translate

Site update

Since I have been really terrible at updating the blog (but pretty good at keeping up with the facebook blog posts) I've added the widget below so that facebook cross posts to the blog.

You shouldn't need to join facebook but can just click on the links in the widget to access the articles. If you have any problems or comments please mail me at arandjel 'AT' eva.mpg.de.

Tuesday, November 25, 2008

Very Important Scientist of the Month - Katja Guschanski


In this week's issue of current biology, Katja Guschanski, Damien Caillaud, Martha Robbins and Linda Vigilant from the Max Planck Institute for Evolutionary Anthropology, present their work on how females are shaping the genetic structure of the Bwindi Mountain gorillas.

Females Shape the Genetic Structure of a Gorilla Population

Katerina Guschanski, Damien Caillaud, Martha M. Robbins and Linda Vigilant

SUMMARY: Dispersal, one of the key life-history features of a species, influences gene flow and, consequently, the genetic structuring of populations. Landscape characteristics such as rivers, mountains, or habitat fragmentation affect dispersal and result in broad-scale genetic structuring of various mammalian species. However, less attention has been paid to studying how dispersal is influenced by finer-scale microgeographic variation in a continuous habitat. Here we investigate the genetic structure of a closed population of ~300 endangered mountain gorillas living in multiple groups in a small (331 km2) forest in southwestern Uganda. In a species in which both sexes routinely disperse, population genetic structure in females was influenced by distance, altitude, and plant community composition, whereas males were not geographically structured. The effect of distance fits the observed tendency of females to transfer to neighboring groups, whereas the effects of altitude and vegetation reflect the changing species composition of locally available food resources. These results suggest that individual dietary preferences are important even in a highly mobile species living amid abundant food, and we propose that preference for natal habitats will influence dispersal decisions in many other vertebrate taxa.

click here for current biology paper