Abstract
The biogeography of host-parasite dynamics is an area that has received little attention in studies of island ecology. While a few studies have shed insight on patterns of parasitism in insular host populations, more empirical evidence is needed to ascertain how isolation impacts parasites. Biogeography generally theorizes that the physical size of islands and the duration of each island’s isolation can be driving geographic factors controlling species interactions and populations dynamics. To test this, we assessed the effect of island structure and population isolation on the endemic insular lizard Podarcis erhardii and its native hemogregarine parasite (Apicomplexa: Adeleorina) in the Cyclades (Aegean Sea). We analyzed the relationships of prevalence and parasitemia of hemogregarine infection with several factors concerning the island (size, time of isolation, spatial isolation, population density) and host (body size) levels using regression and structural equation models, respectively. Regressions indicate that islands with greater host density and islands which have been isolated for shorter timespans tend to have higher hemogregarine prevalences; structural equation models suggest a similar pattern for parasitemia. We hypothesize this may be driven by insular density compensation. Hosts on islands that are more temporally and spatially isolated also tend to have higher prevalence and parasitemia of hemogregarines. Our results indicate that island area, island isolation, and host population density are likely to be significant drivers of changes in host-parasite interactions in fragmented populations.
Highlights
Research in island biogeography has uncovered a variety of ecological patterns and processes that affect fragmented and isolated biotic communities
Hemogregarine infections were ubiquitous across all 18 study islands, but prevalence varied widely
Fragmentation and isolation of landscapes have complex effects on the ecology of host-parasite interactions; they are often mediated through a variety of ecological processes that may operate at different spatial scales
Summary
Research in island biogeography has uncovered a variety of ecological patterns and processes that affect fragmented and isolated biotic communities. Many studies focus on the effect of fragmentation and insularity on community structure, physiology, morphology, and predator-prey interactions (MacArthur and Wilson 1967, Adler and Levins 1994, Blondel 2000, Blumstein and Daniel 2005, Hurston et al 2009, Novosolov et al 2013), but less is known about the impact of insularity on host-parasite dynamics (i.e., infectious species which decrease host fitness with a pathology that is intensity-dependent, Lafferty and Kuris 2002) (McCallum and Dobson 2002). Parasitologists and ecologists have developed theory detailing the possibilities of host-parasite evolution following isolation, but there is still much opportunity for empirical and observational study of island biogeography in natural systems (Poulin 2004, Illera et al 2015)
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