Ecology of Zoonotic Infectious Diseases in Bats: Current Knowledge and Future Directions
Identifieur interne : 001B10 ( Main/Exploration ); précédent : 001B09; suivant : 001B11Ecology of Zoonotic Infectious Diseases in Bats: Current Knowledge and Future Directions
Auteurs : D. T. S. Hayman [Royaume-Uni, États-Unis] ; R. A. Bowen [États-Unis] ; P. M. Cryan [États-Unis] ; G. F. Mccracken [États-Unis] ; T. J. O Hea [États-Unis] ; A. J. Peel [Royaume-Uni] ; A. Gilbert [États-Unis] ; C. T. Webb [États-Unis] ; J. L. N. Wood [Royaume-Uni]Source :
- Zoonoses and Public Health [ 1863-1959 ] ; 2013-02.
English descriptors
- Teeft :
- Acad, Academic press, Annual birth pulse, Annual migration, Anthropogenic changes, Bat, Biol, Black hills, Blackwell, Blackwell verlag gmbh zoonoses, Brazilian bats, Brown bats, Canine rabies, Cave colonies, Chicago press, Coloniality, Colony formation, Colorado state university, Comparative studies, Complex mixture, Contact rates, Cryan, Current knowledge, Cytokine expression, Daszak, Data collection, Date palm, Deep torpor, Demographic data, Different immunotypes, Dimitrov, Disease dynamics, Disease ecology, Disease emergence, Disease risk management, Disease transmission, Distinct lineage, Dobson, Drexler, Drive infection dynamics, Dynamics, Ebola, Ebola virus, Ebov, Ecol, Ecological, Ecological characteristics, Ecological drivers, Ecological strategies, Ecology, Egyptian fruit bats, Eidolon helvum, Ellison, Emerg, Emergence, Environmental transmission, Epstein, Eptesicus, Eptesicus fuscus, Estimate parameters, Experimental data, Experimental infection, Experimental studies, Female bats, Food availability, Fooks, Fort collins, Franka, Fruit bats, Further studies, Fuscus, Future directions, Future research, Geographical range overlap, Geological survey, Geomyces destructans, Gmbh, Halpin, Hayman, Helvum, Hendra, Hendra virus, Hibernation, Hipposideros commersoni, Host ecology, Host population, Host population structure, Host species, Human activities, Human rabies, Immune, Immune response, Immune responses, Increase exposure, Individual bats, Infection, Infection dynamics, Infection ecology, Infection prevalence, Infectious diseases, Integrative, Integrative modelling, Integrative models, Kunz, Kuzmin, Laboratory data, Laboratory studies, Large colony sizes, Large shifts, Lasionycteris noctivagans, Leroy, Likely increase, Likely reservoir, Long lifespans, Lower virulence, Lyssavirus, Lyssavirus type, Major drivers, Mammal, Maternity colonies, Mccracken, Mechanistic, Mechanistic models, Migration, Migratory behaviour, Migratory species, Mitigation strategies, Modelling, Morbidity rates, Mortality rates, Multipathogen dynamics, Multiple hosts, Multiple infections, Myotis, Myotis myotis bats, Nahar, Nipah, Nipah virus, Noctivagans, Novel hosts, Olival, Other lyssaviruses, Other species, Outbreak, Pathogen, Pathogen dynamics, Pathogen ecology, Pathogen spillover, Pathogen variants, Pathogen virulence, Physiological stress, Plo, Plowright, Population connectivity, Population density, Population surveillance data, Prevalence, Proc, Pteropid bats, Pteropus, Pteropus poliocephalus, Public health, Pulliam, Rabies, Rabies virus, Rabies virus infection, Rabies virus variants, Rabies viruses, Rabv, Rabv exposure, Rabv infection, Rabv persistence, Rabv variants, Radio transmitters, Rahman, Restif, Rohani, Rupprecht, Same species, Sample size, Satellite telemetry, Seasonal birth pulses, Seasonal variation, Seasonality, Sensitivity analyses, Short period, Single host, Small colonies, Spillover, Streicker, Susceptible hosts, Tadarida brasiliensis, Temporal changes, Temporal dynamics, Temporal patterns, Theoretical models, Thermal imaging, Time series data, Tness impact, Tooth cementum annuli, Torpor, Torpor patterns, Transmission dynamics, Transmission events, Transmission rates, Tree bats, Turmelle, Urban habituation, Variant, Verlag, Viral, Virol, Virulence, Virus, Virus dynamics, Wang, Weller, West caucasian, Wildlife population, Ying foxes, Zoonosis, Zoonotic, Zoonotic pathogens.
Abstract
Bats are hosts to a range of zoonotic and potentially zoonotic pathogens. Human activities that increase exposure to bats will likely increase the opportunity for infections to spill over in the future. Ecological drivers of pathogen spillover and emergence in novel hosts, including humans, involve a complex mixture of processes, and understanding these complexities may aid in predicting spillover. In particular, only once the pathogen and host ecologies are known can the impacts of anthropogenic changes be fully appreciated. Cross‐disciplinary approaches are required to understand how host and pathogen ecology interact. Bats differ from other sylvatic disease reservoirs because of their unique and diverse lifestyles, including their ability to fly, often highly gregarious social structures, long lifespans and low fecundity rates. We highlight how these traits may affect infection dynamics and how both host and pathogen traits may interact to affect infection dynamics. We identify key questions relating to the ecology of infectious diseases in bats and propose that a combination of field and laboratory studies are needed to create data‐driven mechanistic models to elucidate those aspects of bat ecology that are most critical to the dynamics of emerging bat viruses. If commonalities can be found, then predicting the dynamics of newly emerging diseases may be possible. This modelling approach will be particularly important in scenarios when population surveillance data are unavailable and when it is unclear which aspects of host ecology are driving infection dynamics.
Url:
DOI: 10.1111/zph.12000
Affiliations:
- Royaume-Uni, États-Unis
- Angleterre, Angleterre de l'Est, Colorado, Grand Londres, Géorgie (États-Unis), Tennessee
- Cambridge, Londres
- Université de Cambridge
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Le document en format XML
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A." last="Bowen">R. A. Bowen</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> Department of Biomedical Sciences, Colorado State University, Fort Collins, CO</wicri:regionArea><placeName><region type="state">Colorado</region></placeName></affiliation></author><author><name sortKey="Cryan, P M" sort="Cryan, P M" uniqKey="Cryan P" first="P. M." last="Cryan">P. M. Cryan</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> U.S. Geological Survey, Fort Collins Science Center, Fort Collins, CO</wicri:regionArea><placeName><region type="state">Colorado</region></placeName></affiliation></author><author><name sortKey="Mccracken, G F" sort="Mccracken, G F" uniqKey="Mccracken G" first="G. F." last="Mccracken">G. F. Mccracken</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> Department of Ecology and Evolutionary Biology, University of Tennessee, Knoxville, TN</wicri:regionArea><placeName><region type="state">Tennessee</region></placeName></affiliation></author><author><name sortKey="O Hea, T J" sort="O Hea, T J" uniqKey="O Hea T" first="T. J." last="O Hea">T. J. O Hea</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> U.S. Geological Survey, Fort Collins Science Center, Fort Collins, CO</wicri:regionArea><placeName><region type="state">Colorado</region></placeName></affiliation></author><author><name sortKey="Peel, A J" sort="Peel, A J" uniqKey="Peel A" first="A. J." last="Peel">A. J. 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Gilbert</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> National Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, GA</wicri:regionArea><placeName><region type="state">Géorgie (États-Unis)</region></placeName></affiliation></author><author><name sortKey="Webb, C T" sort="Webb, C T" uniqKey="Webb C" first="C. T." last="Webb">C. T. Webb</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea> Department of Biology, Colorado State University, Fort Collins, CO</wicri:regionArea><placeName><region type="state">Colorado</region></placeName></affiliation></author><author><name sortKey="Wood, J L N" sort="Wood, J L N" uniqKey="Wood J" first="J. L. N." last="Wood">J. L. N. Wood</name><affiliation wicri:level="4"><country xml:lang="fr">Royaume-Uni</country><wicri:regionArea> Disease Dynamics Unit, Department of Veterinary Medicine, University of Cambridge, Cambridge</wicri:regionArea><orgName type="university">Université de Cambridge</orgName><placeName><settlement type="city">Cambridge</settlement><region type="country">Angleterre</region><region type="région" nuts="1">Angleterre de l'Est</region></placeName></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Zoonoses and Public Health</title><title level="j" type="sub">Bats and Zoonoses</title><title level="j" type="alt">ZOONOSES AND PUBLIC HEALTH</title><idno type="ISSN">1863-1959</idno><idno type="eISSN">1863-2378</idno><imprint><biblScope unit="vol">60</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="2">2</biblScope><biblScope unit="page" to="21">21</biblScope><biblScope unit="page-count">20</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2013-02">2013-02</date></imprint><idno type="ISSN">1863-1959</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">1863-1959</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Acad</term><term>Academic press</term><term>Annual birth pulse</term><term>Annual migration</term><term>Anthropogenic changes</term><term>Bat</term><term>Biol</term><term>Black hills</term><term>Blackwell</term><term>Blackwell verlag gmbh zoonoses</term><term>Brazilian bats</term><term>Brown bats</term><term>Canine rabies</term><term>Cave colonies</term><term>Chicago press</term><term>Coloniality</term><term>Colony formation</term><term>Colorado state university</term><term>Comparative studies</term><term>Complex mixture</term><term>Contact rates</term><term>Cryan</term><term>Current knowledge</term><term>Cytokine expression</term><term>Daszak</term><term>Data collection</term><term>Date palm</term><term>Deep torpor</term><term>Demographic data</term><term>Different immunotypes</term><term>Dimitrov</term><term>Disease dynamics</term><term>Disease ecology</term><term>Disease emergence</term><term>Disease risk management</term><term>Disease transmission</term><term>Distinct lineage</term><term>Dobson</term><term>Drexler</term><term>Drive infection dynamics</term><term>Dynamics</term><term>Ebola</term><term>Ebola virus</term><term>Ebov</term><term>Ecol</term><term>Ecological</term><term>Ecological characteristics</term><term>Ecological drivers</term><term>Ecological strategies</term><term>Ecology</term><term>Egyptian fruit bats</term><term>Eidolon helvum</term><term>Ellison</term><term>Emerg</term><term>Emergence</term><term>Environmental transmission</term><term>Epstein</term><term>Eptesicus</term><term>Eptesicus fuscus</term><term>Estimate parameters</term><term>Experimental data</term><term>Experimental infection</term><term>Experimental studies</term><term>Female bats</term><term>Food availability</term><term>Fooks</term><term>Fort collins</term><term>Franka</term><term>Fruit bats</term><term>Further studies</term><term>Fuscus</term><term>Future directions</term><term>Future research</term><term>Geographical range overlap</term><term>Geological survey</term><term>Geomyces destructans</term><term>Gmbh</term><term>Halpin</term><term>Hayman</term><term>Helvum</term><term>Hendra</term><term>Hendra virus</term><term>Hibernation</term><term>Hipposideros commersoni</term><term>Host ecology</term><term>Host population</term><term>Host population structure</term><term>Host species</term><term>Human activities</term><term>Human rabies</term><term>Immune</term><term>Immune response</term><term>Immune responses</term><term>Increase exposure</term><term>Individual bats</term><term>Infection</term><term>Infection dynamics</term><term>Infection ecology</term><term>Infection prevalence</term><term>Infectious diseases</term><term>Integrative</term><term>Integrative modelling</term><term>Integrative models</term><term>Kunz</term><term>Kuzmin</term><term>Laboratory data</term><term>Laboratory studies</term><term>Large colony sizes</term><term>Large shifts</term><term>Lasionycteris noctivagans</term><term>Leroy</term><term>Likely increase</term><term>Likely reservoir</term><term>Long lifespans</term><term>Lower virulence</term><term>Lyssavirus</term><term>Lyssavirus type</term><term>Major drivers</term><term>Mammal</term><term>Maternity colonies</term><term>Mccracken</term><term>Mechanistic</term><term>Mechanistic models</term><term>Migration</term><term>Migratory behaviour</term><term>Migratory species</term><term>Mitigation strategies</term><term>Modelling</term><term>Morbidity rates</term><term>Mortality rates</term><term>Multipathogen dynamics</term><term>Multiple hosts</term><term>Multiple infections</term><term>Myotis</term><term>Myotis myotis bats</term><term>Nahar</term><term>Nipah</term><term>Nipah virus</term><term>Noctivagans</term><term>Novel hosts</term><term>Olival</term><term>Other lyssaviruses</term><term>Other species</term><term>Outbreak</term><term>Pathogen</term><term>Pathogen dynamics</term><term>Pathogen ecology</term><term>Pathogen spillover</term><term>Pathogen variants</term><term>Pathogen virulence</term><term>Physiological stress</term><term>Plo</term><term>Plowright</term><term>Population connectivity</term><term>Population density</term><term>Population surveillance data</term><term>Prevalence</term><term>Proc</term><term>Pteropid bats</term><term>Pteropus</term><term>Pteropus poliocephalus</term><term>Public health</term><term>Pulliam</term><term>Rabies</term><term>Rabies virus</term><term>Rabies virus infection</term><term>Rabies virus variants</term><term>Rabies viruses</term><term>Rabv</term><term>Rabv exposure</term><term>Rabv infection</term><term>Rabv persistence</term><term>Rabv variants</term><term>Radio transmitters</term><term>Rahman</term><term>Restif</term><term>Rohani</term><term>Rupprecht</term><term>Same species</term><term>Sample size</term><term>Satellite telemetry</term><term>Seasonal birth pulses</term><term>Seasonal variation</term><term>Seasonality</term><term>Sensitivity analyses</term><term>Short period</term><term>Single host</term><term>Small colonies</term><term>Spillover</term><term>Streicker</term><term>Susceptible hosts</term><term>Tadarida brasiliensis</term><term>Temporal changes</term><term>Temporal dynamics</term><term>Temporal patterns</term><term>Theoretical models</term><term>Thermal imaging</term><term>Time series data</term><term>Tness impact</term><term>Tooth cementum annuli</term><term>Torpor</term><term>Torpor patterns</term><term>Transmission dynamics</term><term>Transmission events</term><term>Transmission rates</term><term>Tree bats</term><term>Turmelle</term><term>Urban habituation</term><term>Variant</term><term>Verlag</term><term>Viral</term><term>Virol</term><term>Virulence</term><term>Virus</term><term>Virus dynamics</term><term>Wang</term><term>Weller</term><term>West caucasian</term><term>Wildlife population</term><term>Ying foxes</term><term>Zoonosis</term><term>Zoonotic</term><term>Zoonotic pathogens</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Bats are hosts to a range of zoonotic and potentially zoonotic pathogens. Human activities that increase exposure to bats will likely increase the opportunity for infections to spill over in the future. Ecological drivers of pathogen spillover and emergence in novel hosts, including humans, involve a complex mixture of processes, and understanding these complexities may aid in predicting spillover. In particular, only once the pathogen and host ecologies are known can the impacts of anthropogenic changes be fully appreciated. Cross‐disciplinary approaches are required to understand how host and pathogen ecology interact. Bats differ from other sylvatic disease reservoirs because of their unique and diverse lifestyles, including their ability to fly, often highly gregarious social structures, long lifespans and low fecundity rates. We highlight how these traits may affect infection dynamics and how both host and pathogen traits may interact to affect infection dynamics. We identify key questions relating to the ecology of infectious diseases in bats and propose that a combination of field and laboratory studies are needed to create data‐driven mechanistic models to elucidate those aspects of bat ecology that are most critical to the dynamics of emerging bat viruses. If commonalities can be found, then predicting the dynamics of newly emerging diseases may be possible. This modelling approach will be particularly important in scenarios when population surveillance data are unavailable and when it is unclear which aspects of host ecology are driving infection dynamics.</div></front></TEI><affiliations><list><country><li>Royaume-Uni</li><li>États-Unis</li></country><region><li>Angleterre</li><li>Angleterre de l'Est</li><li>Colorado</li><li>Grand Londres</li><li>Géorgie (États-Unis)</li><li>Tennessee</li></region><settlement><li>Cambridge</li><li>Londres</li></settlement><orgName><li>Université de Cambridge</li></orgName></list><tree><country name="Royaume-Uni"><region name="Angleterre"><name sortKey="Hayman, D T S" sort="Hayman, D T S" uniqKey="Hayman D" first="D. T. S." last="Hayman">D. T. S. Hayman</name></region><name sortKey="Hayman, D T S" sort="Hayman, D T S" uniqKey="Hayman D" first="D. T. S." last="Hayman">D. T. S. Hayman</name><name sortKey="Hayman, D T S" sort="Hayman, D T S" uniqKey="Hayman D" first="D. T. S." last="Hayman">D. T. S. Hayman</name><name sortKey="Peel, A J" sort="Peel, A J" uniqKey="Peel A" first="A. J." last="Peel">A. J. Peel</name><name sortKey="Peel, A J" sort="Peel, A J" uniqKey="Peel A" first="A. J." last="Peel">A. J. Peel</name><name sortKey="Wood, J L N" sort="Wood, J L N" uniqKey="Wood J" first="J. L. N." last="Wood">J. L. N. Wood</name></country><country name="États-Unis"><region name="Colorado"><name sortKey="Hayman, D T S" sort="Hayman, D T S" uniqKey="Hayman D" first="D. T. S." last="Hayman">D. T. S. Hayman</name></region><name sortKey="Bowen, R A" sort="Bowen, R A" uniqKey="Bowen R" first="R. A." last="Bowen">R. A. Bowen</name><name sortKey="Cryan, P M" sort="Cryan, P M" uniqKey="Cryan P" first="P. M." last="Cryan">P. M. Cryan</name><name sortKey="Gilbert, A" sort="Gilbert, A" uniqKey="Gilbert A" first="A." last="Gilbert">A. Gilbert</name><name sortKey="Mccracken, G F" sort="Mccracken, G F" uniqKey="Mccracken G" first="G. F." last="Mccracken">G. F. Mccracken</name><name sortKey="O Hea, T J" sort="O Hea, T J" uniqKey="O Hea T" first="T. J." last="O Hea">T. J. O Hea</name><name sortKey="Webb, C T" sort="Webb, C T" uniqKey="Webb C" first="C. T." last="Webb">C. T. Webb</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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