Living on the Edge: Parasite Prevalence Changes Dramatically across a Range Edge in an Invasive Gecko

Coates, Andrew; Barnett, Louise K.; Hoskin, Conrad J.; Phillips, Ben L.

doi:10.1086/689820

Cited by 21 publications

(23 citation statements)

References 26 publications

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“…It is generally thought that the location of a host and subsequent attachment by a dodder are mainly induced by changes in light quantity and quality rather than by volatile chemical cues from host plants 9,10 . Cuscuta seedlings conspicuously grow toward conditions with low red light:far-red light (R:FR) ratios, which are associated with denser canopy environments 9,10 , so the probability of encountering and parasitizing a host plant is much greater for dodder seedlings, which is consistent with previos results that the spread of parasites is mainly driven by host density 11,12 . Furthermore, parasites often prefer hosts with higher nutrient contents, especially nitrogen (N) (such as legumes) as N content is important in parasite performance, although it is not always better on nutrient-rich plants 13–16 .…”

Section: Introductionsupporting

confidence: 72%

The factors affecting a native obligate parasite, Cuscuta australis, in selecting an exotic weed, Humulus scandens, as its host

Zhong

Yuan

et al. 2019

Sci Rep

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In weed management, using native parasites to control exotic weeds is considered a better alternative than classical biological control. But the risk must be assessed because of the potential damage caused by these agents. We conducted this project to investigate the mechanism driving the choice of a native obligate parasite, Cuscuta australis, between the exotic, Humulus scandens, and native plants as its host through field and pot experiments. The results showed that C. australis preferred the exotic weed over native (naturalized) hosts and caused a notable reduction in the biomass of H. scandens in the field. In contrast, the results of the pot experimentindicated that C. australis preferred a mix of native (naturalized) hosts over the exotic weed. Both texperiments indicated that the parasitic preference of C. australis was induced more by light irradiance than plant water, carbon (C), nitrogen (N) and phosphorus (P) contents, indicating that the native parasite can only be used to control H. scandens when the exotic weed forms mono-cultures or dominates the community. Accordingly, induction and release of C. australis to control H. scandens should be conducted with great caution.

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Section: Introductionsupporting

confidence: 72%

The factors affecting a native obligate parasite, Cuscuta australis, in selecting an exotic weed, Humulus scandens, as its host

Zhong

Yuan

et al. 2019

Sci Rep

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“…Morphological divergence of dispersal‐related traits in vanguard populations has been observed in amphibians, for example in Australia with the invasive cane toad ( Rhinella marina ) and in France with the invasive African clawed frog ( Xenopus laevis ) (Phillips et al ., ; Louppe, Courant & Herrel, ). Similarly, reduced parasite prevalence in range‐edge populations has been demonstrated with the blue striped snapper ( Lutjanus kasmira ) in Hawaii and the common house geckos ( Hemidactylus frenatus ) in Australia (Gaither et al ., ; Coates et al ., ). In both cases there is a clear decrease in parasite prevalence moving from core, intermediate, to range‐edge populations.…”

Section: Introductionmentioning

confidence: 97%

Morphological divergence and reduced ectoparasite prevalence in an introduced population of a Caribbean anole

Bodden

Puschendorf

2019

Journal of Zoology

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As biological invasions become increasingly common understanding what factors drive a species’ ability to rapidly colonize new habitats will be important for future conservation management. Theoretical models predict that spatial sorting of an invasive population will select for enhanced dispersal‐related traits and lower prevalence of parasitic infections. Supporting these, there is a growing body of evidence that demonstrates both features are common in invasive populations, although, these observations stem from mainland systems, over larger spatial scales. Here, we investigated the morphology and ectoparasite prevalence of Maynard's anole (Anolis maynardi) in its native range Little Cayman, and across its introduced range Cayman Brac where it invaded 31 years ago. We tested for morphological divergence, ectoparasite prevalence between the native population and the core, intermediate and range edge populations within the introduced range. In addition, we compared the overall body condition of lizards from each sex between islands using the scaled‐mass index. Our results suggest that spatial sorting could have selected for less parasitized individuals on the range edge of the introduced population, across an area of just 39 km2. However, there was no difference in hind‐limb length, the character that is expected to enhance dispersal ability, across the range of the introduced population. Instead, the greatest variation in morphology across the introduced range was found in fore‐limb length. Finally, both males and females from the introduced population were of significantly higher body condition than the native population, yet ectoparasite intensity had no effect on the body condition of infested hosts. These results highlight the rapid change in forelimb length and overall morphology has occurred rapidly since the species’ first introduction and a clear reduction in parasite prevalence on the range edge of the introduced population. Together these attributes have likely contributed to the successful colonization of Cayman Brac by A. maynardi.

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“…For instance, it has been found that parasite load varies according to habitat type, as a result of the environmental suitability for the parasite (Bulté et al 2009, Rubio andSimonetti 2009). In this regard, parasitism rate widely oscillates not only between individuals of the same species due to factors related to health condition (i.e., infection susceptibility or ability to defend against infection through immune system) (Folstad and Karter 1992) or behavioral avoidance (Hart 1990), but also between populations due to the differences in environmental conditions where each population inhabits (Coates et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Habitat type influences parasite load in Algerian Psammodromus (Psammodromus algirus) lizards

2019

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Understanding how habitat type and deterioration may affect parasitism is important in assessing the effects of human-induced environmental change on host–parasite dynamics. In this study, we examined inter-population differences in parasite load in the Mediterranean lizard Psammodromus algirus (Linnaeus, 1758). We analyzed prevalence and intensity of infection by blood parasites and ectoparasites in two populations separated by a 400 m elevational gradient and with different habitat types that also differed in the degree of human alteration. We also compared data obtained from the same populations 10 years later to assess whether there have been temporary changes in parasite loads. Results showed that prevalence and intensity of blood parasites were higher in the deteriorated lowland holm oak forest population than in the well-preserved upland oak forest. In contrast, the prevalence and intensity of infection by Ixodes Latreille, 1795 ticks was higher in the upland oak forest population. Individuals from the lowland population were in poorer condition. Intensities of infection by blood parasites and ectoparasites have decreased significantly from 2005–2006 to 2016 in both populations. Our results suggest that inter-population differences in parasite load may be explained by differences in habitat characteristics. This study contributes to the identification of ecosystems and habitats that are most sensitive to prevalence and intensity of infection by parasites.

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Living on the Edge: Parasite Prevalence Changes Dramatically across a Range Edge in an Invasive Gecko

Cited by 21 publications

References 26 publications

The factors affecting a native obligate parasite, Cuscuta australis, in selecting an exotic weed, Humulus scandens, as its host

The factors affecting a native obligate parasite, Cuscuta australis, in selecting an exotic weed, Humulus scandens, as its host

Morphological divergence and reduced ectoparasite prevalence in an introduced population of a Caribbean anole

Habitat type influences parasite load in Algerian Psammodromus (Psammodromus algirus) lizards

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