Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome

Joseph R. Hoyt; Kate E. Langwig; Keping Sun; Katy L. Parise; Aoqiang Li; Yujuan Wang; Xiaobin Huang; Lisa Worledge; Helen Miller; J. Paul White; Heather M. Kaarakka; Jennifer A. Redell; Tamás Görföl; Sándor András Boldogh; Dai Fukui; Muneki Sakuyama; Syuuji Yachimori; Akiyoshi Sato; Munkhnast Dalannast; Ariunbold Jargalsaikhan; Nyambayar Batbayar; Yossi Yovel; Eran Amichai; Ioseb Natradze; Winifred F. Frick; Jeffrey T. Foster; Jiang Feng; A. Marm Kilpatrick

doi:10.1073/pnas.1914794117

Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome

Joseph R. Hoyt^*
, Kate E. Langwig
, Keping Sun
, Katy L. Parise
, Aoqiang Li
, Yujuan Wang
, Xiaobin Huang
, Lisa Worledge
, Helen Miller
, J. Paul White
, Heather M. Kaarakka
, Jennifer A. Redell
, Tamás Görföl
, Sándor András Boldogh
, Dai Fukui
, Muneki Sakuyama
, Syuuji Yachimori
, Akiyoshi Sato
, Munkhnast Dalannast
, Ariunbold Jargalsaikhan

Nyambayar Batbayar, Yossi Yovel, Eran Amichai, Ioseb Natradze, Winifred F. Frick, Jeffrey T. Foster, Jiang Feng, A. Marm Kilpatrick

^*Corresponding author for this work

School of Zoology

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans, the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influencedwhether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics.

Original language	English
Pages (from-to)	7255-7262
Number of pages	8
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	117
Issue number	13
DOIs	https://doi.org/10.1073/pnas.1914794117
State	Published - 31 Mar 2020

Funding

Funders	Funder number
Gyeongin National University of Education
Northern Ireland Environment Agency
Natural England
Bat Conservation Trust
Natural Resources Wales
Scottish Natural Heritage
Northeast Normal University
U.S. Fish and Wildlife Service	F15AP00975
National Natural Science Foundation of China	31961123001
National Science Foundation	DEB-1911853, IIA-1415092, 1115895, 1415092, DEB-1115895, DEB-1336290
Program for Introducing Talents to Universities	B16011
Japan Society for the Promotion of Science	16K00568
Natural Science Foundation of Jilin Province	20180101272JC

Keywords

Environmental pathogen reservoir
Global disease dynamics
Pseudogymnoascus destructans
White-nose syndrome

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1073/pnas.1914794117

Cite this

Hoyt, J. R., Langwig, K. E., Sun, K., Parise, K. L., Li, A., Wang, Y., Huang, X., Worledge, L., Miller, H., White, J. P., Kaarakka, H. M., Redell, J. A., Görföl, T., Boldogh, S. A., Fukui, D., Sakuyama, M., Yachimori, S., Sato, A., Dalannast, M., ... Kilpatrick, A. M. (2020). Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome. Proceedings of the National Academy of Sciences of the United States of America, 117(13), 7255-7262. https://doi.org/10.1073/pnas.1914794117

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title = "Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome",

abstract = "Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans, the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influencedwhether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics.",

keywords = "Environmental pathogen reservoir, Global disease dynamics, Pseudogymnoascus destructans, White-nose syndrome",

author = "Hoyt, \{Joseph R.\} and Langwig, \{Kate E.\} and Keping Sun and Parise, \{Katy L.\} and Aoqiang Li and Yujuan Wang and Xiaobin Huang and Lisa Worledge and Helen Miller and White, \{J. Paul\} and Kaarakka, \{Heather M.\} and Redell, \{Jennifer A.\} and Tam{\'a}s G{\"o}rf{\"o}l and Boldogh, \{S{\'a}ndor Andr{\'a}s\} and Dai Fukui and Muneki Sakuyama and Syuuji Yachimori and Akiyoshi Sato and Munkhnast Dalannast and Ariunbold Jargalsaikhan and Nyambayar Batbayar and Yossi Yovel and Eran Amichai and Ioseb Natradze and Frick, \{Winifred F.\} and Foster, \{Jeffrey T.\} and Jiang Feng and Kilpatrick, \{A. Marm\}",

year = "2020",

month = mar,

day = "31",

doi = "10.1073/pnas.1914794117",

language = "אנגלית",

volume = "117",

pages = "7255--7262",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Hoyt, JR, Langwig, KE, Sun, K, Parise, KL, Li, A, Wang, Y, Huang, X, Worledge, L, Miller, H, White, JP, Kaarakka, HM, Redell, JA, Görföl, T, Boldogh, SA, Fukui, D, Sakuyama, M, Yachimori, S, Sato, A, Dalannast, M, Jargalsaikhan, A, Batbayar, N, Yovel, Y, Amichai, E, Natradze, I, Frick, WF, Foster, JT, Feng, J & Kilpatrick, AM 2020, 'Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome', Proceedings of the National Academy of Sciences of the United States of America, vol. 117, no. 13, pp. 7255-7262. https://doi.org/10.1073/pnas.1914794117

Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome. / Hoyt, Joseph R.; Langwig, Kate E.; Sun, Keping et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 117, No. 13, 31.03.2020, p. 7255-7262.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome

AU - Hoyt, Joseph R.

AU - Langwig, Kate E.

AU - Sun, Keping

AU - Parise, Katy L.

AU - Li, Aoqiang

AU - Wang, Yujuan

AU - Huang, Xiaobin

AU - Worledge, Lisa

AU - Miller, Helen

AU - White, J. Paul

AU - Kaarakka, Heather M.

AU - Redell, Jennifer A.

AU - Görföl, Tamás

AU - Boldogh, Sándor András

AU - Fukui, Dai

AU - Sakuyama, Muneki

AU - Yachimori, Syuuji

AU - Sato, Akiyoshi

AU - Dalannast, Munkhnast

AU - Jargalsaikhan, Ariunbold

AU - Batbayar, Nyambayar

AU - Yovel, Yossi

AU - Amichai, Eran

AU - Natradze, Ioseb

AU - Frick, Winifred F.

AU - Foster, Jeffrey T.

AU - Feng, Jiang

AU - Kilpatrick, A. Marm

PY - 2020/3/31

Y1 - 2020/3/31

N2 - Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans, the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influencedwhether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics.

AB - Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans, the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influencedwhether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics.

KW - Environmental pathogen reservoir

KW - Global disease dynamics

KW - Pseudogymnoascus destructans

KW - White-nose syndrome

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DO - 10.1073/pnas.1914794117

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C2 - 32179668

AN - SCOPUS:85082771090

SN - 0027-8424

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JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 13

ER -

Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome

Abstract

Funding

Keywords

UN SDGs

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