Emergent trade-offs and selection for outbreak frequency in spatial epidemics
van Ballegooijen, W.M. and Boerlijst, M.C., 2004. Emergent trade-offs and selection for outbreak frequency in spatial epidemics. Proceedings of the
Read morevan Ballegooijen, W.M. and Boerlijst, M.C., 2004. Emergent trade-offs and selection for outbreak frequency in spatial epidemics. Proceedings of the
Read moreJohnson, Craig R., and Maarten C. Boerlijst. “Selection at the Level of the Community: The Importance of Spatial Structure.” Trends
Read moreNon-hierarchical competitive interactions between species (i.e. intransitive competitive networks) are a mechanism that is theorized to permit stable coexistence among
Read moreGrenfell, B.T., Pybus, O.G., Gog, J.R., Wood, J.L., Daly, J.M., Mumford, J.A. and Holmes, E.C., 2004. Unifying the epidemiological and
Read moreSchoener, T. W. (2011). The newest synthesis: understanding the interplay of evolutionary and ecological dynamics. Science, 331, 426-429. In this conceptual review,
Read moreDispersal is a key component of any metapopulation model and can influence competition between otherwise identical populations, however the role
Read moreGoldwyn, Eli E., and Alan Hastings. “When Can Dispersal Synchronize Populations?” Theoretical Population Biology 73, no. 3 (May 2008): 395–402.
Read moreNetwork structure is being increasingly applied to the study of metapopulations, as a spatially explicit way to better characterize how
Read morePetrovskaya N, Petrovskii S. 2017 Catching ghosts with a coarse net: use and abuse of spatial sampling data in detecting
Read moreTablado, Z., Revilla, E., Dubray, D., Saïd, S., Maillard, D., & Loison, A. (2015). From steps to home range formation:
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