What Drives Chytrid Infections in Newt Populations? Associations with Substrate, Temperature, and Shade

Raffel, Thomas R.; Michel, Patrick J.; Sites, Edward W.; Rohr, Jason R.

doi:10.1007/s10393-010-0358-2

Cited by 83 publications

(98 citation statements)

References 49 publications

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“…Bd was also positively associated with vegetation (mean NDVI), consistent with previous studies on Bd [22,23]. The NDVI is often a surrogate for the dynamics of ground moisture and temperature, which might affect the survival of many pathogens, including Bd, which is known to be sensitive to moisture and temperature [19].…”

Section: Discussionsupporting

confidence: 86%

“…The NDVI is often a surrogate for the dynamics of ground moisture and temperature, which might affect the survival of many pathogens, including Bd, which is known to be sensitive to moisture and temperature [19]. Vegetation might increase moisture by reducing evaporation and might reduce temperature extremes preventing high-temperature clearance of Bd [23]. We did not find a significant contribution of precipitation or water habitat to the global distribution of Bd.…”

Section: Discussioncontrasting

confidence: 54%

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Climate, vegetation, introduced hosts and trade shape a global wildlife pandemic

2013

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Global factors, such as climate change, international trade and introductions of exotic species are often elicited as contributors to the unprecedented rate of disease emergence, but few studies have partitioned these factors for global pandemics. Although contemporary correlative species distribution models (SDMs) can be useful for predicting the spatial patterns of emerging diseases, they focus mainly on the fundamental niche (FN) predictors (i.e. abiotic climate and habitat factors), neglecting dispersal and propagule pressure predictors (PP, number of non-native individuals released into a region). Using a validated, predictive and global SDM, we show that both FN and PP accounted for significant, unique variation to the distribution of the chytrid fungus Batrachochytrium dendrobatidis (Bd), a pathogen implicated in the declines and extinctions of over 200 amphibian species worldwide. Bd was associated positively with vegetation, total trade and introduced amphibian hosts, nonlinearly with annual temperature range and non-significantly with amphibian leg trade or amphibian species richness. These findings provide a rare example where both FN and PP factors are predictive of a global pandemic. Our model should help guide management of this deadly pathogen and the development of other globally predictive models for species invasions and pathogen emergence influenced by FN and PP factors.

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Section: Discussionsupporting

confidence: 86%

Section: Discussioncontrasting

confidence: 54%

Climate, vegetation, introduced hosts and trade shape a global wildlife pandemic

2013

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“…More work needs to be done to assess what the natural levels of leaf extracts are and how these concentrations can influence Bd dynamics. In contrast to our results, leaf litter and vegetation were found to be related to higher Bd infection in Pennsylvania newts Notophthalmus viridescens which was also related to cooler water temperature (Raffel et al 2010). This demonstrates that in natural conditions the effect of plants may be more indirect by providing shade or thermal refugia for Bd growth.…”

Section: Discussioncontrasting

confidence: 56%

Potential influence of plant chemicals on infectivity of Batrachochytrium dendrobatidis

Davidson¹,

Larsen²,

Palmer³

2012

Dis. Aquat. Org.

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We explored whether extracts of trees frequently found associated with amphibian habitats in Australia and Arizona, USA, may be inhibitory to the fungal pathogen Batrachochytrium dendrobatidis (Bd), which has been associated with global amphibian declines. We used salamanders Ambystoma tigrinum as the model system. Salamanders acquired significantly lower loads of Bd when exposed on leaves and extracts from the river red gum Eucalyptus camaldulensis, and loads were also low in some animals exposed on extracts of 2 oak species, Quercus emoryi and Q. turbinella. Some previously infected salamanders had their pathogen loads reduced, and some were fully cured, by placing them in leaf extracts, although some animals also self cured when housed in water alone. A significant number of animals cured of Bd infections 6 mo earlier were found to be resistant to reinfection. These results suggest that plants associated with amphibian habitats should be taken into consideration when explaining the prevalence of Bd in these habitats and that some amphibians may acquire resistance to the fungus if previously cured.

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“…Multiple studies have investigated the role of regional climate in Bd-induced amphibian declines (24,46,47). However, few studies to date have focused on how microclimate mediates host-pathogen interactions (48,49), and more broadly, how large-scale climate relates to microclimates experienced by individual frogs. A recent study found that ponds with fewer surrounding trees reached higher temperatures, significantly reducing Bd infections in salamanders (49).…”

Section: Discussionmentioning

confidence: 99%

“…However, few studies to date have focused on how microclimate mediates host-pathogen interactions (48,49), and more broadly, how large-scale climate relates to microclimates experienced by individual frogs. A recent study found that ponds with fewer surrounding trees reached higher temperatures, significantly reducing Bd infections in salamanders (49). Given the known temperature-dependence of host-pathogen interactions, another hypothesis is that temperature variability, rather than average temperature, is an important predictor of disease risk (47).…”

Section: Discussionmentioning

confidence: 99%

Tropical amphibian populations experience higher disease risk in natural habitats

Becker

Zamudio

2011

Proc. Natl. Acad. Sci. U.S.A.

159

140

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Habitat loss and disease are main drivers of global amphibian declines, yet the interaction between them remains largely unexplored. Here we show that paradoxically, habitat loss is negatively associated with occurrence, prevalence, and infection intensity of the chytrid fungus Batrachochytrium dendrobatidis (Bd) in amphibian populations in the tropics. At a large spatial scale, increased habitat loss predicted lower disease risk in amphibian populations across Costa Rica and eastern Australia, even after jointly considering the effect of potential biotic and abiotic correlates. Lower host-species richness and suboptimal microclimates for Bd in disturbed habitats are potential mechanisms underlying this pattern. Furthermore, we found that anthropogenic deforestation practices biased to lowlands and natural vegetation remaining in inaccessible highlands explain increased Bd occurrence at higher elevations. At a smaller spatial scale, holding constant elevation, latitude, and macroclimate, we also found a negative relationship between habitat loss, and both Bd prevalence and infection intensity in frog populations in two landscapes of the Brazilian Atlantic Forest. Our results indicate that amphibians will be disproportionately affected by emerging diseases in pristine environments, and that, paradoxically, disturbed habitats may act as shelters from disease, but only for the very few species that can tolerate deforestation. Thus, tropical amphibian faunas are threatened both by destruction of natural habitats as well as increased disease in pristine forests. To curb further extinctions and develop effective mitigation and restoration programs we must look to interactions between habitat loss and disease, the two main factors at the root of global amphibian declines.chytridiomycosis | species diversity | anurans | Neotropics | pathogen

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What Drives Chytrid Infections in Newt Populations? Associations with Substrate, Temperature, and Shade

Cited by 83 publications

References 49 publications

Climate, vegetation, introduced hosts and trade shape a global wildlife pandemic

Climate, vegetation, introduced hosts and trade shape a global wildlife pandemic

Potential influence of plant chemicals on infectivity of Batrachochytrium dendrobatidis

Tropical amphibian populations experience higher disease risk in natural habitats

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