Experimental infection dynamics: using immunosuppression and<i>in vivo</i>parasite tracking to understand host resistance in an amphibian-trematode system

LaFonte, Bryan E.; Johnson, Pieter T. J.

doi:10.1242/jeb.088104

Cited by 39 publications

(48 citation statements)

References 78 publications

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“…The presence of malformed frogs has often prompted a subsequent examination to determine whether R. ondatrae is present; however, amphibian species vary in their propensity to develop malformations following exposure (Johnson et al 2012). In southern Ontario, only grey tree frogs ( Hyla versicolor ), green frogs ( Lithobates clamitans ), and American bullfrogs ( Lithobates catesbeianus ) have been detected at our field sites, all of which are highly resistant to R. ondatrae -induced malformations (Johnson et al 2012, LaFonte and Johnson 2013). While amphibian deformities have been reported in eastern Canada (Ouellet et al 1997), the role of R. ondatrae has not been specifically examined in relation to these observations, and has only been confirmed as a causative agent in a host species ( Pseudacris regilla ) restricted to western Canada (Roberts and Dickinson 2012).…”

Section: Discussionmentioning

confidence: 89%

“…As discussed above, grey tree frogs were primarily sampled in the southern Ontario wetlands, and are highly resistant to R. ondatrae infection (Johnson et al 2012). Because tadpoles of this species are capable of actively clearing cysts within 72 hours (LaFonte and Johnson 2013), collected hosts would have to represent recent infection events in order to detect R. ondatrae through necropsy. The eDNA results may therefore provide a more accurate assessment of parasite presence in this case.…”

Section: Discussionmentioning

confidence: 99%

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Development and application of an eDNA method to detect and quantify a pathogenic parasite in aquatic ecosystems

Huver

Koprivnikar

Johnson

et al. 2015

Ecological Applications

109

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Approaches based on organismal DNA found in the environment (eDNA) have become increasingly utilized for ecological studies and biodiversity inventories as an alternative to traditional field survey methods. Such DNA-based techniques have been largely used to establish the presence of free-living organisms, but have much potential for detecting and quantifying infectious agents in the environment, which are necessary to evaluate disease risk. We developed an eDNA method to examine the distribution and abundance of the trematode Ribeiroia ondatrae, a pathogenic parasite known to cause malformations in North American amphibians. In addition to comparing this eDNA approach to classical host necropsy, we examined the detectability of R. ondatrae in water samples subject to different degradation conditions (time and temperature). Our test exhibited high specificity and sensitivity to R. ondatrae, capable of detecting as little as 14 fg of this parasite’s DNA (1/2500th of a single infectious stage) from field water samples. Compared to our results from amphibian host necropsy, quantitative PCR was ∼ 90% concordant with respect to R. ondatrae detection from 15 field sites and was also a significant predictor of host infection abundance. DNA was still detectable in lab samples after 21 days at 25 °C, indicating that our method is robust to field conditions. By comparing the advantages and disadvantages of eDNA versus traditional survey methods for determining pathogen presence and abundance in the field, we found that the lower costs and effort associated with eDNA approaches provide many advantages. The development of alternative tools is critical for disease ecology as wildlife management and conservation efforts require reliable establishment and monitoring of pathogens.

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Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Development and application of an eDNA method to detect and quantify a pathogenic parasite in aquatic ecosystems

Huver

Koprivnikar

Johnson

et al. 2015

Ecological Applications

109

View full text Add to dashboard Cite

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“…Infection success was similar in the experimental tadpoles exposed to R. ondatrae and the 15 tadpoles exposed but not introduced into mesocosms (see Results), but we cannot completely eliminate the possibility that individuals categorized as uninfected had lost their infections over the period of our experiment. However, larval P. regilla have a very low rate of R. ondatrae cyst clearance (Lafonte and Johnson 2013), and it is unlikely that individuals categorized as uninfected had lost their infections. We explored the importance of competitive ability by comparing developmental stage and likelihood of early emergence of uninfected tadpoles compet- ing against uninfected conspecifics in the no-parasitism mesocosms vs uninfected tadpoles competing against a mixture of infected and uninfected conspecifics in the parasitism mesocosms.…”

Section: Data Collection and Statistical Analysismentioning

confidence: 99%

Combined influence of hydroperiod and parasitism on larval amphibian development

2014

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Hydroperiod strongly influences the breeding period and development time of many amphibians, and larvae of various species display developmental plasticity in response to habitat drying. Hydrologic alterations associated with anthropogenic activities potentially can influence host-parasite interactions in humans and wildlife, but few investigators have examined this possibility. Pathogens can delay amphibian development, so infections could constrain the ability of parasitized larvae to respond to a shortened hydroperiod under drying conditions. We examined the individual and joint effects of hydroperiod and infection with a pathogenic trematode parasite (Ribeiroia ondatrae) on larval development of Pacific chorus frogs (Pseudacris regilla) in mesocosms. Tadpoles subjected to accelerated drying were twice as likely to emerge early. However, this tendency was most pronounced among uninfected individuals (96% of early-emerging individuals) and may have arisen from differences in competitive ability between infected and uninfected conspecifics in mesocosms. Our findings indicate the importance of investigating hydrologic variables associated with environmental perturbations, such as climate change, particularly as they relate to the ability of organisms to respond to multiple stressors that include diseases.

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“…Recent evidence that amphibian hosts differ in the capacity to "clear" trematode parasites post-infection emphasizes the importance of quantifying temporal changes in infection load. For instance, LaFonte and Johnson (2013) showed that the median survival time of Ribeiroia metacercariae within amphibians could vary from 10 hrs to >600 hrs among different frog species (LaFonte and Johnson, 2013). Such observations have prompted growing interest in sub-lethal methods for quantifying parasite infections in vivo, such as qPCR of skin swabs to track chytridiomycosis infection at multiple time points (Herbert et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

“…Such observations have prompted growing interest in sub-lethal methods for quantifying parasite infections in vivo, such as qPCR of skin swabs to track chytridiomycosis infection at multiple time points (Herbert et al, 2011). The use of fluorescently labeled parasites, for example, allows researchers to track both initial infection success as well as the subsequent fate of each colonizing parasite within living hosts over time, at least for parasites that are visible externally through the host tissue (Herbert et al, 2011;Keeney et al, 2008;LaFonte and Johnson, 2013). Because this technique is non-destructive, it also provides an opportunity to compare estimates of infection between different methods, thereby yielding measures of accuracy, precision and bias.…”

Section: Introductionmentioning

confidence: 99%

Quantifying larval trematode infections in hosts: A comparison of method validity and implications for infection success

LaFonte

Raffel

Monk

et al. 2015

Experimental Parasitology

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Accurately estimating parasite transmission success and subsequent infection load has important ramifications for a wide range of disease-related questions and research disciplines. Recent interest in the role of parasites in amphibian population declines and deformities, for instance, has prompted increased interest in approaches to quantify infection and pathology. Here, we introduce a novel method of fluorescently labeling trematode cercariae and optimize its application to interactions between the pathogenic trematode Ribeiroia ondatrae and amphibian hosts (Lithobates sphenocephalus). We then compare the efficacy of this method with two other approaches commonly used to assess infection in second intermediate hosts – necropsy and tissue clearing – with a focus on accuracy, precision, and bias. Dye (Invitrogen, BODIPY® FL C12) concentrations of <200 nM and DMSO solvent concentrations <0.2% offered a highly visible, long-lasting marker with no detectable effects on cercariae survival or metacercariae establishment. Among methods, the necropsy approach yielded the highest proportion of detected parasites and the lowest standard error around the mean. However, the fluorescent labeling method offered highly similar results (r = 0.99), with an estimated 75% of administered parasites establishing successfully. At low to moderate parasite exposure dosages, tissue clearing was comparable to the other two methods, but tended to underpredict infection at the higher exposures (i.e., 'proportional bias'), likely because individual parasites became more difficult to distinguish. Conceptually, these findings illustrate that initial infection within amphibian hosts is a consistent, linear function of exposure dosage, suggesting that parasite density dependence does not regulate initial establishment. From an applied standpoint, our results offer a methodological foundation for subsequent research using fluorescently labeled parasites, which offer distinct advantages such as allowing in vivo parasite tracking within living hosts.

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Experimental infection dynamics: using immunosuppression andin vivoparasite tracking to understand host resistance in an amphibian-trematode system

Cited by 39 publications

References 78 publications

Development and application of an eDNA method to detect and quantify a pathogenic parasite in aquatic ecosystems

Development and application of an eDNA method to detect and quantify a pathogenic parasite in aquatic ecosystems

Combined influence of hydroperiod and parasitism on larval amphibian development

Quantifying larval trematode infections in hosts: A comparison of method validity and implications for infection success

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