Partitioning the net effect of host diversity on an emerging amphibian pathogen

The ‘dilution effect’ (DE) hypothesis predicts that diverse host communities will show reduced disease. The underlying causes of pathogen dilution are complex, because they involve non-additive (driven by host interactions and differential habitat use) and additive (controlled by host species composition) mechanisms. Here, we used measures of complementarity and selection traditionally employed in the field of biodiversity–ecosystem function (BEF) to quantify the net effect of host diversity on disease dynamics of the amphibian-killing fungus Batrachochytrium dendrobatidis ( Bd ). Complementarity occurs when average infection load in diverse host assemblages departs from that of each component species in uniform populations. Selection measures the disproportionate impact of a particular species in diverse assemblages compared with its performance in uniform populations, and therefore has strong additive and non-additive properties. We experimentally infected tropical amphibian species of varying life histories, in single- and multi-host treatments, and measured individual Bd infection loads. Host diversity reduced Bd infection in amphibians through a mechanism analogous to complementarity ( sensu BEF), potentially by reducing shared habitat use and transmission among hosts. Additionally, the selection component indicated that one particular terrestrial species showed reduced infection loads in diverse assemblages at the expense of neighbouring aquatic hosts becoming heavily infected. By partitioning components of diversity, our findings underscore the importance of additive and non-additive mechanisms underlying the DE.

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Social Behavior, Community Composition, Pathogen Strain, and Host Symbionts Influence Fungal Disease Dynamics in Salamanders

Frontiers in Veterinary Science ◽

10.3389/fvets.2021.742288 ◽

2021 ◽

Vol 8 ◽

Author(s):

Mae Cowgill ◽

Andrew G. Zink ◽

Wesley Sparagon ◽

Tiffany A. Yap ◽

Hasan Sulaeman ◽

...

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Linear Models ◽

Abiotic Factors ◽

Historical Context ◽

Maximum Temperature ◽

Disease Dynamics ◽

Amphibian Species ◽

Host Interactions ◽

Pathogen Invasion ◽

Skin Bacteria

The emerging fungal pathogen, Batrachochytrium dendrobatidis (Bd), which can cause a fatal disease called chytridiomycosis, is implicated in the collapse of hundreds of host amphibian species. We describe chytridiomycosis dynamics in two co-occurring terrestrial salamander species, the Santa Lucia Mountains slender salamander, Batrachoseps luciae, and the arboreal salamander, Aneides lugubris. We (1) conduct a retrospective Bd-infection survey of specimens collected over the last century, (2) estimate present-day Bd infections in wild populations, (3) use generalized linear models (GLM) to identify biotic and abiotic correlates of infection risk, (4) investigate susceptibility of hosts exposed to Bd in laboratory trials, and (5) examine the ability of host skin bacteria to inhibit Bd in culture. Our historical survey of 2,866 specimens revealed that for most of the early 20th century (~1920–1969), Bd was not detected in either species. By the 1990s the proportion of infected specimens was 29 and 17% (B. luciae and A. lugubris, respectively), and in the 2010s it was 10 and 17%. This was similar to the number of infected samples from contemporary populations (2014–2015) at 10 and 18%. We found that both hosts experience signs of chytridiomycosis and suffered high Bd-caused mortality (88 and 71% for B. luciae and A. lugubris, respectively). Our GLM revealed that Bd-infection probability was positively correlated with intraspecific group size and proximity to heterospecifics but not to abiotic factors such as precipitation, minimum temperature, maximum temperature, mean temperature, and elevation, or to the size of the hosts. Finally, we found that both host species contain symbiotic skin-bacteria that inhibit growth of Bd in laboratory trials. Our results provide new evidence consistent with other studies showing a relatively recent Bd invasion of amphibian host populations in western North America and suggest that the spread of the pathogen may be enabled both through conspecific and heterospecific host interactions. Our results suggest that wildlife disease studies should assess host-pathogen dynamics that consider the interactions and effects of multiple hosts, as well as the historical context of pathogen invasion, establishment, and epizootic to enzootic transitions to better understand and predict disease dynamics.

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A dilution effect in the emerging amphibian pathogen Batrachochytrium dendrobatidis

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1108490108 ◽

2011 ◽

Vol 108 (39) ◽

pp. 16322-16326 ◽

Cited By ~ 74

Author(s):

C. L. Searle ◽

L. M. Biga ◽

J. W. Spatafora ◽

A. R. Blaustein

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Dilution Effect ◽

Amphibian Pathogen

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Worrying News for Brazilian Caatinga: Prevalence of Batrachochytrium dendrobatidis in Amphibians

Tropical Conservation Science ◽

10.1177/1940082919892626 ◽

2019 ◽

Vol 12 ◽

pp. 194008291989262 ◽

Cited By ~ 1

Author(s):

Ronildo A. Benício ◽

Tamilie Carvalho ◽

Maria D. R. Barbosa ◽

Janiella de M Costa ◽

Felipe C. C. da Silva ◽

...

Keyword(s):

Atlantic Forest ◽

Batrachochytrium Dendrobatidis ◽

New Records ◽

Northeastern Brazil ◽

Chytrid Fungus ◽

Amphibian Species ◽

Semiarid Climate ◽

High Prevalence ◽

Amphibian Pathogen

The chytrid fungus Batrachochytrium dendrobatidis (Bd) has been linked to the declines of more than 500 amphibian species globally. In Brazil, Bd has been identified in several regions but predominantly in the Atlantic Forest. Data on the occurrence of this amphibian pathogen in northeastern Brazil are scarce, specifically from the Caatinga ecoregion, where there is only one study that reports Bd in the region. This study is the first to show a high prevalence of Bd in Caatinga’s species and includes two new records of species infected by Bd: Rhinella granulosa and R. jimi. In addition, we discuss the possibility of amphibian with terrestrial habits serving as potential Bd reservoirs in semiarid climate regions.

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Toward a unified dilution effect theory: How competence, competition, and the transmission mechanism influence disease prevalence

10.1101/2020.01.31.928820 ◽

2020 ◽

Author(s):

Michael H. Cortez ◽

Meghan A. Duffy

Keyword(s):

Host Species ◽

Dilution Effect ◽

Disease Prevalence ◽

Pathogen Transmission ◽

Transmission Mechanism ◽

Infection Prevalence ◽

Host Interactions ◽

Host Diversity ◽

Disease Patterns ◽

Effect Theory

ABSTRACTBiodiversity in communities is changing globally, including the gain and loss of host species in host-pathogen communities. The dilution effect argues for a mechanistic link between increased host diversity and decreased disease in a focal host. However, we currently have a limited understanding of how the pathogen transmission mechanism and between-host interactions influence whether increased host diversity leads to increased (amplification) or decreased (dilution) infection prevalence. We use a two-host-one-pathogen model to unify theory for pathogens with environmental transmission and density-dependent and frequency-dependent direct transmission. We then identify general rules governing how the pathogen transmission mechanism and characteristics of the introduced host (disease competence and competitive ability) influence whether the introduction of a second host species increases or decreases disease prevalence in a focal host. We discuss how our results yield insight into how specific biological mechanisms shape host biodiversity-disease patterns.

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Amphibian Pathogen Batrachochytrium dendrobatidis Is Inhibited by the Cutaneous Bacteria of Amphibian Species

EcoHealth ◽

10.1007/s10393-005-0009-1 ◽

2006 ◽

Vol 3 (1) ◽

pp. 53-56 ◽

Cited By ~ 179

Author(s):

Reid N. Harris ◽

Timothy Y. James ◽

Antje Lauer ◽

Mary Alice Simon ◽

Amit Patel

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Amphibian Species ◽

Amphibian Pathogen

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Using occupancy models to understand the distribution of an amphibian pathogen, Batrachochytrium dendrobatidis

Ecological Applications ◽

10.1890/08-2319.1 ◽

2010 ◽

Vol 20 (1) ◽

pp. 289-302 ◽

Cited By ~ 56

Author(s):

Michael J. Adams ◽

Nathan D. Chelgren ◽

David Reinitz ◽

Rebecca A. Cole ◽

Lara J. Rachowicz ◽

...

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Occupancy Models ◽

Amphibian Pathogen

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Diversifying forest communities may change Lyme disease risk: extra dimension to the dilution effect in Europe

Parasitology ◽

10.1017/s0031182016000688 ◽

2016 ◽

Vol 143 (10) ◽

pp. 1310-1319 ◽

Cited By ~ 15

Author(s):

SANNE C. RUYTS ◽

EVY AMPOORTER ◽

ELENA C. COIPAN ◽

LANDER BAETEN ◽

DIETER HEYLEN ◽

...

Keyword(s):

North America ◽

Lyme Disease ◽

Borrelia Burgdorferi ◽

Disease Risk ◽

Severe Disease ◽

Dilution Effect ◽

Ixodid Ticks ◽

Infection Prevalence ◽

Host Diversity ◽

Pine Stands

SUMMARYLyme disease is caused by bacteria of theBorrelia burgdorferigenospecies complex and transmitted by Ixodid ticks. In North America only one pathogenic genospecies occurs, in Europe there are several. According to the dilution effect hypothesis (DEH), formulated in North America, nymphal infection prevalence (NIP) decreases with increasing host diversity since host species differ in transmission potential. We analysedBorreliainfection in nymphs from 94 forest stands in Belgium, which are part of a diversification gradient with a supposedly related increasing host diversity: from pine stands without to oak stands with a shrub layer. We expected changing tree species and forest structure to increase host diversity and decrease NIP. In contrast with the DEH, NIP did not differ between different forest types. Genospecies diversity however, and presumably also host diversity, was higher in oak than in pine stands. Infected nymphs tended to harbourBorrelia afzeliiinfection more often in pine stands whileBorrelia gariniiandBorrelia burgdorferiss. infection appeared to be more prevalent in oak stands. This has important health consequences, since the latter two cause more severe disease manifestations. We show that the DEH must be nuanced for Europe and should consider the response of multiple pathogenic genospecies.

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Fungal infection, decline and persistence in the only obligate troglodytic Neotropical salamander

PeerJ ◽

10.7717/peerj.9763 ◽

2020 ◽

Vol 8 ◽

pp. e9763

Author(s):

Mizraim Olivares-Miranda ◽

Vance T. Vredenburg ◽

Julio C. García-Sánchez ◽

Allison Q. Byrne ◽

Erica B. Rosenblum ◽

...

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Infection Intensity ◽

Sampling Technique ◽

Sympatric Species ◽

Amphibian Declines ◽

Small Range ◽

Museum Specimens ◽

Amphibian Species ◽

Extant Population ◽

Epidemic Wave

The fungal pathogen Batrachochytrium dendrobatidis (Bd) is implicated in global mass die-offs and declines in amphibians. In Mesoamerica, the Bd epidemic wave hypothesis is supported by detection of Bd in historic museum specimens collected over the last century, yet the timing and impact of the early stages of the wave remain poorly understood. Chiropterotriton magnipes, the only obligate troglodytic Neotropical salamander, was abundant in its small range in the decade following its description in 1965, but subsequently disappeared from known localities and was not seen for 34 years. Its decline is roughly coincident with that of other populations of Neotropical salamanders associated with the invasion and spread of Bd. To determine the presence and infection intensity of Bd on C. magnipes and sympatric amphibian species (which are also Bd hosts), we used a noninvasive sampling technique and qPCR assay to detect Bd on museum specimens of C. magnipes collected from 1952 to 2012, and from extant populations of C. magnipes and sympatric species of amphibians. We also tested for the presence of the recently discovered Batrachochytrium salamandivorans (Bsal), another fungal chytridiomycete pathogen of salamanders, using a similar technique specific for Bsal. We did not detect Bd in populations of C. magnipes before 1969, while Bd was detected at low to moderate prevalence just prior to and during declines. This pattern is consistent with Bd-caused epizootics followed by host declines and extirpations described in other hosts. We did not detect Bsal in any extant population of C. magnipes. We obtained one of the earliest positive records of the fungus to date in Latin America, providing additional historical evidence consistent with the Bd epidemic wave hypothesis. Genotyping results show that at least one population is currently infected with the Global Panzootic Lineage of Bd, but our genotyping of the historical positive samples was unsuccessful. The lack of large samples from some years and the difficulty in genotyping historical Bd samples illustrate some of the difficulties inherent in assigning causality to historical amphibian declines. These data also provide an important historical baseline for actions to preserve the few known remaining populations of C. magnipes.

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Establishement of a national monitoring program based on environmental DNA for amphibians and the chytrid fungus Batrachochytrium dendrobatidis

ARPHA Conference Abstracts ◽

10.3897/aca.4.e65362 ◽

2021 ◽

Vol 4 ◽

Author(s):

Omneya Osman ◽

Johan Andersson ◽

Tomas Larsson ◽

Mats Töpel ◽

Alexander Eiler

Keyword(s):

Batrachochytrium Dendrobatidis ◽

National Level ◽

Monitoring Program ◽

12S Rrna ◽

Rrna Gene ◽

Chytrid Fungus ◽

Rana Arvalis ◽

Amphibian Species ◽

National Monitoring ◽

Wide Range

National monitoring programs provide the basis for evaluating the integrity of ecosystems, their responses to disturbances, and the success of actions taken to conserve or recover biodiversity. In this study, we successfully established a national program for the invasive chytrid fungus Batrachochytrium dendrobatidis (Bd) based on dual TaqMan assays. Amphibian diversity based on metabarcoding of the mitochondrial 12S rRNA gene was also performed. Assays were optimized for sensitive detection of target species from a wide range of amphibian ponds with variable potential of inhibitions for eDNA based detection. An amphibian mock community of 5 species was used to validate the metabarcoding approach while internal standards were used in the case of the dual TaqMan assays. First sampling of over 170 ponds in Norway resulted in Bd detection in 12 environmental samples and one swab sample taken over multiple years indicating the establishment of Bd in Norway. Five amphibian species Bufo bufo, Lissotriton vulgaris, Triturus cristatus, Rana arvalis and Rana temporaria as predicted from data in long-term citizen science reporting systems were widely detected in the collected eDNA samples. Our large scale-monitoring program indicates a low risk of a Bd outbreak and amphibian decline caused by chytridiomycosis but continued monitoring is recommended in the future. These findings indicate that eDNA is an effective method to detect invasive species, and to monitor endangered amphibian species. Still, several shortcomings (such as PCR inhibitors and sample volume) were identified that need to be addressed to improve eDNA-based monitoring at the national level.

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Ancestral chytrid pathogen remains hypervirulent following its long coevolution with amphibian hosts

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2019.0833 ◽

2019 ◽

Vol 286 (1904) ◽

pp. 20190833 ◽

Cited By ~ 3

Author(s):

Minjie Fu ◽

Bruce Waldman

Keyword(s):

Batrachochytrium Dendrobatidis ◽

Population Declines ◽

Amphibian Species ◽

South Korean ◽

Global Pandemic ◽

Litoria Caerulea ◽

Experimental Treatments ◽

Amphibian Chytrid Fungus ◽

Genomic Recombination ◽

Blank Solution

Many amphibian species around the world, except in Asia, suffer morbidity and mortality when infected by the emerging infectious pathogen Batrachochytrium dendrobatidis (Bd). A lineage of the amphibian chytrid fungus isolated from South Korean amphibians (BdAsia-1) is evolutionarily basal to recombinant global pandemic lineages (BdGPL) associated with worldwide amphibian population declines. In Asia, the Bd pathogen and its amphibian hosts have coevolved over 100 years or more. Thus, resilience of Asian amphibian populations to infection might result from attenuated virulence of endemic Bd lineages, evolved immunity to the pathogen or both. We compared susceptibilities of an Australasian amphibian, Litoria caerulea , known to lack resistance to BdGPL, with those of three Korean species, Bufo gargarizans , Bombina orientalis and Hyla japonica , after inoculation with BdAsia-1, BdGPL or a blank solution. Subjects became infected in all experimental treatments but Korean species rapidly cleared themselves of infection, regardless of Bd lineage. They survived with no apparent secondary effects. By contrast, L. caerulea , after infection by either BdAsia-1 or BdGPL, suffered deteriorating body condition and carried progressively higher Bd loads over time. Subsequently, most subjects died. Comparing their effects on L. caerulea , BdAsia-1 induced more rapid disease progression than BdGPL. The results suggest that genomic recombination with other lineages was not necessary for the ancestral Bd lineage to evolve hypervirulence over its long period of coevolution with amphibian hosts. The pathogen's virulence may have driven strong selection for immune responses in endemic Asian amphibian host species.

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