Published September 14, 2016 | Version v1
Dataset Open

Data from: Similar but different: dynamic social network analysis highlights fundamental differences between the fission-fusion societies of two equid species, the onager and Grevy's zebra

  • 1. Princeton University
  • 2. Mpala Research Center and Wildlife Foundation
  • 3. Google Inc., Mountain View, CA, United States of America*
  • 4. University of Illinois at Chicago

Description

Understanding why animal societies take on the form that they do has benefited from insights gained by applying social network analysis to patterns of individual associations. Such analyses typically aggregate data over long time periods even though most selective forces that shape sociality have strong temporal elements. By explicitly incorporating the temporal signal in social interaction data we re-examine the network dynamics of the social systems of the evolutionarily closely-related Grevy's zebras and wild asses that show broadly similar social organizations. By identifying dynamic communities, previously hidden differences emerge: Grevy's zebras show more modularity than wild asses and in wild asses most communities consist of solitary individuals; and in Grevy's zebras, lactating females show a greater propensity to switch communities than non-lactating females and males. Both patterns were missed by static network analyses and in general, adding a temporal dimension provides insights into differences associated with the size and persistence of communities as well as the frequency and synchrony of their formation. Dynamic network analysis provides insights into the functional significance of these social differences and highlights the way dynamic community analysis can be applied to other species.

Notes

Files

Grevy-Onager-groups.csv

Files (18.3 kB)

Name Size Download all
md5:1325ed811199748a66e82c0d0d2bb645
18.3 kB Preview Download

Additional details

Related works