Abstract
AbstractCommunity ecology and sociobiology share a number of problems (e.g. understanding part-to-whole relationships), so sharing methods may be beneficial. In this paper, we re-analyze a large social network database for Camponotus fellah ants, from the perspective of keystone individuals, based on methods developed in community ecology. We study different network types for six colonies, over a time series of 10 days. These include the total network of weighted interactions, the subnetworks for the castes and the subnetworks for Queen-linked and Queen-independent individuals. We perform time-independent (i.e. average values) and temporal (i.e. trends) analyses. The most commonly used global network metrics showed high variability in time but no clear trends. Yet, the variability of a network centrality index (topological importance, TI), developed earlier in community ecology, shows clear increase in each colony over time, suggesting the emergence of keystone individuals as a general tendency in all studied ant colonies.
Funder
European Commission
Università degli Studi di Parma
Publisher
Springer Science and Business Media LLC
Reference43 articles.
1. Bhadra A, Jordán F (2013) Cryptic successors unrevealed even by network analysis: a comparative study of two paper wasp species. Netw Biol 3:54–66
2. Bhadra A, Jordán F, Sumana A, Deshpande S, Gadagkar R (2009) A comparative social network analysis of wasp colonies and classrooms: linking network structure to functioning. Ecol Complex 6:48–55
3. Blonder B, Wey TW, Dornhaus A, James R, Sih A (2012) Temporal dynamics and network analysis. Methods Ecol Evol 3:958–972
4. de Silva S, Ranjeewa ADG, Kryazhimskiy S (2011) The dynamics of social networks among female Asian elephants. BMC Ecol 11:17
5. Deshpande SA, Sumana A, Surbeck M, Gadagkar R (2006) Wasp who would be queen: a comparative study of two primitively eusocial species. Curr Sci 91:332–336