Data from: Coupled range dynamics of brood parasites and their hosts responding to climate and vegetation changes
Péron, Guillaume; Altwegg, Res; Jamie, Gabriel A.; Spottiswoode, Claire N. (2017), Data from: Coupled range dynamics of brood parasites and their hosts responding to climate and vegetation changes, Dryad, Dataset, https://doi.org/10.5061/dryad.5b8t8
As populations shift their ranges in response to global change, local species assemblages can change, setting the stage for new ecological interactions, community equilibria, and evolutionary responses. Here we focus on the range dynamics of four avian brood parasite species and their hosts in southern Africa, in a context of bush encroachment (increase in woody vegetation density in places previously occupied by savanna-grassland mosaics) favouring some species at the expense of others. We first tested whether hosts and parasites constrained each other's ability to expand or maintain their ranges. Second, we investigated whether range shifts represented an opportunity for new host-parasite and parasite-parasite interactions. We used multi-species dynamic occupancy models with interactions, fitted to citizen-science data, to estimate the contribution of interspecific interactions to range shifts and to quantify the change in species co-occurrence probability over a 25-year period. Parasites were able to track their hosts’ range shifts. We detected no deleterious effect of the parasites’ presence on either the local population viability of host species or the hosts’ ability to colonize newly suitable areas. In the recently diversified indigobird radiation (Vidua spp.), following bush encroachment, the new assemblages presented more potential opportunities for speciation via host switch, but also more potential for hybridization between extant lineages, also via host switch. Multi-species dynamic occupancy models with interactions brought new insights into the feedbacks between range shifts, biotic interactions, and local demography: brood parasitism had little detected impact on extinction or colonization processes, but inversely the latter processes affected biotic interactions via the modification of co-occurrence patterns.