42 results on '"Pasmans, Frank"'
Search Results
2. Disruption of skin microbiota contributes to salamander disease
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Bletz, Molly C., Kelly, Moira, Sabino-Pinto, Joana, Bales, Emma, Van Praet, Sarah, Bert, Wim, Boyen, Filip, Vences, Miguel, Steinfartz, Sebastian, Pasmans, Frank, and Martel, An
- Published
- 2018
3. Divergent population responses following salamander mass mortalities and declines driven by the emerging pathogen Batrachochytrium salamandrivorans.
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Erens, Jesse, Preissler, Kathleen, Speybroeck, Jeroen, Beukema, Wouter, Spitzen-van der Sluijs, Annemarieke, Stark, Tariq, Laudelout, Arnaud, Kinet, Thierry, Schmidt, Benedikt R., Martel, An, Steinfartz, Sebastian, and Pasmans, Frank
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SALAMANDERS ,BIOCOMPLEXITY ,DISEASE resistance of plants ,ENVIRONMENTAL degradation ,PATHOGENIC microorganisms - Abstract
Understanding wildlife responses to novel threats is vital in counteracting biodiversity loss. The emerging pathogen Batrachochytrium salamandrivorans (Bsal) causes dramatic declines in European salamander populations, and is considered an imminent threat to global amphibian biodiversity. However, real-life disease outcomes remain largely uncharacterized. We performed a multidisciplinary assessment of the longer-term impacts of Bsal on highly susceptible fire salamander (Salamandra salamandra) populations, by comparing four of the earliest known outbreak sites to uninfected sites. Based on large-scale monitoring efforts, we found population persistence in strongly reduced abundances to over a decade after Bsal invasion, but also the extinction of an initially small-sized population. In turn, we found that host responses varied, and Bsal detection remained low, within surviving populations. Demographic analyses indicated an ongoing scarcity of large reproductive adults with potential for recruitment failure, while spatial comparisons indicated a population remnant persisting within aberrant habitat. Additionally, we detected no early signs of severe genetic deterioration, yet nor of increased host resistance. Beyond offering additional context to Bsal-driven salamander declines, results highlight how the impacts of emerging hypervirulent pathogens can be unpredictable and vary across different levels of biological complexity, and how limited pathogen detectability after population declines may complicate surveillance efforts. [ABSTRACT FROM AUTHOR]
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- 2023
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4. Widespread triazole pesticide use affects infection dynamics of a global amphibian pathogen.
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Barbi, Andrea, Goessens, Tess, Strubbe, Diederik, Deknock, Arne, Van Leeuwenberg, Robby, De Troyer, Niels, Verbrugghe, Elin, Greener, Mark, De Baere, Siegrid, Lens, Luc, Goethals, Peter, Martel, An, Croubels, Siska, and Pasmans, Frank
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AMPHIBIANS ,TRIAZOLES ,AMPHIBIAN declines ,AGRICULTURAL exhibitions ,HOLOCENE extinction ,PESTICIDES ,FUNGICIDES - Abstract
The sixth mass extinction is a consequence of complex interplay between multiple stressors with negative impact on biodiversity. We here examine the interaction between two globally widespread anthropogenic drivers of amphibian declines: the fungal disease chytridiomycosis and antifungal use in agriculture. Field monitoring of 26 amphibian ponds in an agricultural landscape shows widespread occurrence of triazole fungicides in the water column throughout the amphibian breeding season, together with a negative correlation between early season application of epoxiconazole and the prevalence of chytrid infections in aquatic newts. While triazole concentrations in the ponds remained below those that inhibit growth of Batrachochytrium dendrobatidis, they bioaccumulated in the newts' skin up to tenfold, resulting in cutaneous growth‐suppressing concentrations. As such, a concentration of epoxiconazole, 10 times below that needed to inhibit fungal growth, prevented chytrid infection in anuran tadpoles. The widespread presence of triazoles may thus alter chytrid dynamics in agricultural landscapes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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5. Tourism may threaten wildlife disease refugia.
- Author
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Kok, Philippe J. R., Laking, Alexandra, Smith, Carl, Berti, Arturo, Martel, An, and Pasmans, Frank
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WILDLIFE diseases ,AMPHIBIAN declines ,COMMUNITIES ,TOURISM ,PRESSURE control ,ANIMAL populations - Abstract
The remoteness and isolation of South American tabletop mountain (tepui) summits may protect against infections that underpin global amphibian declines. Increases in recreational pressure in such unspoiled destinations, and in isolated ecosystems globally, pose a poorly understood risk of wildlife disease introduction, especially in supposedly immunologically naïve communities. We here report the first observed chytrid infections in the Pantepui biogeographical region. Infections significantly correlate with proximity to the nearest basic tourist infrastructure in four endemic amphibians occurring on tepui summits and their slopes. Phylogenetic relationships and environmental context suggest a high risk of severe and irreversible population declines in unique, early branching amphibians. These findings advocate for an urgent control of recreational pressure in isolated, highly vulnerable ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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6. Alternative food sources interfere with removal of a fungal amphibian pathogen by zooplankton.
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Deknock, Arne, Pasmans, Frank, van Leeuwenberg, Robby, Van Praet, Sarah, Bruneel, Stijn, Lens, Luc, Croubels, Siska, Martel, An, and Goethals, Peter
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AMPHIBIANS , *CHYTRIDIOMYCOSIS , *DAPHNIA magna , *AMPHIBIAN diseases , *KEYSTONE species , *ZOOPLANKTON , *BATRACHOCHYTRIUM dendrobatidis - Abstract
While the amphibian disease chytridiomycosis is causing ongoing population declines and biodiversity losses around the globe, efficient mitigation strategies are lacking. The free‐living zoospores of the causative agents of this disease, the chytrid pathogens Batrachochytrium dendrobatidis (Bd) and Batrachochytrium salamandrivorans (Bsal), are a potential food source for filter‐feeding micropredators as part of the aquatic food web. While consumption of zoospores can lower environmental pathogen loads, alternative food sources may interfere with pathogen removal rates.We compared the ability of three filter‐feeding zooplankton species, the cladoceran Daphnia magna, the rotifer Brachionus calyciflorus and the ostracod Heterocypris incongruens, to remove Bd zoospores in water and investigated the effect of alternative food sources, the green algae Pseudokirchneriella subcapitata and Chlorella vulgaris, on zoospore ingestion by D. magna.Daphnia magna was the only micropredator candidate that effectively removed Bd zoospores from its environment, with an average removal rate of 1,012 ± 542 GE ind.−1 hr−1 within our test system. High concentrations (1 × 105 cells/ml) of large and easily ingestible P. subcapitata reduced pathogen removal rates, whereas the small and less edible C. vulgaris did not interfere with pathogen removal.Synthesis and applications. We showed that Daphnia spp., which are keystone species in all sorts of aquatic habitats worldwide, are promising target agents for biologically mitigating chytridiomycosis infections and how natural food sources may interfere with this strategy. We also suggest potential management actions for biological disease mitigation, aiming to optimize environmental conditions for these target filter feeders, thereby reducing pathogen densities and eventually infection pressure in amphibian hosts. Examples of such management actions include, but are not limited to, removal of planktivorous fish, habitat restoration, nutrient control or agrochemical regulation in the vicinity of amphibian breeding ponds. Further studies, including field trials, are needed to confirm the effects of pathogen consumption on infection dynamics in natural situations and investigate the impact of intervention actions. [ABSTRACT FROM AUTHOR]
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- 2021
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7. Epidermal galactose spurs chytrid virulence and predicts amphibian colonization.
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Wang, Yu, Verbrugghe, Elin, Meuris, Leander, Chiers, Koen, Kelly, Moira, Strubbe, Diederik, Callewaert, Nico, Pasmans, Frank, and Martel, An
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AMPHIBIANS ,GALACTOSE ,COLONIZATION (Ecology) ,FUNGAL colonies ,AMPHIBIAN declines ,CHYTRIDIOMYCOSIS ,BIOLOGICAL extinction ,CHEMOTAXIS - Abstract
The chytrid fungal pathogens Batrachochytrium dendrobatidis and Batrachochytrium salamandrivorans cause the skin disease chytridiomycosis in amphibians, which is driving a substantial proportion of an entire vertebrate class to extinction. Mitigation of its impact is largely unsuccessful and requires a thorough understanding of the mechanisms underpinning the disease ecology. By identifying skin factors that mediate key events during the early interaction with B. salamandrivorans zoospores, we discovered a marker for host colonization. Amphibian skin associated beta-galactose mediated fungal chemotaxis and adhesion to the skin and initiated a virulent fungal response. Fungal colonization correlated with the skin glycosylation pattern, with cutaneous galactose content effectively predicting variation in host susceptibility to fungal colonization between amphibian species. Ontogenetic galactose patterns correlated with low level and asymptomatic infections in salamander larvae that were carried over through metamorphosis, resulting in juvenile mortality. Pronounced variation of galactose content within some, but not all species, may promote the selection for more colonization resistant host lineages, opening new avenues for disease mitigation. The skin disease chytridiomycosis is linked to global amphibian declines but effective mitigation measures require improved understanding of the mechanisms underpinning the disease ecology. This study identifies key mediators of interactions between the fungal pathogen and amphibian skin, providing a marker of host colonization that can predict susceptibility between amphibian species. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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8. Virulence and Pathogenicity of Chytrid Fungi Causing Amphibian Extinctions.
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Fisher, Matthew C., Pasmans, Frank, and Martel, An
- Abstract
Ancient enzootic associations between wildlife and their infections allow evolution to innovate mechanisms of pathogenicity that are counterbalanced by host responses. However, erosion of barriers to pathogen dispersal by globalization leads to the infection of hosts that have not evolved effective resistance and the emergence of highly virulent infections. Global amphibian declines driven by the rise of chytrid fungi and chytridiomycosis are emblematic of emerging infections. Here, we review how modern biological methods have been used to understand the adaptations and counteradaptations that these fungi and their amphibian hosts have evolved. We explore the interplay of biotic and abiotic factors that modify the virulence of these infections and dissect the complexity of this disease system. We highlight progress that has led to insights into how we might in the future lessen the impact of these emerging infections. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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9. Batrachochytrium salamandrivorans Threat to the Iberian Urodele Hotspot.
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Bosch, Jaime, Martel, An, Sopniewski, Jarrod, Thumsová, Barbora, Ayres, Cesar, Scheele, Ben C., Velo-Antón, Guillermo, and Pasmans, Frank
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BATRACHOCHYTRIUM dendrobatidis ,SALAMANDERS ,BIOSECURITY ,EPIDEMIOLOGY - Abstract
The recent introduction of the chytrid fungus Batrachochytrium salamandrivorans into northeastern Spain threatens salamander diversity on the Iberian Peninsula. We assessed the current epidemiological situation with extensive field sampling of urodele populations. We then sought to delineate priority regions and identify conservation units for the Iberian Peninsula by estimating the susceptibility of Iberian urodeles using laboratory experiments, evidence from mortality events in nature and captivity and inference from phylogeny. None of the 1395 field samples, collected between 2015 and 2021 were positive for Bsal and no Bsal-associated mortality events were recorded, in contrast to the confirmed occurrence of Bsal outbreak previously described in 2018. We classified five of eleven Iberian urodele species as highly susceptible, predicting elevated mortality and population declines following potential Bsal emergence in the wild, five species as intermediately susceptible with variable disease outcomes and one species as resistant to disease and mortality. We identified the six conservation units (i.e., species or lineages within species) at highest risk and propose priority areas for active disease surveillance and field biosecurity measures. The magnitude of the disease threat identified here emphasizes the need for region-tailored disease abatement plans that couple active disease surveillance to rapid and drastic actions. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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10. Landscape epidemiology of Batrachochytrium salamandrivorans: reconciling data limitations and conservation urgency.
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Beukema, Wouter, Erens, Jesse, Schulz, Vanessa, Stegen, Gwij, Spitzen‐van der Sluijs, Annemarieke, Stark, Tariq, Laudelout, Arnaud, Kinet, Thierry, Kirschey, Tom, Poulain, Marie, Miaud, Claude, Steinfartz, Sebastian, Martel, An, and Pasmans, Frank
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EPIDEMIOLOGY ,LANDSCAPES ,EMERGING infectious diseases ,MACHINE learning ,SALAMANDERS - Abstract
Starting in 2010, rapid fire salamander (Salamandra salamandra) population declines in northwestern Europe heralded the emergence of Batrachochytrium salamandrivorans (Bsal), a salamander‐pathogenic chytrid fungus. Bsal poses an imminent threat to global salamander diversity owing to its wide host range, high pathogenicity, and long‐term persistence in ecosystems. While there is a pressing need to develop further research and conservation actions, data limitations inherent to recent pathogen emergence obscure necessary insights into Bsal disease ecology. Here, we use a hierarchical modeling framework to describe Bsal landscape epidemiology of outbreak sites in light of these methodological challenges. Using model selection and machine learning, we find that Bsal presence is associated with humid and relatively cool, stable climates. Outbreaks are generally located in areas characterized by low landscape heterogeneity and low steepness of slope. We further find an association between Bsal presence and high trail density, suggesting that human‐mediated spread may increase risk for spillover between populations. We then use distribution modeling to show that favorable conditions occur in lowlands influenced by the North Sea, where increased survey effort is needed to determine how Bsal impacts local newt populations, but also in hill‐ and mountain ranges in northeastern France and the lower half of Germany. Finally, connectivity analyses suggest that these hill‐ and mountain ranges may act as stepping stones for further spread southward. Our results provide initial insight into regional environmental conditions underlying Bsal epizootics, present updated invasibility predictions for northwestern Europe, and lead us to discuss a wide variety of potential survey and research actions needed to advance future conservation and mitigation efforts. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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11. Application of Disinfectants for Environmental Control of a Lethal Amphibian Pathogen.
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Lammens, Leni, Martel, An, and Pasmans, Frank
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CHYTRIDIOMYCOSIS ,DISINFECTION & disinfectants ,AMPHIBIANS ,PERACETIC acid ,BATRACHOCHYTRIUM - Abstract
Chytridiomycosis is an emerging infectious disease threatening amphibian populations worldwide. While environmental disinfection is important in mitigating the disease, successful elimination of Batrachochytrium dendrobatidis (Bd) without excessively harming ecosystems is challenging. We selected peracetic acid (PAA) as the most potent of six commercially available products regarding their ability to inhibit growth of a highly virulent Bd strain. PAA killed Bd after 5 min of exposure to approximately 94.7 mg/L. We examined the toxicity of PAA against three invertebrate species and Discoglossus pictus tadpoles. 93% of invertebrates, but none of the tadpoles survived 5 min of exposure to 94.7 mg/L. Tadpoles showed no adverse effects after 5 min exposure to concentrations of approximately 37.9 mg/L or lower. Addition of PAA to aquatic microcosms decreased pH, while dissolved oxygen (DO) initially increased. Degradation of PAA reversed the pH drop, but caused a massive drop in DO, which could be remedied by aeration. As proof of concept, microcosms that were aerated and treated with 94.7 mg/L PAA sustained survival of tadpoles starting 48 h after treatment. Disinfecting aquatic environments using PAA could contribute to mitigating chytridiomycosis, while preserving at least some invertebrate diversity, but requires temporary removal of resident amphibians. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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12. Microclimate limits thermal behaviour favourable to disease control in a nocturnal amphibian.
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Beukema, Wouter, Pasmans, Frank, Van Praet, Sarah, Ferri‐Yáñez, Francisco, Kelly, Moira, Laking, Alexandra E., Erens, Jesse, Speybroeck, Jeroen, Verheyen, Kris, Lens, Luc, Martel, An, and Auer, Sonya
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PREVENTIVE medicine , *CHYTRIDIOMYCOSIS , *DISEASE outbreaks , *AMPHIBIANS , *BEHAVIOR - Abstract
While epizootics increasingly affect wildlife, it remains poorly understood how the environment shapes most host–pathogen systems. Here, we employ a three‐step framework to study microclimate influence on ectotherm host thermal behaviour, focusing on amphibian chytridiomycosis in fire salamanders (Salamandra salamandra) infected with the fungal pathogen Batrachochytrium salamandrivorans (Bsal). Laboratory trials reveal that innate variation in thermal preference, rather than behavioural fever, can inhibit infection and facilitate salamander recovery under humidity‐saturated conditions. Yet, a 3‐year field study and a mesocosm experiment close to the invasive Bsal range show that microclimate constraints suppress host thermal behaviour favourable to disease control. A final mechanistic model, that estimates range‐wide, year‐round host body temperature relative to microclimate, suggests that these constraints are rule rather than exception. Our results demonstrate how innate host defences against epizootics may remain constrained in the wild, which predisposes to range‐wide disease outbreaks and population declines. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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13. Amphibian fungal panzootic causes catastrophic and ongoing loss of biodiversity.
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Scheele, Ben C., Pasmans, Frank, Skerratt, Lee F., Berger, Lee, Martel, An, Beukema, Wouter, Acevedo, Aldemar A., Burrowes, Patricia A., Carvalho, Tamilie, Catenazzi, Alessandro, De la Riva, Ignacio, Fisher, Matthew C., Flechas, Sandra V., Foster, Claire N., Frías-Álvarez, Patricia, Garner, Trenton W. J., Gratwicke, Brian, Guayasamin, Juan M., Hirschfeld, Mareike, and Kolby, Jonathan E.
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AMPHIBIAN diseases , *CHYTRIDIOMYCOSIS , *BIODIVERSITY monitoring , *AMPHIBIAN declines , *BIOLOGICAL extinction , *WILD animal trade - Abstract
Anthropogenic trade and development have broken down dispersal barriers, facilitating the spread of diseases that threaten Earth’s biodiversity. We present a global, quantitative assessment of the amphibian chytridiomycosis panzootic, one of the most impactful examples of disease spread, and demonstrate its role in the decline of at least 501 amphibian species over the past half-century, including 90 presumed extinctions. The effects of chytridiomycosis have been greatest in large-bodied, range-restricted anurans in wet climates in the Americas and Australia. Declines peaked in the 1980s, and only 12% of declined species show signs of recovery, whereas 39% are experiencing ongoing decline. There is risk of further chytridiomycosis outbreaks in new areas. The chytridiomycosis panzootic represents the greatest recorded loss of biodiversity attributable to a disease. [ABSTRACT FROM AUTHOR]
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- 2019
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14. Detectability vs. time and costs in pooled DNA extraction of cutaneous swabs: a study on the amphibian chytrid fungi.
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Sabino-Pinto, Joana, Krause, E. Tobias, Bletz, Molly C., Martel, An, Pasmans, Frank, Steinfartz, Sebastian, and Vences, Miguel
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BATRACHOCHYTRIUM dendrobatidis ,NUCLEIC acid isolation methods ,EPIDEMIOLOGY ,ZOOGEOGRAPHY ,POLYMERASE chain reaction - Abstract
Epidemiology relies on understanding the distribution of pathogens which often can be detected through DNA-based techniques, such as quantitative Polymerase Chain Reaction (qPCR). Typically, the DNA of each individual sample is separately extracted and undergoes qPCR analysis. However, when performing field surveys and long-term monitoring, a large fraction of the samples is generally expected to be negative, especially in geographical areas still considered free of the pathogen. If pathogen detection within a population – rather than determining its individual prevalence – is the focus, work load and monetary costs can be reduced by pooling samples for DNA extraction. We test and refine a user-friendly technique where skin swabs can be pooled during DNA extraction to detect the amphibian chytrid fungi, Batrachochytrium dendrobatidis and B. salamandrivorans (Bsal). We extracted pools with different numbers of samples (from one to four swabs), without increasing reaction volumes, and each pool had one sample inoculated with a predetermined zoospore amount. Pool size did not reduce the ability to detect the two fungi, except if inoculated with extremely low zoospore amounts (one zoospore). We confirm that pooled DNA extraction of cutaneous swabs can substantially reduce processing time and costs without minimizing detection sensitivity. This is of relevance especially for the new emerging pathogen Bsal , for which pooled DNA extraction had so far not been tested and massive monitoring efforts in putatively unaffected regions are underway. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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15. Death in the clouds: ranavirus associated mortality in assemblage of cloud forest amphibians in Nicaragua
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Stark, Tariq, Laurijssens, Carlijn, Weterings, Martijn, van der Sluijs, Adriana Marieke, Martel, An, and Pasmans, Frank
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Ometepe ,Ranavirus ,Biology and Life Sciences ,Nicaragua ,PE&RC ,mortality ,Ziekten ,infection ,chytridiomycosis ,Anurans ,Wildlife Ecology and Conservation ,lcsh:Zoology ,lcsh:QL1-991 ,Amfibieën ,events - Abstract
Amphibian diseases are acknowledged as significant contributors to the decline and extinction of amphibian species. The main culprits currently considered are chytridiomycosis and Ranavirus. In Central America, highly endemic and geographical restricted terrestrial species may be at risk from these diseases. We collected 49 Agalychnis callidryas larvae, one Lithobates forrei and five unidentified larvae on the Nicaraguan Island Ometepe, all deceased, and skin samples were taken. The presence of Ranavirus was determined using PCR. Ranavirus was found involved in 41 of 55 tadpoles. Forty-one Agalychnis callidryas, one Lithobates forrei and another five unidentified anuran tadpoles., Acta Herpetologica, Vol 9 No 1 (2014)
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- 2014
16. No detection of chytrid in first systematic screening of Bombina variegata pachypus (Anura: Bombinatoridae) in Liguria, northern Italy
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Canessa, Stefano, Martel, An, and Pasmans, Frank
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population size ,EUROPE ,prevalence ,AMPHIBIANS ,Liguria ,DISEASE ,TIME ,monitoring ,BATRACHOCHYTRIUM-DENDROBATIDIS ,TADPOLES ,FUNGUS ,Bombina ,chytrid ,lcsh:Zoology ,Veterinary Sciences ,lcsh:QL1-991 ,confidence ,CHYTRIDIOMYCOSIS ,POPULATION - Abstract
The Apennine Yellow-bellied toad Bombina variegata pachypus, a small anuran endemic to peninsular Italy, has been declining throughout its range over the last 30 years. Although mortality by chytridiomycosis, caused by the fungus Batrachochytrium dendrobatidis, was first reported for the species in 2004, its role in the decline has not yet been assessed. Between 2011 and 2012 we sampled eight populations of B. v. pachypus in Liguria, northern Italy, swabbing 86 and 143 individuals respectively, corresponding to between 24 and 80% of the estimated individuals within each population. We did not detect chytrid in any the samples collected. For the three largest populations in the region, we can rule out infections of prevalence greater than 10% with at least 98% confidence. Research at a larger scale is urgently needed to clarify the role of B. dendrobatidis in the decline of this and other amphibians in Italy., Acta Herpetologica, Vol 8 No 1 (2013)
- Published
- 2013
17. Prevalence of Batrachochytrium dendrobatidis in a Nicaraguan, micro-endemic Neotropical salamander, Bolitoglossa mombachoensis.
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Stark, Tariq, Laurijssens, Carlijn, Weterings, Martijn, Martel, An, Köhler, Gunther, and Pasmans, Frank
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SALAMANDERS ,BATRACHOCHYTRIUM dendrobatidis ,DISEASE prevalence ,BIODIVERSITY ,ENDEMIC animals - Abstract
Amphibians are the most threatened terrestrial vertebrates on the planet and are iconic in the global biodiversity crisis. Their global decline caused by the fungal agent Batrachochytrium dendrobatidis (Bd) is well known. Declines of Mesoamerican salamanders of the family Plethodontidae, mainly affecting high elevation species, have equally been attributed to Bd. Here we report the prevalence of Bd in a population of a high elevation Bolitoglossa species in Nicaragua, since its description in 1999 until 2011 in the absence of any obvious population declines. Our findings show a low prevalence in an environmental context where pathogen driven declines would be expected to occur. [ABSTRACT FROM AUTHOR]
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- 2017
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18. Mitigating amphibian chytridiomycoses in nature.
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Garner, Trenton W. J., Schmidt, Benedikt R., Martel, An, Pasmans, Frank, Muths, Erin, Cunningham, Andrew A., Weldon, Che, Fisher, Matthew C., and Bosch, Jaime
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CHYTRIDIOMYCOSIS ,CHYTRIDIOMYCETES ,AMPHIBIAN ecology ,AMPHIBIAN populations ,ANIMAL communities - Abstract
Amphibians across the planet face the threat of population decline and extirpation caused by the disease chytridiomycosis. Despite consensus that the fungal pathogens responsible for the disease are conservation issues, strategies to mitigate their impacts in the natural world are, at best, nascent. Reducing risk associated with the movement of amphibians, non-amphibian vectors and other sources of infection remains the first line of defence and a primary objective when mitigating the threat of disease in wildlife. Amphibian-associated chytridiomycete fungi and chytridiomycosis are already widespread, though, and we therefore focus on discussing options for mitigating the threats once disease emergence has occurred in wild amphibian populations. All strategies have shortcomings that need to be overcome before implementation, including stronger efforts towards understanding and addressing ethical and legal considerations. Even if these issues can be dealt with, all currently available approaches, or those under discussion, are unlikely to yield the desired conservation outcome of disease mitigation. The decision process for establishing mitigation strategies requires integrated thinking that assesses disease mitigation options critically and embeds them within more comprehensive strategies for the conservation of amphibian populations, communities and ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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19. Amphibian chytridiomycosis: a review with focus on fungus-host interactions.
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Van Rooij, Pascale, Martel, An, Haesebrouck, Freddy, and Pasmans, Frank
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CHYTRIDIOMYCOSIS ,HOST-fungus relationships ,AMPHIBIAN declines ,BIOLOGICAL extinction ,BATRACHOCHYTRIUM dendrobatidis - Abstract
Amphibian declines and extinctions are emblematic for the current sixth mass extinction event. Infectious drivers of these declines include the recently emerged fungal pathogens Batrachochytrium dendrobatidis and Batrachochytrium salamandrivorans (Chytridiomycota). The skin disease caused by these fungi is named chytridiomycosis and affects the vital function of amphibian skin. Not all amphibians respond equally to infection and host responses might range from resistant, over tolerant to susceptible. The clinical outcome of infection is highly dependent on the amphibian host, the fungal virulence and environmental determinants. B. dendrobatidis infects the skin of a large range of anurans, urodeles and caecilians, whereas to date the host range of B. salamandrivorans seems limited to urodeles. So far, the epidemic of B. dendrobatidis is mainly limited to Australian, neotropical, South European and West American amphibians, while for B. salamandrivorans it is limited to European salamanders. Other striking differences between both fungi include gross pathology and thermal preferences. With this review we aim to provide the reader with a state-of-the art of host-pathogen interactions for both fungi, in which new data pertaining to the interaction of B. dendrobatidis and B. salamandrivorans with the host's skin are integrated. Furthermore, we pinpoint areas in which more detailed studies are necessary or which have not received the attention they merit. [ABSTRACT FROM AUTHOR]
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- 2015
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20. Environmental Determinants of Recent Endemism of Batrachochytrium dendrobatidis Infections in Amphibian Assemblages in the Absence of Disease Outbreaks.
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SPITZEN‐VAN DER SLUIJS, ANNEMARIEKE, MARTEL, AN, HALLMANN, CASPAR A., BOSMAN, WILBERT, GARNER, TRENTON W. J., VAN ROOIJ, PASCALE, JOORIS, ROBERT, HAESEBROUCK, FREDDY, and PASMANS, FRANK
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BATRACHOCHYTRIUM dendrobatidis ,ANIMAL diseases ,ANIMAL species ,AMPHIBIAN diseases ,ANIMAL mortality - Abstract
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- Published
- 2014
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21. Impact of heavy metal exposure on biological control of a deadly amphibian pathogen by zooplankton.
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Deknock, Arne, Pasmans, Frank, van Leeuwenberg, Robby, Van Praet, Sarah, De Troyer, Niels, Goessens, Tess, Lammens, Leni, Bruneel, Stijn, Lens, Luc, Martel, An, Croubels, Siska, and Goethals, Peter
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- 2022
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22. Designing screening protocols for amphibian disease that account for imperfect and variable capture rates of individuals.
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Canessa, Stefano, Martel, An, and Pasmans, Frank
- Subjects
BATRACHOCHYTRIUM dendrobatidis ,BOMBINA variegata ,CHYTRIDIOMYCOSIS ,AMPHIBIAN conservation ,SEASONAL variations of diseases ,BINOMIAL distribution - Abstract
The amphibian chytrid fungus, Batrachochytrium dendrobatidis, is one of the main factors in global amphibian decline. Accurate knowledge of its presence and prevalence in an area is needed to trigger conservation actions. However, imperfect capture rates determine the number of individuals caught and tested during field surveys, and contribute to the uncertainty surrounding estimates of prevalence. Screening programs should be planned with the objective of minimizing such uncertainty. We show how this can be achieved by using predictive models that incorporate information about population size and capture rates. Using as a case study an existing screening program for three populations of the yellow-bellied toad (Bombina variegata pachypus) in northern Italy, we sought to quantify the effect of seasonal variation in individual capture rates on the uncertainty surrounding estimates of chytrid prevalence. We obtained estimates of population size and capture rates from mark-recapture data, and found wide seasonal variation in the individual recapture rates. We then incorporated this information in a binomial model to predict the estimates of prevalence that would be obtained by sampling at different times in the season, assuming no infected individuals were found. Sampling during the period of maximum capture probability was predicted to decrease upper 95% credible intervals by a maximum of 36%, compared with least suitable periods, with greater gains when using uninformative priors. We evaluated model predictions by comparing them with the results of screening surveys in 2012. The observed results closely matched the predicted figures for all populations, suggesting that this method can be reliably used to maximize the sampling size of surveillance programs, thus improving their efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
23. Batrachochytrium salamandrivorans sp. nov. causes lethal chytridiomycosis in amphibians.
- Author
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Martel, An, Spitzen-van der Sluijs, Annemarieke, Blooj, Mark, Berf, Wim, Ducatelle, Richard, Fisher, Matthew C., Woeltjes, Antonius, Bosman, Wilbert, Chier, Koen, Bossuyt, Franky, and Pasmans, Frank
- Subjects
CHYTRIDIOMYCOSIS ,BATRACHOCHYTRIUM ,AMPHIBIAN diseases ,AMPHIBIAN populations ,BIOLOGICAL extinction ,BATRACHOCHYTRIUM dendrobatidis - Abstract
The current biodiversity crisis encompasses a sixth mass extinction event affecting the entire class of amphibians. The infectious disease chytridiomycosis is considered one of the major drivers of global amphibian population decline and extinction and is thought to be caused by a single species of aquatic fungus, Batrachochytrium dendrobatidis. However, several amphibian population declines remain unexplained, among them a steep decrease in fire salamander populations (Salamandra salamandra) that has brought this species to the edge of local extinction. Here we isolated and characterized a unique chytrid fungus, Batrachochytrium salamandrivorans sp. nov., from this salamander population. This chytrid causes erosive skin disease and rapid mortality in experimentally infected fire salamanders and was present in skin lesions of salamanders found dead during the decline event. Together with the closely related B. dendrobatidis, this taxon forms a well-supported chytridiomycete dade, adapted to vertebrate hosts and highly pathogenic to amphibians. However, the lower thermal growth preference of B. salamandrivorans, compared with B. dendrobatidis, and resistance of midwife toads (Alytes obstetricans) to experimental infection with B. salamandrivorans suggest differential niche occupation of the two chytrid fungi. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
24. A SURVEY FOR BATRACHOCHYTRIUM DENDROBATIDIS IN ENDANGERED AND HIGHLY SUSCEPTIBLE VIETNAMESE SALAMANDERS (TYLOTOTRITON SPP.).
- Author
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Tao Nguyen Thien, Brutyn, Melanie, Bogaerts, Sergé, Sparreboom, Max, Haesebrouck, Freddy, Fisher, Matthew C., Beukema, Wouter, Tang Duong Van, Chiers, Koen, and Pasmans, Frank
- Abstract
The article offers information on a study which examined the presence of the chytrid fungus in skin swabs from 19 Tylototriton asperrimus and 104 Tylototriton vietnamensis using quantitative polymerase chain reaction. It informs that the susceptibility of T. asperrimus to experimental infection was examined with the help of the global panzootic lineage (BdGPL) strain of Batrachochytrium dendrobatidis. It was observed that the fungus was absent in all samples from all wild salamanders examined.
- Published
- 2013
- Full Text
- View/download PDF
25. Rapid enigmatic decline drives the fire salamander (Salamandra salamandra) to the edge of extinction in the Netherlands.
- Author
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Spitzen-van der Sluijs, Annemarieke, Spikmans, Frank, Bosman, Wilbert, de Zeeuw, Marnix, van der Meij, Tom, Goverse, Edo, Kik, Marja, Pasmans, Frank, and Martel, An
- Subjects
SALAMANDERS ,BIOLOGICAL extinction ,ENDANGERED species ,CHYTRIDIOMYCOSIS ,HABITATS - Abstract
In the Netherlands, the fire salamander (Salamandra salamandra) is at the edge of its geographic range and is restricted to three small populations in the extreme south of the country. Despite the species being listed as 'Endangered' on the national Red List, the situation was considered to be stable. However, from 2008 onwards dead individuals were seen on more than one occasion. A sharp decline in numbers has been observed since 2010 (96%; P < 0.01), but we were unable to attribute this to any known cause of amphibian decline, such as chytridiomycosis, ranavirus or habitat degradation. The present work describes this enigmatic decline, and we discuss these results in the context of possible causes. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
26. Resistance to Chytridiomycosis in European Plethodontid Salamanders of the Genus Speleomantes
- Author
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Pasmans, Frank, Van Rooij, Pascale, Blooi, Mark, Tessa, Giulia, Bogaerts, Sergé, Sotgiu, Giuseppe, Garner, Trenton W. J., Fisher, Matthew C., Schmidt, Benedikt R., Woeltjes, Tonnie, Beukema, Wouter, Bovero, Stefano, Adriaensen, Connie, Oneto, Fabrizio, Ottonello, Dario, Martel, An, and Salvidio, Sebastiano
- Subjects
- *
CHYTRIDIOMYCOSIS , *LUNGLESS salamanders , *ANIMAL species , *POPULATION dynamics , *MORTALITY , *MICROBIAL sensitivity tests - Abstract
North America and the neotropics harbor nearly all species of plethodontid salamanders. In contrast, this family of caudate amphibians is represented in Europe and Asia by two genera, Speleomantes and Karsenia, which are confined to small geographic ranges. Compared to neotropical and North American plethodontids, mortality attributed to chytridiomycosis caused by Batrachochytrium dendrobatidis (Bd) has not been reported for European plethodontids, despite the established presence of Bd in their geographic distribution. We determined the extent to which Bd is present in populations of all eight species of European Speleomantes and show that Bd was undetectable in 921 skin swabs. We then compared the susceptibility of one of these species, Speleomantes strinatii, to experimental infection with a highly virulent isolate of Bd (BdGPL), and compared this to the susceptible species Alytes muletensis. Whereas the inoculated A. muletensis developed increasing Bd-loads over a 4-week period, none of five exposed S. strinatii were colonized by Bd beyond 2 weeks post inoculation. Finally, we determined the extent to which skin secretions of Speleomantes species are capable of killing Bd. Skin secretions of seven Speleomantes species showed pronounced killing activity against Bd over 24 hours. In conclusion, the absence of Bd in Speleomantes combined with resistance to experimental chytridiomycosis and highly efficient skin defenses indicate that the genus Speleomantes is a taxon unlikely to decline due to Bd. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
27. The novel ' Candidatus Amphibiichlamydia ranarum' is highly prevalent in invasive exotic bullfrogs ( Lithobates catesbeianus).
- Author
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Martel, An, Adriaensen, Connie, Sharifian ‐ Fard, Mojdeh, Vandewoestyne, Mado, Deforce, Dieter, Favoreel, Herman, Bergen, Karolien, Spitzen ‐ van der Sluijs, Annemarieke, Devisscher, Sander, Adriaens, Tim, Louette, Gerald, Baert, Kristof, Hyatt, Alex, Crameri, Sandra, Haesebrouck, Freddy, and Pasmans, Frank
- Subjects
CANDIDATUS ,BULLFROG ,CHYTRIDIOMYCOSIS ,CHLAMYDIACEAE ,AMPHIBIAN diseases ,CHLAMYDIALES - Abstract
Knowledge concerning microbial infectious diseases in the current amphibian crisis is rudimentary and largely limited to ranavirosis and chytridiomycosis. The family Chlamydiaceae is gaining attention as a common cause of disease in amphibians and may harbour new and emerging amphibian pathogens. We identified a novel species of Chlamydiales (Candidatus Amphibiichlamydia ranarum) with a prevalence of 71% in exotic invasive bullfrog tadpoles ( Lithobates catesbeianus) from an introduced population in the Netherlands. The sequence of a 1474 bp 16S rRNA gene fragment showed that the novel taxon forms a well-defined clade with ' Candidatus Amphibiichlamydia salamandrae' within the Chlamydiaceae family. Although none of the tadpoles examined showed signs of clinical disease, urgent evaluation of its pathogenic potential for native amphibian species is required. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
28. Germ Tube Mediated Invasion of Batrachochytrium dendrobatidis in Amphibian Skin Is Host Dependent.
- Author
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Van Rooij, Pascale, Martel, An, D'Herde, Katharina, Brutyn, Melanie, Croubels, Siska, Ducatelle, Richard, Haesebrouck, Freddy, and Pasmans, Frank
- Subjects
BATRACHOCHYTRIUM dendrobatidis ,CHYTRIDIOMYCOSIS ,SPORANGIUM ,EPIDERMIS ,DERMATOMYCOSES ,AMPHIBIAN declines - Abstract
Batrachochytrium dendrobatidis (Bd) is the causative agent of chytridiomycosis, a fungal skin disease in amphibians and driver of worldwide amphibian declines. We focussed on the early stages of infection by Bd in 3 amphibian species with a differential susceptibility to chytridiomycosis. Skin explants of Alytes muletensis, Litoria caerulea and Xenopus leavis were exposed to Bd in an Ussing chamber for 3 to 5 days. Early interactions of Bd with amphibian skin were observed using light microscopy and transmission electron microscopy. To validate the observations in vitro, comparison was made with skin from experimentally infected frogs. Additional in vitro experiments were performed to elucidate the process of intracellular colonization in L. caerulea. Early interactions of Bd with amphibian skin are: attachment of zoospores to host skin, zoospore germination, germ tube development, penetration into skin cells, invasive growth in the host skin, resulting in the loss of host cell cytoplasm. Inoculation of A. muletensis and L. caerulea skin was followed within 24 h by endobiotic development, with sporangia located intracellularly in the skin. Evidence is provided of how intracellular colonization is established and how colonization by Bd proceeds to deeper skin layers. Older thalli develop rhizoid-like structures that spread to deeper skin layers, form a swelling inside the host cell to finally give rise to a new thallus. In X. laevis, interaction of Bd with skin was limited to an epibiotic state, with sporangia developing upon the skin. Only the superficial epidermis was affected. Epidermal cells seemed to be used as a nutrient source without development of intracellular thalli. The in vitro data agreed with the results obtained after experimental infection of the studied frog species. These data suggest that the colonization strategy of B. dendrobatidis is host dependent, with the extent of colonization most likely determined by inherent characteristics of the host epidermis. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
29. Waterfowl: Potential Environmental Reservoirs of the Chytrid Fungus Batrachochytrium dendrobatidis.
- Author
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Garmyn, An, Rooij, Pascale Van, Pasmans, Frank, Hellebuyck, Tom, Broeck, Wim Van Den, Haesebrouck, Freddy, and Martel, An
- Subjects
BATRACHOCHYTRIUM dendrobatidis ,CHYTRIDIOMYCOSIS ,AMPHIBIANS ,WATERFOWL ,CHEMOTAXIS - Abstract
Infections with Batrachochytrium dendrobatidis (B. dendrobatidis), the causal agent of chytridiomycosis, have been shown to play an important role in the decline of amphibians worldwide. Spread of the fungus is poorly understood. Bird movement might possibly contribute to the spread of B. dendrobatidis in the environment. Therefore, 397 wild geese in Belgium were screened for presence of B. dendrobatidis on their toes using real-time quantitative PCR (qPCR). In addition, chemotaxis towards, adhesion, survival after desiccation and proliferation of B. dendrobatidis on keratinous toe scales from waterfowl were examined in vitro. qPCR revealed that 76 geese (15%) were positive for B. dendrobatidis. Results of the in vitro tests showed that B. dendrobatidis is attracted to the keratinous toes of aquatic birds on which they can adhere and even proliferate. However, desiccation is poorly tolerated. This suggests waterfowl are potential environmental reservoirs for B. dendrobatidis. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
30. Clinically healthy amphibians in captive collections and at pet fairs: A reservoir of Batrachochytrium dendrobatidis.
- Author
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der Sluijs, Annemarieke Spitzen-van, Martel, An, Wombwell, Emma, Van Rooij, Pascale, Zollinger, Ronald, Woeltjes, Tonnie, Rendle, Matthew, Haesebrouck, Freddy, and Pasmans, Frank
- Subjects
AMPHIBIAN diseases ,BATRACHOCHYTRIUM dendrobatidis ,ANIMAL-plant relationships ,CHYTRIDIOMYCOSIS ,MYCOSES ,RESERVOIR plants ,ETIOLOGY of diseases ,DISEASE risk factors - Abstract
Batrachochytrium dendrobatidis is the cause of the fungal disease chytridiomycosis, a potentially lethal skin disease of amphibians. Asymptomatically infected amphibians may pose a risk for environmental pathogen pollution. This study therefore assessed the role of healthy, captive amphibians as a reservoir of Batrachochytrium dendrobatidis. Samples were collected from captive amphibians in Belgium, the Netherlands, Germany and France (559 from anurans, 330 from urodelans and 4 from gymnophians) from private owners, zoos, and laboratories. In addition to which, 78 anurans from 19 living collections were sampled during a pet fair in the Netherlands. Nearly 3% of the captive amphibians were infected by B. dendrobatidis, and 13.6% of the collections yielded at least one positive result. At the fair, 7 out of 78 anurans, representing 2 collections were positive. None of the animals that tested positive showed any obvious health problems at the time of sampling. Our results demonstrate the potential of the amphibian pet trade as a vehicle for the spread of B. dendrobatidis. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
31. Detection of Batrachochytrium dendrobatidis in Mexican Bolitoglossine Salamanders Using an Optimal Sampling Protocol.
- Author
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Rooij, Pascale, Martel, An, Nerz, Joachim, Voitel, Sebastian, Immerseel, Filip, Haesebrouck, Freddy, and Pasmans, Frank
- Subjects
BATRACHOCHYTRIUM dendrobatidis ,CHYTRIDIOMYCOSIS ,SALAMANDERS ,KERATOSIS ,ZOOSPORES - Abstract
The role of the chytrid fungus Batrachochytrium dendrobatidis (Bd), which is the causal agent of chytridiomycosis, in the declines of Central American bolitoglossine salamanders is unknown. Here we establish a swabbing protocol to maximize the detection probability of Bd in salamanders. We then used this protocol to examine captive and wild Mexican bolitoglossine salamanders of 14 different species for the presence of Bd. Of the seven body parts sampled, the pelvic region, hindlimbs, forelimbs, and the ventral side of the tail had the most Bd per surface area and thus might provide the best sampling regions of salamanders to detect Bd infections. Sixteen out of 33 (48%) of the dead captive salamanders had Bd infections and epidermal hyperkeratosis, whereas none of the 28 clinically healthy captive animals were infected. Nine out of 17 (53%) of the wild salamanders carried low zoospore loads of Bd but had no clinical signs of disease. The high prevalence of Bd in dead captive salamanders, its absence in clinically healthy living ones and its presence in wild salamanders is consistent with Bd being involved in recent bolitoglossine population declines, but further studies would be required to draw a causal link. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
32. Amphibian: A Case Definition and Diagnostic Criteria for Batrachochytrium salamandrivorans Chytridiomycosis.
- Author
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WHITE, C. LEANN, FORZÁN, MARÍA J., PESSIER, ALLAN P., ALLENDER, MATTHEW C., BALLARD, JENNIFER R., CATENAZZI, ALESSANDRO, FENTON, HEATHER, MARTEL, A. N., PASMANS, FRANK, MILLER, DEBRA L., OSSIBOFF, ROBERT J., RICHGELS, KATHERINE L. D., and KERBY, JACOB L.
- Subjects
AMPHIBIAN diseases ,CHYTRIDIOMYCOSIS ,BATRACHOCHYTRIUM ,HISTOPATHOLOGY ,KERATINOCYTES ,DIAGNOSIS - Abstract
The discusses a study that focuses on the case definition and diagnostic criteria for chytridiomycosis, a fungal infection in amphibians caused by fungus Batrachochytrium salamandrivorans. Topics discussed include decline in global amphibian population, diagnostic criteria such as field signs, gross pathology and histopathology to detect the infection and keratinocytes associated with myriad intracellular and extracellular chytrid-type fungal thalli in amphibians.
- Published
- 2016
33. Ratio-dependent functional response of two common Cladocera present in farmland ponds to Batrachochytrium dendrobatidis.
- Author
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De Troyer, Niels, Bruneel, Stijn, Lock, Koen, Greener, Mark S., Facq, Ennio, Deknock, Arne, Martel, An, Pasmans, Frank, and Goethals, Peter
- Abstract
Batrachochytrium dendrobatidis is responsible for amphibian declines worldwide. Decreasing the aquatic density of this chytrid through consumption of its infectious zoospores by Cladocera (water fleas) may mitigate the impact of chytridiomycosis. Understanding this predator-prey relationship requires insights in the zoospore ingestion rate of an average water flea, but such data are almost non-existent. We investigated the functional response of Simocephalus vetulus and Chydorus sphaericus feeding on B. dendrobatidis zoospores. These Cladocera commonly occur in farmland ponds, which may represent a major habitat for disease control. Both water fleas actively ingested zoospores and their per capita ingestion rate was best modelled in function of zoospore-to-Cladocera ratio, implying mutual interference among water fleas during zoospore feeding. The larger S. vetulus substantially consumed more zoospores, characterised by a maximum ingestion rate of 2.5 × 10
5 zoospores.Cladocera−1 .h−1 .mL−1 , which is about 12 times higher than for C. sphaericus. These findings are useful to support model-based management of chytridiomycosis. • Simocephalus vetulus and Chydorus sphaericus are common Cladocera in farmland ponds. • S. vetulus and C. sphaericus consume zoospores of B. dendrobatidis. • Zoospore ingestion rate for both Cladocera depends on zoospore-to-Cladocera ratio. • The larger S. vetulus has a significant larger per capita ingestion rate than C. sphaericus. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
34. Does Chytridiomycosis Affect Tree Frog Attachment?
- Author
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Nieuwboer, Lisa, van Leeuwen, Johan L., Martel, An, Pasmans, Frank, Spitzen-van der Sluijs, Annemarieke, and Langowski, Julian K. A.
- Subjects
HYLIDAE ,CHYTRIDIOMYCOSIS ,BATRACHOCHYTRIUM dendrobatidis ,BIODIVERSITY conservation ,POPULATION dynamics - Abstract
The pandemic disease chytridiomycosis, caused by the fungus Batrachochytrium dendrobatidis (Bd), is a major threat to amphibian biodiversity. For most species, the exact mechanisms of chytridiomycosis that lead to negative population dynamics remain uncertain, though mounting evidence suggests that sublethal effects could be an important driver. In this review, we propose that tree frog attachment is a promising case to study the sublethal effects of a Bd infection on amphibians. A synthesis of the current knowledge on the functional morphology of the adhesive toe pads of tree frogs, on the underlying mechanisms of tree frog attachment, and on the epidermal pathology of chytridiomycosis substantiates the hypothesis that Bd-induced epidermal alterations have the potential to disrupt tree frog attachment. We highlight a series of (biomechanical) experiments to test this hypothesis and to shed some light on the sublethal disease mechanisms of chytridiomycosis. The knowledge generated from such an approach could contribute to future research on Bd epidemiology and ultimately to the conservation of the biodiversity of arboreal anurans. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. Batrachochytrium salamandrivorans kills alpine newts (Ichthyosaura alpestris) in southernmost Germany.
- Author
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SCHMELLER, DIRK S., UTZEL, REINHARD, PASMANS, FRANK, and MARTEL, AN
- Subjects
- *
NEWTS , *CHYTRIDIOMYCOSIS , *MEDICAL microbiology , *WATER gardens , *WILDLIFE management - Published
- 2020
36. A SURVEY FOR BATRACHOCHYTRIUM DENDROBATIDIS IN ENDANGERED AND HIGHLY SUSCEPTIBLE VIETNAMESE SALAMANDERS (TYLOTOTRITON SPP.)
- Author
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Thien, Tao Nguyen, Martel, An, Brutyn, Melanie, Bogaerts, Sergé, Sparreboom, Max, Haesebrouck, Freddy, Fisher, Matthew C., Beukema, Wouter, Van, Tang Duong, Chiers, Koen, and Pasmans, Frank
- Published
- 2013
- Full Text
- View/download PDF
37. Sequence capture identifies fastidious chytrid fungi directly from host tissue.
- Author
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Mulder, Kevin P., Savage, Anna E., Gratwicke, Brian, Longcore, Joyce E., Bronikowski, Ed, Evans, Matthew, Longo, Ana V., Kurata, Naoko P., Walsh, Tim, Pasmans, Frank, McInerney, Nancy, Murray, Suzan, Martel, An, and Fleischer, Robert C.
- Abstract
• Target enrichment can directly sequence host-associated fungal pathogens. • Fungal pathogen load is positively associated with enrichment success. • Resulting genetic data can identify phylogenetic placements of fastidious strains. • Salamander at US zoo was infected with Asian-origin Batrachochytrium strain. • Method can be applied to other unculturable fungal samples to identify cryptic strains. The chytrid fungus Batrachochytrium dendrobatidis (Bd) was discovered in 1998 as the cause of chytridiomycosis, an emerging infectious disease causing mass declines in amphibian populations worldwide. The rapid population declines of the 1970s-1990s were likely caused by the spread of a highly virulent lineage belonging to the Bd-GPL clade that was introduced to naïve susceptible populations. Multiple genetically distinct and regional lineages of Bd have since been isolated and sequenced, greatly expanding the known biological diversity within this fungal pathogen. To date, most Bd research has been restricted to the limited number of samples that could be isolated using culturing techniques, potentially causing a selection bias for strains that can grow on media and missing other unculturable or fastidious strains that are also present on amphibians. We thus attempted to characterize potentially non-culturable genetic lineages of Bd from distinct amphibian taxa using sequence capture technology on DNA extracted from host tissue and swabs. We focused our efforts on host taxa from two different regions that likely harbored distinct Bd clades: (1) wild-caught leopard frogs (Rana) from North America, and (2) a Japanese Giant Salamander (Andrias japonicus) at the Smithsonian Institution's National Zoological Park that exhibited signs of disease and tested positive for Bd using qPCR, but multiple attempts failed to isolate and culture the strain for physiological and genetic characterization. We successfully enriched for and sequenced thousands of fungal genes from both host clades, and Bd load was positively associated with number of recovered Bd sequences. Phylogenetic reconstruction placed all the Rana -derived strains in the Bd-GPL clade. In contrast, the A. japonicus strain fell within the Bd-Asia3 clade, expanding the range of this clade and generating additional genomic data to confirm its placement. The retrieved ITS locus matched public barcoding data from wild A. japonicus and Bd infections found on other amphibians in India and China, suggesting that this uncultured clade is widespread across Asia. Our study underscores the importance of recognizing and characterizing the hidden diversity of fastidious strains in order to reconstruct the spatiotemporal and evolutionary history of Bd. The success of the sequence capture approach highlights the utility of directly sequencing pathogen DNA from host tissue to characterize cryptic diversity that is missed by culture-reliant approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
38. Bsal-driven salamander mortality pre-dates the European index outbreak.
- Author
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LÖTTERS, STEFAN, VEITH, MICHAEL, WAGNER, NORMAN, MARTEL, AN, and PASMANS, FRANK
- Subjects
- *
EMERGING infectious diseases , *SALAMANDERS , *DERMATOMYCOSES , *CHYTRIDIOMYCOSIS , *MEDICAL microbiology - Published
- 2020
39. Mitigation of amphibian disease requires a stronger connection between research and management.
- Author
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Canessa, Stefano, Spitzen–van der Sluijs, Annemarieke, Martel, An, and Pasmans, Frank
- Subjects
- *
AMPHIBIAN diseases , *CHYTRIDIOMYCOSIS , *COST estimates , *KNOWLEDGE transfer , *VITAL statistics - Abstract
The first requirement of evidence-based conservation is that evidence is available and relevant for decision-makers. We reviewed twenty years of literature on mitigation of amphibian chytridiomycosis to understand whether conservation science is providing relevant and applicable evidence to end-users in this field. Searching the Scopus database with terms relating to chytridiomycosis and management returned nearly 5000 publications. Of these, 530 had some implications for conservation, but suggestions for management were mostly confined to brief, qualitative mentions in the closing paragraphs of articles. Fewer than 20% of publications provided a direct evaluation of management actions and quantitative estimates of changes to population vital rates as a result of proposed mitigation actions, mostly based on theoretical studies or individual treatments in laboratory settings. Fewer than 4% of studies provided estimates of population persistence that could be used directly by managers to compare actions against this fundamental conservation objective. Estimates of costs were virtually absent (<1% of studies). These results suggest that although high-quality science is accumulating on amphibian chytridiomycosis, often with important implications for mitigation, the literature leaves the challenge of imagining and developing solutions to would-be managers. To reinforce the connection between science and management, research on amphibian disease mitigation must go beyond the suggestion phase, increasing field trials and adaptive implementation in the real world. More broadly, it is necessary to stimulate and strengthen applied research that converts basic knowledge into information that is immediately relevant to managers. • We reviewed published studies about mitigation of amphibian chytridiomycosis • The majority of studies do not make explicit management recommendations • <20% of papers quantify real or potential effects of mitigation on host persistence • <5% of papers discuss the cost of potential mitigation actions • We need more applied studies, field trials and knowledge transfer [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
40. Batrachochytrium dendrobatidis zoospore secretions rapidly disturb intercellular junctions in frog skin
- Author
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Brutyn, Melanie, D’Herde, Katharina, Dhaenens, Maarten, Rooij, Pascale Van, Verbrugghe, Elin, Hyatt, Alex D., Croubels, Siska, Deforce, Dieter, Ducatelle, Richard, Haesebrouck, Freddy, Martel, An, and Pasmans, Frank
- Subjects
- *
BATRACHOCHYTRIUM dendrobatidis , *ZOOSPORIC fungi , *CELL communication , *DERMATOMYCOSES , *HYPERPLASIA , *CHYTRIDIOMYCOSIS , *CELL junctions , *FROGS , *SKIN physiology - Abstract
Abstract: Global amphibian declines are in part driven by the chytrid fungus Batrachochytrium dendrobatidis, causing superficial dermatomycosis with epidermal hyperplasia and hyperkeratosis in infected amphibians. The susceptibility to chytridiomycosis and the severity of epidermal lesions in amphibians with chytridiomycosis are not consistent across species or even among individuals. Severe infections cause death of the animal most likely through disturbance of ion homeostasis. The mechanism by which this superficial skin infection results in epidermal lesions has so far eluded precise definition. It was the aim of this study to unravel how B. dendrobatidis causes alterations that affect skin integrity. Exposure of Xenopus laevis skin to B. dendrobatidis zoospore supernatant using skin explants and Ussing chambers caused rapid disruption of intercellular junctions, demonstrated using histology and transmission electron microscopy. The loss of intercellular junctions led to detachment-induced cell apoptosis, or anoikis. The zoospore supernatant induced neither apoptosis nor necrosis in isolated primary keratinocytes of X. laevis. This supports the idea that the loss of cell contacts triggered apoptosis in the skin explants. Mass spectrometric analysis of the protein composition of the supernatant revealed a complex mixture, including several new virulence associated proteins, such as proteases, biofilm-associated proteins and a carotenoid ester lipase. Protease and lipase activity of the supernatant was confirmed with a protease and lipase assay. In conclusion, B. dendrobatidis zoospores produce a complex mixture of proteins that quickly disturbs epidermal intercellular junctions leading to anoikis in the anuran skin. The role of the identified proteins in this process remains to be determined. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
41. It takes three to tango : the impact of chytridiomycosis on native amphibians in the Netherlands
- Author
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van der Sluijs, Adriana Marieke, Pasmans, Frank, and Martel, An
- Subjects
chytridiomycosis ,amphibians ,batrachochytrium salamandrivorans ,conservation ,Biology and Life Sciences ,Veterinary Sciences ,batrachochytrium dendrobatidis ,disease dynamics ,management - Published
- 2018
42. Disease threats to Belgian anurans : implications for amphibian conservation and human health
- Author
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Sharifian Fard, Mojdeh, Martel, An, and Pasmans, Frank
- Subjects
ranavirus ,chytridiomycosis ,amphibians ,Veterinary Sciences ,zoonoses - Published
- 2014
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