Abstract
Recently commenced host–parasite interactions provide an excellent opportunity to study co-evolutionary processes. Multi-host systems are especially informative because variation in virulence between hosts and temporal changes provides insight into evolutionary dynamics. However, empirical data under natural conditions are scarce. In the present study, we investigated the interaction between Darwin’s finches and the invasive fly Philornis downsi whose larvae feed on the blood of nestlings. Recently, however, the fly has changed its behavior and now also attacks incubating females. Two sympatric hosts are affected differently by the parasite and parasite load has changed over time. Our study observed a reversal of trends described two decades ago: while, currently, small tree finches (Camarhynchus parvulus) experience significantly higher parasite load than warbler finches (Certhidea olivacea), this was the opposite two decades ago. Currently, fledging success is higher in warbler finches compared to small tree finches. Our data indicate that not only intensity but also timing of infestation influences hosts’ reproductive success and parasite fitness. During incubation, prevalence was higher in warbler finches, but once chicks had hatched, prevalence was 100% in both species and parasite load was higher in small tree finches. Furthermore, our results suggest faster development and higher reproductive success of P. downsi in small tree finch nests. A change in host preference driven by larvae competition could have led to the reversal in parasite load.
Highlights
Parasites cause direct or indirect fitness loss by impairing reproduction and survival (Clayton and Moore 1997; Lehmann 1993; Loye and Zuk 1991; Price 1980; Tschirren et al 2009) and, they represent a major selective force
We investigated the dynamics of a multi-host system under natural conditions by analyzing longitudinal data on virulence, infestation patterns and parasite developmental success in two sympatric host species, the warbler finch and small tree finch
Philornis downsi prevalence in nests that failed during incubation was significantly higher in warbler finch nests than in small tree finch nests (X2 = 16.62, df = 1, p ≪ 0.001, Fig. 1a, Table S1) and differed among years (X2 = 9.47, df = 4, p = 0.05, Fig. 1a, Table S1)
Summary
Parasites cause direct or indirect fitness loss by impairing reproduction and survival (Clayton and Moore 1997; Lehmann 1993; Loye and Zuk 1991; Price 1980; Tschirren et al 2009) and, they represent a major selective force. Virulence refers to the degree of fitness loss caused by pathogens and parasites. It is the result of complex interactions between host traits (resistance and tolerance) and Communicated by Indrikis Krams. Oecologia (2021) 195:249–259 affected hosts of this fly on the Galápagos Islands This obligate bird parasite was introduced to the Galápagos archipelago in the 1960s (Causton et al 2006; Kleindorfer and Sulloway 2016). The first instar larvae usually develop in the chicks’ nostrils, whereas the second and third instar larvae live in the bottom layer of the nest and suck blood from the nestlings (Dudaniec and Kleindorfer 2006; Fessl et al 2006b; O’Connor et al 2010a), causing severe fitness loss in their avian hosts (reviewed in Fessl et al 2017)
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