Correlates of Viral Richness in Bats (Order Chiroptera) (original) (raw)
Aguilar-Setien A, Romero-Almaraz ML, Sanchez-Hernandez C, Figueroa R, Juarez-Palma LP, Garcia-Flores MM, et al. (2008) Dengue virus in Mexican bats. Epidemiology and Infection 136:1678–1683 ArticleCAS Google Scholar
Allworth A, Murray K, Morgan J (1996) A human case of encephalitis due to a lyssavirus recently identified in fruit bats. Communicable Diseases Intelligence 20:504 Google Scholar
Altizer S, Dobson A, Hosseini P, Hudson P, Pascual M, Rohani P (2006) Seasonality and the dynamics of infectious diseases. Ecology Letters 9:467–484 Article Google Scholar
Altizer S, Nunn CL, Lindenfors P (2007) Do threatened hosts have fewer parasites? A comparative study in primates. Journal of Animal Ecology 76:304–314 Article Google Scholar
Amengual B, Bourhy H, Lopez-Roig M, Serra-Cobo J (2007) Temporal dynamics of European bat lyssavirus type 1 and survival of Myotis myotis bats in natural colonies. PLoS ONE 2:e566 ArticleCAS Google Scholar
Anderson RM, May RM (1979) Population biology of infectious diseases: part I. Nature 280:361–367 ArticleCAS Google Scholar
Anderson RM, May RM (1986) The invasion, persistence and spread of infectious diseases within animal and plant communities. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 314:533–570 ArticleCAS Google Scholar
Arguin PM, Murray-Lillibridge K, Miranda ME, Smith JS, Calaor AB, Rupprecht CE (2002) Serologic evidence of lyssavirus infections among bats, the Philippines. Emerging Infectious Diseases 8:258–262 Article Google Scholar
Arnold BD (2007) Population structure and sex-biased dispersal in the forest dwelling vespertilionid bat, Myotis septentrionalis. American Midland Naturalist 157:374–384 Article Google Scholar
Asikainen K, Hanninen T, Henttonen H, Niemimaa J, Laakkonen J, Andersen HK, et al. (2000) Molecular evolution of Puumala hantavirus in Fennoscandia: phylogenetic analysis of strains from two recolonization routes, Karelia and Denmark. Journal of General Virology 81:2833–2841 CAS Google Scholar
Barlow ND (1996) The ecology of wildlife disease control: simple models revisited. Journal of Applied Ecology 33:303–314 Article Google Scholar
Barrett J, Rodwell B, Lunt R, Rupprecht C, Field H, Smith G, et al. (2005) Australian bat lyssavirus: observations of natural and experimental infection in bats. In: Wildlife Disease Association International Conference, Cairns, Queensland, Australia, 149 pp
Biek R, Drummond AJ, Poss M (2006) A virus reveals population structure and recent demographic history of its carnivore host. Science 311:538–541 ArticleCAS Google Scholar
Bininda-Emonds OR, Cardillo M, Jones KE, MacPhee RD, Beck RM, Grenyer R, et al. (2007) The delayed rise of present-day mammals. Nature 446:507–512 ArticleCAS Google Scholar
Blanton JD, Hanlon CA, Rupprecht CE (2007) Rabies surveillance in the United States during 2006. Journal of the American Veterinary Medical Association 231:540–556 Article Google Scholar
Bohm M, Hutchings MR, White PC (2009) Contact networks in a wildlife-livestock host community: identifying high-risk individuals in the transmission of bovine TB among badgers and cattle. PLoS One 4:e5016 ArticleCAS Google Scholar
Bolzoni L, Real L, De Leo G (2007) Transmission heterogeneity and control strategies for infectious disease emergence. PLoS One 2:e747 Article Google Scholar
Boots M, Hudson PJ, Sasaki A (2004) Large shifts in pathogen virulence relate to host population structure. Science 303:842–844 ArticleCAS Google Scholar
Boots M, Mealor M (2007) Local interactions select for lower pathogen infectivity. Science 315:1284–1286 ArticleCAS Google Scholar
Boots M, Sasaki A (1999) ‘Small worlds’ and the evolution of virulence: infection occurs locally and at a distance. Proceedings of the Royal Society of London. Series B: Biological Sciences 266:1933–1938 ArticleCAS Google Scholar
Boots M, Sasaki A (2000) The evolutionary dynamics of local infection and global reproduction in host-parasite interactions. Ecology Letters 3:181–185 Article Google Scholar
Botvinkin AD, Poleschuk EM, Kuzmin IV, Borisova TI, Gazaryan SV, Yager P, et al. (2003) Novel lyssaviruses isolated from bats in Russia. Emerging Infectious Diseases 9:1623–1625 Google Scholar
Bull JJ, Molineux IJ, Rice WR (1991) Selection of benevolence in a host-parasite system. Evolution 45:875–882 Article Google Scholar
Burland TM, Barratt EM, Beaumont MA, Racey PA (1999) Population genetic structure and gene flow in a gleaning bat, Plecotus auritus. Proceedings of the Royal Society of London. Series B: Biological Sciences 266:975–980
Burland TM, Worthington-Wilmer JW (2001) Seeing in the dark: molecular approaches to the study of bat populations. Biological Reviews 76:389–409 ArticleCAS Google Scholar
Burnham KP, Anderson DR (2002) Model Selection and Multimodel Inference, 2nd ed., New York: Springer Google Scholar
Burns KF, Farinacci CJ (1956) Virus of bats antigenically related to St. Louis encephalitis. Science 123:227 ArticleCAS Google Scholar
Burns KF, Farinacci CF, Murnane VC (1956) Insectivorous bats naturally infected with rabies in the southwestern United States. American Journal of Public Health 46:1089–1097 ArticleCAS Google Scholar
Calisher CH, Chappell WA, Maness KS, Lord RD, Sudia WD (1971) Isolations of Nepuyo virus strains from Honduras, 1967. American Journal of Tropical Medicine and Hygiene 20:331–337 CAS Google Scholar
Calisher CH, Childs JE, Field HE, Holmes KV, Schountz T (2006) Bats: important reservoir hosts of emerging viruses. Clinical Microbiology Reviews 19:531–545 Article Google Scholar
Campbell P, Schneider CJ, Adnan AM, Zubaid A, Kunz TH (2006) Comparative population structure of Cynopterus fruit bats in peninsular Malaysia and southern Thailand. Molecular Ecology 15:29–47 ArticleCAS Google Scholar
Caraco T, Glavanakov S, Chen G, Flaherty JE, Ohsumi TK, Szymanski BK (2002) Stage-structured infection transmission and a spatial epidemic: a model for Lyme disease. American Naturalist 160:348–359 Article Google Scholar
Carrington CVF, Foster JE, Zhu CH, Zhang JX, Smith GJD, Thompson N, et al. (2008) Detection and phylogenetic analysis of group 1 coronaviruses in South American bats. Emerging Infectious Diseases 14:1890–1893 Article Google Scholar
Carstens BC, Sullivan J, Davalos LM, Larsen PA, Pedersen SC (2004) Exploring population genetic structure in three species of Lesser Antillean bats. Molecular Ecology 13:2557–2566 ArticleCAS Google Scholar
Castella V, Ruedi M, Excoffier L (2001) Contrasted patterns of mitochondrial and nuclear structure among nursery colonies of the bat Myotis myotis. Journal of Evolutionary Biology 14:708–720 Article Google Scholar
Castella V, Ruedi M, Excoffier L, Ibanez C, Arlettaz R, Hausser J (2000) Is the Gibraltar strait a barrier to gene flow for the bat Myotis myotis (Chiroptera: Vespertilionidae)? Molecular Ecology 9:1761–1772 ArticleCAS Google Scholar
CDC (2000) Update: West Nile virus activity—Northeastern United States, 2000. MMWR.Morbidity and Mortality Weekly Report 49:820–822 Google Scholar
Chua KB, Crameri G, Hyatt A, Yu M, Tompang MR, Rosli J, et al. (2007) A previously unknown reovirus of bat origin is associated with an acute respiratory disease in humans. Proceedings of the National Academy of Sciences of the United States of America 104:11424–11429 Google Scholar
Chua KB, Koh CL, Hooi PS, Wee KF, Khong JH, Chua BH, et al. (2002) Isolation of Nipah virus from Malaysian Island flying-foxes. Microbes and Infection 4:145–151 Article Google Scholar
Chua KB, Voon K, Crameri G, Tan HS, Rosli J, McEachern JA, et al. (2008) Identification and characterization of a new orthoreovirus from patients with acute respiratory infections. PLoS ONE 3:e3803 ArticleCAS Google Scholar
Chua KB, Wang LF, Lam SK, Crameri G, Yu M, Wise T, et al. (2001) Tioman virus, a novel paramyxovirus isolated from fruit bats in Malaysia. Virology 283:215-229 ArticleCAS Google Scholar
Cleaveland S, Laurenson MK, Taylor LH (2001) Diseases of humans and their domestic mammals: pathogen characteristics, host range and the risk of emergence. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 356:991–999 ArticleCAS Google Scholar
Conner MM, Miller MW (2004) Movement patterns and spatial epidemiology of a prion disease in mule deer population units. Ecological Applications 14:1870–1881 Article Google Scholar
Constantine DG (1970) Bats in relation to the health, welfare, and economy of man. In: Biology of Bats, Wimsatt WA (editor), New York: Academic Press, pp 319–449 Google Scholar
Constantine DG, Woodall DF (1964) Latent infection of Rio Bravo virus in salivary glands of bats. Public Health Reports 79:1033–1039 CAS Google Scholar
Correa-Giron P, Calisher CH, Baer GM (1972) Epidemic strain of Venezuelan equine encephalomyelitis virus from a vampire bat captured in Oaxaca, Mexico, 1970. Science 175:546–547 ArticleCAS Google Scholar
Criscione CD, Blouin MS (2007) Parasite phylogeographical congruence with salmon host evolutionarily significant units: implications for salmon conservation. Molecular Ecology 16:993–1005 ArticleCAS Google Scholar
Criscione CD, Poulin R, Blouin MS (2005) Molecular ecology of parasites: elucidating ecological and microevolutionary processes. Molecular Ecology 14:2247–2257 ArticleCAS Google Scholar
Cross PC, Lloyd-Smith JO, Johnson PLF, Getz WM (2005) Duelling timescales of host movement and disease recovery determine invasion of disease in structured populations. Ecology Letters 8:587–595 Article Google Scholar
Cui J, Han N, Streicker D, Li G, Tang X, Shi Z, et al. (2007) Evolutionary relationships between bat coronaviruses and their hosts. Emerging Infectious Diseases 13:1526–1532 CAS Google Scholar
da Rosa ES, Kotait I, Barbosa TF, Carrieri ML, Brandao PE, Pinheiro AS, et al. (2006) Bat-transmitted human rabies outbreaks, Brazilian Amazon. Emerging Infectious Diseases 12:1197–1202 Google Scholar
Davies TJ, Pedersen AB (2008) Phylogeny and geography predict pathogen community similarity in wild primates and humans. Proceedings of the Royal Society of London. Series B: Biological Sciences 275:1695–1701 Google Scholar
Davis PL, Holmes EC, Larrous F, Van der Poel WH, Tjornehoj K, Alonso WJ, et al. (2005) Phylogeography, population dynamics, and molecular evolution of European bat lyssaviruses. Journal of Virology 79:10487–10497 ArticleCAS Google Scholar
de Roode JC, Yates AJ, Altizer S (2008) Virulence-transmission trade-offs and population divergence in virulence in a naturally occurring butterfly parasite. Proceedings of the National Academy of Sciences of the United States of America 105:7489–7494
Dominguez SR, O’Shea TJ, Oko LM, Holmes KV (2007) Detection of group 1 coronaviruses in bats in North America. Emerging Infectious Diseases 13:1295–1300 CAS Google Scholar
Donnelly CA, Woodroffe R, Cox DR, Bourne FJ, Cheeseman CL, Clifton-Hadley RS, et al. (2006) Positive and negative effects of widespread badger culling on tuberculosis in cattle. Nature 439:843–846 ArticleCAS Google Scholar
Downs WG, Anderson CR, Spence L, Aitken TH, Greenhall AH (1963) Tacaribe virus, a new agent isolated from Artibeus bats and mosquitoes in Trinidad, West Indies. American Journal of Tropical Medicine and Hygiene 12:640–646 Google Scholar
Dragoo JW, Lackey JA, Moore KE, Lessa EP, Cook JA, Yates TL (2006) Phylogeography of the deer mouse (Peromyscus maniculatus) provides a predictive framework for research on hantaviruses. Journal of General Virology 87:1997–2003 ArticleCAS Google Scholar
Drexler JF, Corman VM, Gloza-Rausch F, Seebens A, Annan A, Ipsen A, et al. (2009) Henipavirus RNA in African bats. PLoS ONE 4:e6367 ArticleCAS Google Scholar
Duncan RP, Forsyth DM, Hone J (2007) Testing the metabolic theory of ecology: allometric scaling exponents in mammals. Ecology 88:324–333 Article Google Scholar
Enright JB, Sadler WW, Moulton JE, Constantine D (1955) Isolation of rabies virus from an insectivorous bat (Tadarida mexicana) in California. Proceedings of the Society for Experimental Biology and Medicine 89:94–96 Google Scholar
Epstein JH, Olival KJ, Pulliam JRC, Smith CS, Westrum J, Hughes T, et al. (2009) Management of Pteropus vampyrus, a hunted migratory species with a multinational home-range. Journal of Applied Ecology 46:991–1002 Article Google Scholar
Ewald PW (1991) Waterborne transmission and the evolution of virulence among gastrointestinal bacteria. Epidemiology and Infection 106:83–119 ArticleCAS Google Scholar
Excoffier L, Smouse PE, Quattro JM (1992) Analysis of molecular variance inferred from metric distances among DNA haplotypes—application to human mitochondrial DNA restriction data. Genetics 131:479–491 CAS Google Scholar
Ezenwa VO (2004) Host social behavior and parasitic infection: a multifactorial approach. Behavioral Ecology 15:446–454 Article Google Scholar
Favi M, de Mattos CA, Yung V, Chala E, Lopez LR, de Mattos CC (2002) First case of human rabies in Chile caused by an insectivorous bat virus variant. Emerging Infectious Diseases 8:79–81 Article Google Scholar
Felsenstein J (1985) Phylogenies and the comparative method. American Naturalist 125:1–15 Article Google Scholar
Fleming TH, Eby P (2003) Ecology of bat migration. In: Bat Ecology, Kunz TH, Fenton B (editors), Chicago: The University of Chicago Press, pp 156–208 Google Scholar
Fooks AR, McElhinney LM, Pounder DJ, Finnegan CJ, Mansfield K, Johnson N, et al. (2003) Case report: isolation of a European bat lyssavirus type 2a from a fatal human case of rabies encephalitis. Journal of Medical Virology 71:281–289 ArticleCAS Google Scholar
Franka R, Constantine DG, Kuzmin I, Velasco-Villa A, Reeder SA, Streicker D, et al. (2006) A new phylogenetic lineage of rabies virus associated with western pipistrelle bats (Pipistrellus hesperus). Journal of General Virology 87:2309–2321 ArticleCAS Google Scholar
Fraser GC, Hooper PT, Lunt RA, Gould AR, Gleeson LJ, Hyatt AD, et al. (1996) Encephalitis caused by a lyssavirus in fruit bats in Australia. Emerging Infectious Diseases 2:327–331 ArticleCAS Google Scholar
Freckleton RP, Harvey PH, Pagel M (2002) Phylogenetic analysis and comparative data: a test and review of evidence. American Naturalist 160:712–726 ArticleCAS Google Scholar
Gard GP, Marshall ID (1973) Nelson Bay virus. A novel reovirus. Archiv Für Die Gesamte Virusforschung 43:34–42 ArticleCAS Google Scholar
Garland T, Ives AR (2000) Using the past to predict the present: confidence intervals for regression equations in phylogenetic comparative methods. American Naturalist 155:346–364 Article Google Scholar
Gaunt MW, Sall AA, de Lamballerie X, Falconar AKI, Dzhivanian TI, Gould EA (2001) Phylogenetic relationships of flaviviruses correlate with their epidemiology, disease association and biogeography. Journal of General Virology 82:1867–1876 CAS Google Scholar
Gloza-Rausch F, Ipsen A, Seebens A, Gottsche M, Panning M, Felix Drexler J, et al. (2008) Detection and prevalence patterns of group I coronaviruses in bats, northern Germany. Emerging Infectious Diseases 14:626–631 Article Google Scholar
Grafen A (1989) The phylogenetic regression. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 326:119–157 ArticleCAS Google Scholar
Gregory RD (1990) Parasites and host geographic range as illustrated by waterfowl. Functional Ecology 4:645–654 Article Google Scholar
Grenfell BT, Pybus OG, Gog JR, Wood JLN, Daly JM, Mumford JA, et al. (2004) Unifying the epidemiological and evolutionary dynamics of pathogens. Science 303:327–332 ArticleCAS Google Scholar
Halpin K, Hyatt AD, Plowright RK, Epstein JH, Daszak P, Field HE, et al. (2007) Emerging viruses: coming in on a wrinkled wing and a prayer. Clinical Infectious Diseases 44:711–717 Article Google Scholar
Halpin K, Young P, Field H (1996) Identification of likely natural hosts for equine morbillivirus. Communicable Diseases Intelligence 20:476 Google Scholar
Halpin K, Young PL, Field HE, Mackenzie JS (2000) Isolation of Hendra virus from pteropid bats: a natural reservoir of Hendra virus. Journal of General Virology 81:1927–1932 CAS Google Scholar
Hanlon CA, Kuzmin IV, Blanton JD, Weldon WC, Manangan JS, Rupprecht CE (2005) Efficacy of rabies biologics against new lyssaviruses from Eurasia. Virus Research 111:44–54 ArticleCAS Google Scholar
Haraguchi Y, Sasaki A (2000) The evolution of parasite virulence and transmission rate in a spatially structured population. Journal of Theoretical Biology 203:85–96 ArticleCAS Google Scholar
Harvey PH, Pagel MD (1991) The Comparative Method in Evolutionary Biology, Oxford, UK: Oxford University Press Google Scholar
Hayman DT, Suu-Ire R, Breed AC, McEachern JA, Wang L, Wood JL, et al. (2008) Evidence of henipavirus infection in West African fruit bats. PLoS ONE 3:e2739 ArticleCAS Google Scholar
Heaney LR, Walsh JS, Peterson AT (2005) The roles of geological history and colonization abilities in genetic differentiation between mammalian populations in the Philippine archipelago. Journal of Biogeography 32:229–247 Article Google Scholar
Herre EA (1993) Population-structure and the evolution of virulence in nematode parasites of fig wasps. Science 259:1442–1445 ArticleCAS Google Scholar
Hess G (1996) Disease in metapopulation models: implications for conservation. Ecology 77:1617–1632 Article Google Scholar
Hess GR, Randolph SE, Arneberg P, Chemini C, Furlanello C, Harwood J, et al. (2004) Spatial aspects of disease dynamics. In: The Ecology of Wildlife Diseases, Hudson PJ, Rizzoli A, Grenfell B, Heesterbeek JAP, Dobson A (editors), Oxford, UK: Oxford University Press, pp 102–118 Google Scholar
Hisheh S, How RA, Suyanto A, Schmitt LH (2004) Implications of contrasting patterns of genetic variability in two vespertilionid bats from the Indonesian archipelago. Biological Journal of the Linnean Society 83:421–431 Article Google Scholar
Holmes EC, Drummond AJ (2007) The evolutionary genetics of viral emergence. Current Topics in Microbiology and Immunology 315:51–66 ArticleCAS Google Scholar
Hughes GJ, Orciari LA, Rupprecht CE (2005) Evolutionary timescale of rabies virus adaptation to North American bats inferred from the substitution rate of the nucleoprotein gene. Journal of General Virology 86:1467–1474 ArticleCAS Google Scholar
Hutson AM (2004) Occurrence, distribution and incidence of lyssavirus in bats. Scottish Natural Heritage Commissioned Report No. 063
IUCN (2009) IUCN Red List of Threatened Species. Available: http://www.iucnredlist.org [accessed March 1, 2009]
Iwasaki T, Inoue S, Tanaka K, Sato Y, Morikawa S, Hayasaka D, et al. (2004) Characterization of Oita virus 296/1972 of Rhabdoviridae isolated from a horseshoe bat bearing characteristics of both lyssavirus and vesiculovirus. Archives of Virology 149:1139–1154 ArticleCAS Google Scholar
Johara MY, Field H, Rashdi AM, Morrissy C, Heide Bvd, Rosta P, et al. (2001) Nipah virus infection in bats (Order Chiroptera) in Peninsular Malaysia. Emerging Infectious Diseases 7:439–441 Google Scholar
Jones KE, Patel NG, Levy MA, Storeygard A, Balk D, Gittleman JL, et al. (2008) Global trends in emerging infectious diseases. Nature 451:990–993 ArticleCAS Google Scholar
Jones KE, Purvis A, Gittleman JL (2003) Biological correlates of extinction risk in bats. American Naturalist 161:601–614 Article Google Scholar
Juste J, Ibanez C, Machordom A (2000) Morphological and allozyme variation of Eidolon helvum (Mammalia: Megachiroptera) in the islands of the Gulf of Guinea. Biological Journal of the Linnean Society 71:359–378 Article Google Scholar
Juste JB, Machordom A, Ibanez C (1996) Allozyme variation of the Egyptian rousette (Rousettus aegyptiacus) in the Gulf of Guinea. Biochemical Systematics and Ecology 24:499–508 ArticleCAS Google Scholar
Kalunda M, Mukwaya LG, Mukuye A, Lule M, Sekyalo E, Wright J, et al. (1986) Kasokero virus: a new human pathogen from bats (Rousettus aegyptiacus) in Uganda. American Journal of Tropical Medicine and Hygiene 35:387–392 CAS Google Scholar
Kelkar SD, Kadam SS, Banerjee K (1981) Haemagglutination inhibition antibodies against influenza virus in bats. Indian Journal of Medical Research 74:147–152 CAS Google Scholar
Kemp GE, Le Gonidec G, Karabatsos N, Rickenbach A, Cropp CB (1988) Ife: a new African orbivirus isolated from Eidolon helvum bats captured in Nigeria, Cameroon and the Central African Republic. Bulletin de la Société de Pathologie Exotique et de Ses Filiales 81:40–48 CAS Google Scholar
Kerr B, Neuhauser C, Bohannan BJM, Dean AM (2006) Local migration promotes competitive restraint in a host-pathogen ‘tragedy of the commons.’ Nature 442:75–78 ArticleCAS Google Scholar
Kim GR, Lee YT, Park CH (1994) A new natural reservoir of hantavirus: isolation of hantaviruses from lung tissues of bats. Archives of Virology 134:85–95 ArticleCAS Google Scholar
Konstantinov OK, Diallo M, Inapogui A, Bah A, Camara S (2006) The mammals of guinea as reservoirs and carriers of arboviruses. Meditsinskaia Parazitologiia i Parazitarnye Bolezni 1:34–39 Google Scholar
Kunz TH (1982) Roosting ecology of bats. In: Ecology of Bats, Kunz TH (editor), New York: Plenum Publishing, pp 1–55 Google Scholar
Kuzmin IV, Niezgoda M, Franka R, Agwanda B, Markotter W, Beagley JC, et al. (2008) Lagos bat virus in Kenya. Journal of Clinical Microbiology 46:1451–1461 ArticleCAS Google Scholar
L’vov DK, Easterday B, Hinshow W, Dandurov IV, Arkhipov PN (1979) Isolation of strains of the Hong Kong complex (H3N2) influenza virus from Nyctalus noctula bats in Kazakhstan. Voprosy Virusologii 4:338–341 Google Scholar
L’vov DK, Karas FR, Timofeev EM, Tsyrkin YM, Vargina SG, Veselovskaya OV, et al. (1973) Issyk-Kul virus, a new arbovirus isolated from bats and Argas (Carios) Vespertilionis (Latr., 1802) in Kirghiz S.S.R. Archiv Für Die Gesamte Virusforschung 42:207–209 Article Google Scholar
Leroy EM, Kumulungui B, Pourrut X, Rouquet P, Hassanin A, Yaba P, et al. (2005) Fruit bats as reservoirs of Ebola virus. Nature 438:575–576 ArticleCAS Google Scholar
Li WD, Shi ZL, Yu M, Ren WZ, Smith C, Epstein JH, et al. (2005) Bats are natural reservoirs of SARS-like coronaviruses. Science 310:676–679 ArticleCAS Google Scholar
Liu WM, Worobey M, Li YY, Keele BF, Bibollet-Ruche F, Guo YY, et al. (2008) Molecular ecology and natural history of simian foamy virus infection in wild-living chimpanzees. PLoS Pathogens 4:e1000097 ArticleCAS Google Scholar
Lloyd-Smith JO, Schreiber SJ, Kopp PE, Getz WM (2005) Superspreading and the effect of individual variation on disease emergence. Nature 438:355–359 ArticleCAS Google Scholar
Lumio J, Hillbom M, Roine R, Ketonen L, Haltia M, Valle M, et al. (1986) Human rabies of bat origin in Europe. Lancet 1:378 ArticleCAS Google Scholar
Lumlertdacha B, Boongird K, Wanghongsa S, Wacharapluesadee S, Chanhome L, Khawplod P, et al. (2005) Survey for bat lyssaviruses, Thailand. Emerging Infectious Diseases 11:232–236 Google Scholar
Lyles AM, Dobson AP (1993) Infectious disease and intensive management: population dynamics, threatened hosts, and their parasites. Journal of Zoo and Wildlife Medicine 24:315–326 Google Scholar
Maharadatunkamsi, Hisheh S, Kitchener DJ, Schmitt LH (2003) Relationships between morphology, genetics, and geography in the cave fruit bat Eonycteris spelaea (Dobson, 1871) from Indonesia. Biological Journal of the Linnean Society 79:511–522
Markotter W, Van Eeden C, Kuzmin IV, Rupprecht CE, Paweska JT, Swanepoel R, et al. (2008) Epidemiology and pathogenicity of African bat lyssaviruses. Developments in Biologicals 131:317–325 CAS Google Scholar
Martins EP, Hansen TF (1997) Phylogenies and the comparative method: a general approach to incorporating phylogenetic information into the analysis of interspecific data. American Naturalist 149:646–667 Article Google Scholar
Martins FM, Ditchfield AD, Meyer D, Morgante JS (2007) Mitochondrial DNA phylogeography reveals marked population structure in the common vampire bat, Desmodus rotundus (Phyllostomidae). Journal of Zoological Systematics and Evolutionary Research 45:372–378 Article Google Scholar
May RM (2006) Network structure and the biology of populations. Trends in Ecology and Evolution 21:394–399 Article Google Scholar
May RM, Anderson RM (1979) Population biology of infectious diseases: part II. Nature 280:455–461 ArticleCAS Google Scholar
McCracken GF (1987) Genetic structure of bat social groups. In: Recent Advances in the Study of Bats, Fenton B, Racey PA, Rayner JMV (editors), Cambridge, UK: Cambridge University Press, pp 281–298 Google Scholar
McCracken GF (2003) Estimates of population sizes in summer colonies of Brazilian free-tailed bats (Tadarida brasiliensis). USGS/BRD/ITR-2003-003, U.S. Geological Survey
McCracken GF, Bradbury JW (1981) Social organization and kinship in the polygynous bat Phyllostomus hastatus. Behavioral Ecology and Sociobiology 8:11–34 Article Google Scholar
McCracken GF, Gassel MF (1997) Genetic structure in migratory and nonmigratory populations of Brazilian free-tailed bats. Journal of Mammalogy 78:348–357 Article Google Scholar
McKnight CA, Wise AG, Maes RK, Howe C, Rector A, Van Ranst M, et al. (2006) Papillomavirus-associated basosquamous carcinoma in an Egyptian fruit bat (Rousettus aegyptiacus). Journal of Zoo and Wildlife Medicine 37:193–196 Article Google Scholar
Messenger SL, Molineux IJ, Bull JJ (1999) Virulence evolution in a virus obeys a trade-off. Proceedings of the Royal Society of London. Series B: Biological Sciences 266:397–404 Google Scholar
Messenger SL, Smith JS, Rupprecht CE (2002) Emerging epidemiology of bat-associated cryptic cases of rabies in humans in the United States. Clinical Infectious Diseases 35:738–747 Article Google Scholar
Messenger S, Rupprecht C, Smith J (2003a) Bats, emerging virus infections, and the rabies paradigm. In: Bat Ecology, Kunz TH, Fenton MB (editors), Chicago: The University of Chicago Press, pp 622–679 Google Scholar
Messenger SL, Smith JS, Orciari LA, Yager PA, Rupprecht CE (2003b) Emerging pattern of rabies deaths and increased viral infectivity. Emerging Infectious Diseases 9:151–154 Google Scholar
Meyer CF, Kalko EK, Kerth G (2009) Small-scale fragmentation effects on local genetic diversity in two phyllostomid bats with different dispersal abilities in Panama. Biotropica 41:95–102 Article Google Scholar
Miller-Butterworth C, Jacobs D, Harley E (2003) Strong population substructure is correlated with morphology and ecology in a migratory bat. Nature 424:187–191 ArticleCAS Google Scholar
Morse SS (1993) Emerging Viruses, New York: Oxford University Press Google Scholar
Muller MA, Paweska JT, Leman PA, Drosten C, Grywna K, Kemp A, et al. (2007) Coronavirus antibodies in African bat species. Emerging Infectious Diseases 13:1367–1370 Google Scholar
Muller T, Cox J, Peter W, Schafer R, Johnson N, McElhinney LM, et al. (2004) Spill-over of European bat lyssavirus type 1 into a stone marten (Martes foina) in Germany. Journal of Veterinary Medicine, B: Infectious Diseases and Veterinary Public Health 51:49–54 CAS Google Scholar
Ngamprasertwong T, Mackie IJ, Racey PA, Piertney SB (2008) Spatial distribution of mitochondrial and microsatellite DNA variation in Daubenton’s bat within Scotland. Molecular Ecology 17:3243–3258 ArticleCAS Google Scholar
Nieberding C, Morand S, Libois R, Michaux JR (2004) A parasite reveals cryptic phylogeographic history of its host. Proceedings of the Royal Society of London. Series B: Biological Sciences 271:2559–2568
Norberg UM, Rayner JMV (1987) Ecological morphology and flight in bats (Mammalia, Chiroptera)—wing adaptations, flight performance, foraging strategy and echolocation. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 316:337–419 Article Google Scholar
Nowak RM (1999) Walker’s Mammals of the World, 6th ed., Baltimore: Johns Hopkins University Press Google Scholar
Nunn CL, Altizer S, Jones KE, Sechrest W (2003) Comparative tests of parasite species richness in primates. American Naturalist 162:597–614 Article Google Scholar
Nunn CL, Altizer S, Sechrest W, Jones KE, Barton RA, Gittleman JL (2004) Parasites and the evolutionary diversification of primate clades. American Naturalist 164(Suppl 5):S90–S103 Google Scholar
Nunn CL, Altizer SM, Sechrest W, Cunningham AA (2005) Latitudinal gradients of parasite species richness in primates. Diversity and Distributions 11:249–256 Article Google Scholar
O’Shea TJ, Bogan MA (2003) Monitoring trends in bat populations of the United States and territories: problems and prospects. USGS/BRD/ITR-2003-003, U.S. Geological Survey
Olival KJ (2008) Population genetic structure and phylogeography of Southeast Asian flying foxes: implications for conservation and disease ecology. Thesis. Columbia University, New York
Ortega J, Maldonado JE, Wilkinson GS, Arita HT, Fleischer RC (2003) Male dominance, paternity, and relatedness in the Jamaican fruit-eating bat (Artibeus jamaicensis). Molecular Ecology 12:2409–2415 Article Google Scholar
Pagel M (1999) Inferring the historical patterns of biological evolution. Nature 401:877–884 ArticleCAS Google Scholar
Pannell JR, Charlesworth B (2000) Effects of metapopulation processes on measures of genetic diversity. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 355:1851–1864 ArticleCAS Google Scholar
Paradis E, Claude J, Strimmer K (2004) APE: analyses of phylogenetics and evolution in R language. Bioinformatics 20:289–290 ArticleCAS Google Scholar
Park AW, Gubbins S, Gilligan CA (2002) Extinction times for closed epidemics: the effects of host spatial structure. Ecology Letters 5:747–755 Article Google Scholar
Pavri KM, Singh KR (1968) Kyasanur forest disease virus infection in the frugivorous bat, Cynopterus sphinx. Indian Journal of Medical Research 56:1202–1204 CAS Google Scholar
Peterson AT, Heaney LR (1993) Genetic differentiation in Philippine bats of the genera Cynopterus and Haplonycteris. Biological Journal of the Linnean Society 49:203–218 Article Google Scholar
Petit E, Mayer F (1999) Male dispersal in the noctule bat (Nyctalus noctula): where are the limits? Proceedings of the Royal Society of London. Series B: Biological Sciences 266:1717–1722 Google Scholar
Philbey AW, Kirkland PD, Ross AD, Davis RJ, Gleeson AB, Love RJ, et al. (1998) An apparently new virus (family Paramyxoviridae) infectious for pigs, humans, and fruit bats. Emerging Infectious Diseases 4:269–271 ArticleCAS Google Scholar
Piaggio AJ, Perkins SL (2005) Molecular phylogeny of North American long-eared bats (Vespertilionidae: Corynorhinus); inter- and intraspecific relationships inferred from mitochondrial and nuclear DNA sequences. Molecular Phylogenetics and Evolution 37:762–775 ArticleCAS Google Scholar
Plowright RK, Field HE, Smith C, Divljan A, Palmer C, Tabor G, et al. (2008) Reproduction and nutritional stress are risk factors for Hendra virus infection in little red flying foxes (Pteropus scapulatus). Proceedings of the Royal Society of London. Series B: Biological Sciences 275:861–869 Google Scholar
Poon LL, Chu DK, Chan KH, Wong OK, Ellis TM, Leung YH, et al. (2005) Identification of a novel coronavirus in bats. Journal of Virology 79:2001–2009 ArticleCAS Google Scholar
Power AG, Mitchell CE (2004) Pathogen spillover in disease epidemics. American Naturalist 164:S79–S89 Article Google Scholar
Price JL, Everard CO (1977) Rabies virus and antibody in bats in Grenada and Trinidad. Journal of Wildlife Diseases 13:131–134 CAS Google Scholar
Pritchard LI, Chua KB, Cummins D, Hyatt A, Crameri G, Eaton BT, et al. (2006) Pulau virus; a new member of the Nelson Bay orthoreovirus species isolated from fruit bats in Malaysia. Archives of Virology 151:229–239 ArticleCAS Google Scholar
Pulliam JR, Dushoff J (2009) Ability to replicate in the cytoplasm predicts zoonotic transmission of livestock viruses. Journal of Infectious Diseases 199:565–568 Article Google Scholar
Pulliam JRC (2008) Viral host jumps: moving toward a predictive framework. EcoHealth 5:80–91 Article Google Scholar
Pybus OG, Rambaut A, Harvey PH (2000) An integrated framework for the inference of viral population history from reconstructed genealogies. Genetics 155:1429–1437 CAS Google Scholar
Racey PA, Barratt EM, Burland TM, Deaville R, Gotelli D, Jones G, et al. (2007) Microsatellite DNA polymorphism confirms reproductive isolation and reveals differences in population genetic structure of cryptic pipistrelle bat species. Biological Journal of the Linnean Society 90:539–550 Article Google Scholar
Rand DA, Keeling M, Wilson HB (1995) Invasion, stability and evolution to criticality in spatially extended, artificial host-pathogen ecologies. Proceedings of the Royal Society of London. Series B: Biological Sciences 259:55–63
Razafindratsimandresy R, Jeanmaire EM, Counor D, Vasconcelos PF, Sall AA, Reynes JM (2009) Partial molecular characterization of alphaherpesviruses isolated from tropical bats. Journal of General Virology 90:44–47 ArticleCAS Google Scholar
Real LA, Biek R (2007) Spatial dynamics and genetics of infectious diseases on heterogeneous landscapes. Journal of the Royal Society Interface 4:935–948 Article Google Scholar
Rector A, Mostmans S, Van Doorslaer K, McKnight CA, Maes RK, Wise AG, et al. (2006) Genetic characterization of the first chiropteran papillomavirus, isolated from a basosquamous carcinoma in an Egyptian fruit bat: the Rousettus aegyptiacus papillomavirus type 1. Veterinary Microbiology 117:267–275 ArticleCAS Google Scholar
Reynes JM, Molia S, Audry L, Hout S, Ngin S, Walston J, et al. (2004) Serologic evidence of lyssavirus infection in bats, Cambodia. Emerging Infectious Diseases 10:2231–2234 Google Scholar
Richter HV, Cumming GS (2006) Food availability and annual migration of the straw-colored fruit bat (Eidolon helvum). Journal of Zoology 268:35–44 Google Scholar
Riley SPD, Foley J, Chomel B (2004) Exposure to feline and canine pathogens in bobcats and gray foxes in urban and rural zones of a National Park in California. Journal of Wildlife Diseases 40:11–22 Google Scholar
Rivers NM, Butlin RK, Altringham JD (2005) Genetic population structure of Natterer’s bats explained by mating at swarming sites and philopatry. Molecular Ecology 14:4299–4312 ArticleCAS Google Scholar
Rodriguez DJ, Torres-Sorando L (2001) Models of infectious diseases in spatially heterogeneous environments. Bulletin of Mathematical Biology 63:547–571 ArticleCAS Google Scholar
Rossiter SJ, Jones G, Ransome RD, Barratt EM (2000) Genetic variation and population structure in the endangered greater horseshoe bat Rhinolophus ferrumequinum. Molecular Ecology 9:1131–1135 ArticleCAS Google Scholar
Ruedi M, Castella V (2003) Genetic consequences of the ice ages on nurseries of the bat Myotis myotis: a mitochondrial and nuclear survey. Molecular Ecology 12:1527–1540 ArticleCAS Google Scholar
Ruedi M, Walter S, Fischer MC, Scaravelli D, Excoffier L, Heckel G (2008) Italy as a major Ice Age refuge area for the bat Myotis myotis (Chiroptera: Vespertilionidae) in Europe. Molecular Ecology 17:1801–1814 ArticleCAS Google Scholar
Russell AL, Medellin RA, McCracken GF (2005) Genetic variation and migration in the Mexican free-tailed bat (Tadarida brasiliensis mexicana). Molecular Ecology 14:2207–2222 ArticleCAS Google Scholar
Safi K, Konig B, Kerth G (2007) Sex differences in population genetics, home range size and habitat use of the parti-colored bat (Vespertilio murinus, Linnaeus 1758) in Switzerland and their consequences for conservation. Biological Conservation 137:28–36 Article Google Scholar
Salaun JJ, Klein JM, Hebrard G (1974) A new virus, Phnom-Penh bat virus, isolated in Cambodia from a short-nosed fruit bat, Cynopterus brachyotis angulatus Miller, 1898. Annales de Microbiologie 125:485–495 CAS Google Scholar
Serra-Cobo J, Amengual B, Abellan C, Bourhy H (2002) European bat lyssavirus infection in Spanish bat populations. Emerging Infectious Diseases 8:413–420 Article Google Scholar
Seymour C, Dickerman RW, Martin MS (1978) Venezuelan encephalitis virus infection in neotropical bats. I. Natural infection in a Guatemalan enzootic focus. American Journal of Tropical Medicine and Hygiene 27:290–296 CAS Google Scholar
Shi ZL, Hu ZH (2008) A review of studies on animal reservoirs of the SARS coronavirus. Virus Research 133:74–87 ArticleCAS Google Scholar
Sinclair EA, Webb NJ, Marchant AD, Tidemann CR (1996) Genetic variation in the little red flying-fox Pteropus scapulatus (Chiroptera: Pteropodidae): implications for management. Biological Conservation 76:45–50 Article Google Scholar
Smith JS (1996) New aspects of rabies with emphasis on epidemiology, diagnosis, and prevention of the disease in the United States. Clinical Microbiology Reviews 9:166–176 CAS Google Scholar
Speare R, Skerratt L, Foster R, Berger L, Hooper P, Lunt R, et al. (1997) Australian bat lyssavirus infection in three fruit bats from north Queensland. Communicable Diseases Intelligence 21:117–120 CAS Google Scholar
Storz JF, Bhat HR, Kunz TH (2001) Genetic consequences of polygyny and social structure in an Indian fruit bat, Cynopterus sphinx. I. Inbreeding, outbreeding, and population subdivision. Evolution 55:1215–1223 CAS Google Scholar
Sulkin SE, Allen R, Miura T, Toyokawa K (1970) Studies of arthropod-borne virus infections in chiroptera. VI. Isolation of Japanese B encephalitis virus from naturally infected bats. American Journal of Tropical Medicine and Hygiene 19:77–87 CAS Google Scholar
Sulkin SE, Sims RA, Allen R (1966) Isolation of St. Louis encephalitis virus from bats (Tadarida b. mexicana) in Texas. Science 152:223–225 ArticleCAS Google Scholar
Swanepoel R, Smit SB, Rollin PE, Formenty P, Leman PA, Kemp A, et al. (2007) Studies of reservoir hosts for Marburg virus. Emerging Infectious Diseases 13:1847–1851 CAS Google Scholar
Taylor LH, Latham SM, Woolhouse MEJ (2001) Risk factors for human disease emergence. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 356:983–989 ArticleCAS Google Scholar
Tong S, Conrardy C, Ruone S, Kuzmin IV, Guo X, Tao Y, et al. (2009) Detection of novel SARS-like and other coronaviruses in bats from Kenya. Emerging Infectious Diseases 15:482–485 Article Google Scholar
Towner JS, Pourrut X, Albarino CG, Nkogue CN, Bird BH, Grard G, et al. (2007) Marburg virus infection detected in a common African bat. PLoS ONE 2:e764 ArticleCAS Google Scholar
Trimarchi C, Debbie JG (1977) Naturally occurring rabies virus and neutralizing antibody in two species of insectivorous bats of New York State. Journal of Wildlife Diseases 13:366–369 Google Scholar
Turmelle AS (2002) Phylogeography and population structure of the big brown bat (Eptesicus fuscus). Thesis. Boston University, Boston
van Thiel PP, van den Hoek JA, Eftimov F, Tepaske R, Zaaijer HJ, Spanjaard L, et al. (2008) Fatal case of human rabies (Duvenhage virus) from a bat in Kenya: The Netherlands, December 2007. European Communicable Disease Bulletin 13:1–2 Google Scholar
Velasco-Villa A, Orciari LA, Juarez-Islas V, Gomez-Sierra M, Padilla-Medina I, Flisser A, et al. (2006) Molecular diversity of rabies viruses associated with bats in Mexico and other countries of the Americas. Journal of Clinical Microbiology 44:1697–1710 ArticleCAS Google Scholar
Warner CK, Zaki SR, Shieh WJ, Whitfield SG, Smith JS, Orciari LA, et al. (1999) Laboratory investigation of human deaths from vampire bat rabies in Peru. American Journal of Tropical Medicine and Hygiene 60:502–507 CAS Google Scholar
Webb NJ, Tidemann CR (1996) Mobility of Australian flying-foxes, Pteropus spp. (Megachiroptera): evidence from genetic variation. Proceedings of the Royal Society of London. Series B: Biological Sciences 263:497–502 Google Scholar
Webb SD, Keeling MJ, Boots M (2007) Host-parasite interactions between the local and the mean-field: how and when does spatial population structure matter? Journal of Theoretical Biology 249:140–152 Article Google Scholar
Wellenberg GJ, Audry L, Ronsholt L, van der Poel WH, Bruschke CJ, Bourhy H (2002) Presence of European bat lyssavirus RNAs in apparently healthy Rousettus aegyptiacus bats. Archives of Virology 147:349–361 ArticleCAS Google Scholar
Weyandt SE, Van Den Bussche RA (2007) Phylogeographic structuring and volant mammals: the case of the pallid bat (Antrozous pallidus). Journal of Biogeography 34:1233–1245 Article Google Scholar
Whitby JE, Heaton PR, Black EM, Wooldridge M, McElhinney LM, Johnstone P (2000) First isolation of a rabies-related virus from a Daubenton’s bat in the United Kingdom. Veterinary Record 147:385–388 CAS Google Scholar
Wibbelt G, Kurth A, Yasmum N, Bannert M, Nagel S, Nitsche A, et al. (2007) Discovery of herpesviruses in bats. Journal of General Virology 88:2651–2655 ArticleCAS Google Scholar
Wilkinson GS (1985) The social organization of the common vampire bat. 2. Mating system, genetic structure, and relatedness. Behavioral Ecology and Sociobiology 17:123–134 Google Scholar
Wolfe ND, Daszak P, Kilpatrick AM, Burke DS (2005) Bushmeat hunting, deforestation, and prediction of zoonotic disease. Emerging Infectious Disease 11:1822–1827 Google Scholar
Wolfe ND, Dunavan CP, Diamond J (2007) Origins of major human infectious diseases. Nature 447:279–283 ArticleCAS Google Scholar
Wong S, Lau S, Woo P, Yuen KY (2007) Bats as a continuing source of emerging infections in humans. Reviews in Medical Virology 17:67–91 Article Google Scholar
Woolhouse MEJ, Gowtage-Sequeria S (2005) Host range and emerging and reemerging pathogens. Emerging Infectious Diseases 11:1842–1847 Google Scholar
Woolhouse MEJ, Howey R, Gaunt E, Reilly L, Chase-Topping M, Savill N (2008) Temporal trends in the discovery of human viruses. Proceedings of the Royal Society of London. Series B: Biological Sciences 275:2111–2115 Google Scholar
Wright S (1951) The genetical structure of populations. Annals of Eugenics 15:323–354 Google Scholar
Yoshino H, Armstrong KN, Izawa M, Yokoyama J, Kawata M (2008) Genetic and acoustic population structuring in the Okinawa least horseshoe bat: are intercolony acoustic differences maintained by vertical maternal transmission? Molecular Ecology 17:4978–4991 ArticleCAS Google Scholar