Abstract
Parasite lineages commonly diverge when host lineages diverge. However, when large clades of hosts and parasites are analyzed, some cases suggest host switching as another major diversification mechanism. The first step in host switching is the appearance of a parasite on an atypical host, or “straggling.” We analyze the conditions associated with straggling events. We use five species of colonially nesting seabirds from the Galapagos Archipelago and two genera of highly specific ectoparasitic lice to examine host switching. We use both genetic and morphological identification of lice, together with measurements of spatial distribution of hosts in mixed breeding colonies, to test: (1) effects of local host community composition on straggling parasite identity; (2) effects of relative host density within a mixed colony on straggling frequency and parasite species identity; and (3) how straggling rates are influenced by the specifics of louse attachment. Finally, we determine whether there is evidence of breeding in cases where straggling adult lice were found, which may indicate a shift from straggling to the initial stages of host switching. We analyzed more than 5,000 parasite individuals and found that only ~1% of lice could be considered stragglers, with ~5% of 436 host individuals having straggling parasites. We found that the presence of the typical host and recipient host in the same locality influenced straggling. Additionally, parasites most likely to be found on alternate hosts are those that are smaller than the typical parasite of that host, implying that the ability of lice to attach to the host might limit host switching. Given that lice generally follow Harrison's rule, with larger parasites on larger hosts, parasites infecting the larger host species are less likely to successfully colonize smaller host species. Moreover, our study supports the general perception that successful colonization of a novel host is extremely rare, as we found only one nymph of a straggling species, which may indicate successful reproduction.
Highlights
Colonization of novel environments can lead to the effective interruption of gene flow and generation of novel species (Feder, Egan, &Forbes, 2012; Ogden & Thorpe, 2002; Schluter, 2009)
We found evidence of the presence of adults considered as stragglers on a novel host and, in one case, a nymph of a straggling species on the atypical host
The likelihood of survival on a novel host might be directly driven by specific eco-morphological adaptation to escape from host preening defenses in ischnoceran lice
Summary
Colonization of novel environments can lead to the effective interruption of gene flow and generation of novel species The main defense that birds use to deal with these parasites is preening (Bush & Clayton, 2006; Bush, Sohn, & Clayton, 2006; Johnson, Bush, & Clayton, 2005) Because they are more mobile off the host, amblyceran lice are considered better dispersers and less host specific than ischnoceran lice (Clayton, Gregory, & Price, 1992). Amblyceran lice feed on skin tissue and may rupture the skin to feed on blood, where they might interact with the immune system of the host (Johnson, Weckstein, Bush, & Clayton, 2011; Johnson et al, 2005; Whiteman, Matson, Bollmer, & Parker, 2006) In both cases (amblycera and ischnocera), the way these parasites escape host preening is by firmly attaching to different components of the host feathers. The specific objectives of this study were to (1) describe the occurrence of straggling events across mixed seabird breeding colonies; (2) analyze the effect of the local host species composition on the frequency of straggling events; (3) test the effects of relative host density within a mixed seabird colony on the prevalence of straggling lice; (4) analyze directionality in straggling events, related to louse attachment efficiency; and (5) test for evidence of louse breeding on the new host in cases where adult straggling lice were found
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