The resistance of a North American bat species (Eptesicus fuscus) to White-nose Syndrome (WNS)

White-nose Syndrome (WNS) is the primary cause of over-winter mortality for little brown (Myotis lucifugus), northern (Myotis septentrionalis), and tricolored (Perimyotis subflavus) bats, and is due to cutaneous infection with the fungus Pseudogymnoascus (Geomyces) destructans (Pd). Cutaneous infect...

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Veröffentlicht in:	PloS one 2014-12, Vol.9 (12), p.e113958-e113958
Hauptverfasser:	Frank, Craig L, Michalski, Andrew, McDonough, Anne A, Rahimian, Marjon, Rudd, Robert J, Herzog, Carl
Format:	Artikel
Sprache:	eng
Schlagworte:	Adipose Tissue - metabolism Animal behavior Animal diseases Animals Bats Biology and Life Sciences Body fat Chiroptera Dermatomycoses - microbiology Dermatomycoses - veterinary Eptesicus fuscus Fungi Geomyces destructans Hibernation Infections Lesions Male Mortality Myotis lucifugus North America Nose Perimyotis subflavus Population Density Radio telemetry Remote Sensing Technology - methods Skin Skin diseases Telemetry Torpor White-nose syndrome Wings
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creator	Frank, Craig L Michalski, Andrew McDonough, Anne A Rahimian, Marjon Rudd, Robert J Herzog, Carl
description	White-nose Syndrome (WNS) is the primary cause of over-winter mortality for little brown (Myotis lucifugus), northern (Myotis septentrionalis), and tricolored (Perimyotis subflavus) bats, and is due to cutaneous infection with the fungus Pseudogymnoascus (Geomyces) destructans (Pd). Cutaneous infection with P. destructans disrupts torpor patterns, which is thought to lead to a premature depletion of body fat reserve. Field studies were conducted at 3 WNS-affected hibernation sites to determine if big brown bats (Eptesicus fuscus) are resistant to Pd. Radio telemetry studies were conducted during 2 winters to determine the torpor patterns of 23 free-ranging E. fuscus hibernating at a site where Pd occurs. The body fat contents of free-ranging E. fuscus and M. lucifugus during hibernation at 2 different WNS-affected sites were also determined. The numbers of bats hibernating at the same site was determined during both: a) 4-7 years prior to the arrival of Pd, and, b) 2-3 years after it first appeared at this site. The torpor bouts of big brown bats hibernating at a WNS-affected site were not significantly different in length from those previously reported for this species. The mean body fat content of E. fuscus in February was nearly twice that of M. lucifugus hibernating at the same WNS-affected sites during this month. The number of M. lucifugus hibernating at one site decreased by 99.6% after P. destructans first appeared, whereas the number of E. fuscus hibernating there actually increased by 43% during the same period. None of the E. fuscus collected during this study had any visible fungal growth or lesions on their skin, whereas virtually all the M. lucifugus collected had visible fungal growth on their wings, muzzle, and ears. These findings indicate that big brown bats are resistant to WNS.
doi_str_mv	10.1371/journal.pone.0113958
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Cutaneous infection with P. destructans disrupts torpor patterns, which is thought to lead to a premature depletion of body fat reserve. Field studies were conducted at 3 WNS-affected hibernation sites to determine if big brown bats (Eptesicus fuscus) are resistant to Pd. Radio telemetry studies were conducted during 2 winters to determine the torpor patterns of 23 free-ranging E. fuscus hibernating at a site where Pd occurs. The body fat contents of free-ranging E. fuscus and M. lucifugus during hibernation at 2 different WNS-affected sites were also determined. The numbers of bats hibernating at the same site was determined during both: a) 4-7 years prior to the arrival of Pd, and, b) 2-3 years after it first appeared at this site. The torpor bouts of big brown bats hibernating at a WNS-affected site were not significantly different in length from those previously reported for this species. The mean body fat content of E. fuscus in February was nearly twice that of M. lucifugus hibernating at the same WNS-affected sites during this month. The number of M. lucifugus hibernating at one site decreased by 99.6% after P. destructans first appeared, whereas the number of E. fuscus hibernating there actually increased by 43% during the same period. None of the E. fuscus collected during this study had any visible fungal growth or lesions on their skin, whereas virtually all the M. lucifugus collected had visible fungal growth on their wings, muzzle, and ears. 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PloS one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Frank, Craig L</au><au>Michalski, Andrew</au><au>McDonough, Anne A</au><au>Rahimian, Marjon</au><au>Rudd, Robert J</au><au>Herzog, Carl</au><au>Baker, Michelle L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The resistance of a North American bat species (Eptesicus fuscus) to White-nose Syndrome (WNS)</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2014-12-01</date><risdate>2014</risdate><volume>9</volume><issue>12</issue><spage>e113958</spage><epage>e113958</epage><pages>e113958-e113958</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>White-nose Syndrome (WNS) is the primary cause of over-winter mortality for little brown (Myotis lucifugus), northern (Myotis septentrionalis), and tricolored (Perimyotis subflavus) bats, and is due to cutaneous infection with the fungus Pseudogymnoascus (Geomyces) destructans (Pd). Cutaneous infection with P. destructans disrupts torpor patterns, which is thought to lead to a premature depletion of body fat reserve. Field studies were conducted at 3 WNS-affected hibernation sites to determine if big brown bats (Eptesicus fuscus) are resistant to Pd. Radio telemetry studies were conducted during 2 winters to determine the torpor patterns of 23 free-ranging E. fuscus hibernating at a site where Pd occurs. The body fat contents of free-ranging E. fuscus and M. lucifugus during hibernation at 2 different WNS-affected sites were also determined. The numbers of bats hibernating at the same site was determined during both: a) 4-7 years prior to the arrival of Pd, and, b) 2-3 years after it first appeared at this site. The torpor bouts of big brown bats hibernating at a WNS-affected site were not significantly different in length from those previously reported for this species. The mean body fat content of E. fuscus in February was nearly twice that of M. lucifugus hibernating at the same WNS-affected sites during this month. The number of M. lucifugus hibernating at one site decreased by 99.6% after P. destructans first appeared, whereas the number of E. fuscus hibernating there actually increased by 43% during the same period. None of the E. fuscus collected during this study had any visible fungal growth or lesions on their skin, whereas virtually all the M. lucifugus collected had visible fungal growth on their wings, muzzle, and ears. These findings indicate that big brown bats are resistant to WNS.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>25437448</pmid><doi>10.1371/journal.pone.0113958</doi><oa>free_for_read</oa></addata></record>
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subjects	Adipose Tissue - metabolism Animal behavior Animal diseases Animals Bats Biology and Life Sciences Body fat Chiroptera Dermatomycoses - microbiology Dermatomycoses - veterinary Eptesicus fuscus Fungi Geomyces destructans Hibernation Infections Lesions Male Mortality Myotis lucifugus North America Nose Perimyotis subflavus Population Density Radio telemetry Remote Sensing Technology - methods Skin Skin diseases Telemetry Torpor White-nose syndrome Wings
title	The resistance of a North American bat species (Eptesicus fuscus) to White-nose Syndrome (WNS)
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