing mosquitoes evolving into new species - Oct 24, 2010
- New genetic study helps solve Darwin's mystery of evolution of flowering plants - Apr 11, 2011
- Warmer waters prime fish species for more sperm - Apr 11, 2012
- DNA sequencing unlocks 100 mln yrs of flowering plants' evolution - Feb 24, 2010
- New method reveals how cancerous tumors evolve and spread - Mar 14, 2011
- Malaysia release of GM insects 'may create uncontrollable new species' - Jan 27, 2011
- Human malarial parasite came from gorillas, not chimps - Sep 23, 2010
Tags: appalachian mountain, behavior and medicine, changing climate, ecology and evolution, genetic mechanism, genomic resources, high throughput, human populations, laurentide ice sheet, mosquito vectors, national academy of sciences, pitcher plant, population level, proceedings of the national academy of sciences, range expansion, rapid climate change, restriction site, southern appalachian, university of oregon, worldwide scale