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1. Genomic adaptation to small population size and saltwater consumption in the critically endangered Cat Ba langur

Author

Zhang, Liye, Leonard, Neahga, Passaro, Rick, Luan, Mai Sy, Van Tuyen, Pham, Han, Le Thi Ngoc, Cam, Nguyen Huy, Vogelnest, Larry, Lynch, Michael, Fine, Amanda E., Nga, Nguyen Thi Thanh, Van Long, Nguyen, Rawson, Benjamin M., Behie, Alison, Van Nguyen, Truong, Le, Minh D., Nadler, Tilo, Walter, Lutz, Marques-Bonet, Tomas, Hofreiter, Michael, Li, Ming, Liu, Zhijin, and Roos, Christian

Published
2024
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2. One Health Surveillance Highlights Circulation of Viruses with Zoonotic Potential in Bats, Pigs, and Humans in Viet Nam.

Author

Latinne, Alice, Nga, Nguyen Thi Thanh, Long, Nguyen Van, Ngoc, Pham Thi Bich, Thuy, Hoang Bich, Predict Consortium, Long, Pham Thanh, Phuong, Nguyen Thanh, Quang, Le Tin Vinh, Tung, Nguyen, Nam, Vu Sinh, Duoc, Vu Trong, Thinh, Nguyen Duc, Schoepp, Randal, Ricks, Keersten, Inui, Ken, Padungtod, Pawin, Johnson, Christine K, Mazet, Jonna AK, Walzer, Chris, Olson, Sarah H, and Fine, Amanda E

Subjects
Animals, Swine, Chiroptera, Humans, Filoviridae, Coronavirus, Zoonoses, Coronavirus Infections, Phylogeny, Vietnam, One Health, bats, coronavirus, influenza, livestock, paramyxovirus, pigs, spillover, surveillance, zoonoses, Prevention, Vaccine Related, Biodefense, Biotechnology, Emerging Infectious Diseases, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Microbiology
Abstract

A One Health cross-sectoral surveillance approach was implemented to screen biological samples from bats, pigs, and humans at high-risk interfaces for zoonotic viral spillover for five viral families with zoonotic potential in Viet Nam. Over 1600 animal and human samples from bat guano harvesting sites, natural bat roosts, and pig farming operations were tested for coronaviruses (CoVs), paramyxoviruses, influenza viruses, filoviruses and flaviviruses using consensus PCR assays. Human samples were also tested using immunoassays to detect antibodies against eight virus groups. Significant viral diversity, including CoVs closely related to ancestors of pig pathogens, was detected in bats roosting at the human-animal interfaces, illustrating the high risk for CoV spillover from bats to pigs in Viet Nam, where pig density is very high. Season and reproductive period were significantly associated with the detection of bat CoVs, with site-specific effects. Phylogeographic analysis indicated localized viral transmission among pig farms. Our limited human sampling did not detect any known zoonotic bat viruses in human communities living close to the bat cave and harvesting bat guano, but our serological assays showed possible previous exposure to Marburg virus-like (Filoviridae), Crimean-Congo hemorrhagic fever virus-like (Bunyaviridae) viruses and flaviviruses. Targeted and coordinated One Health surveillance helped uncover this viral pathogen emergence hotspot.

Published
2023

3. Living Safely With Bats: Lessons in Developing and Sharing a Global One Health Educational Resource

Author

Martinez, Stephanie, Sullivan, Ava, Hagan, Emily, Goley, Jonathan, Epstein, Jonathan H, Olival, Kevin J, Saylors, Karen, Euren, Jason, Bangura, James, Zikankuba, Sijali, Mouiche, Mohamed Moctar Mouliom, Camara, Alpha Oumar, Desmond, James, Islam, Ariful, Hughes, Tom, Wacharplusadee, Supaporn, Duong, Veasna, Nga, Nguyen Thi Thanh, Bird, Brian, Goldstein, Tracey, Wolking, David, Johnson, Christine K, Mazet, Jonna AK, Olson, Sarah H, Fine, Amanda E, Valitutto, Marc, Karesh, William B, Daszak, Peter, Francisco, Leilani, and Consortium, the PREDICT

Subjects
Prevention, Good Health and Well Being, Animals, Humans, Chiroptera, One Health, Sierra Leone, Africa, Ebolavirus, PREDICT Consortium
Abstract

As part of a public health behavior change and communication strategy related to the identification of a novel ebolavirus in bats in Sierra Leone in 2016, a consortium of experts launched an effort to create a widely accessible resource for community awareness and education on reducing disease risk. The resulting picture book, Living Safely With Bats, includes technical content developed by a consortium of experts in public health, animal health, conservation, bats, and disease ecology from 30 countries. The book has now been adapted, translated, and used in more than 20 countries in Africa and Asia. We review the processes used to integrate feedback from local stakeholders and multidisciplinary experts. We also provide recommendations for One Health and other practitioners who choose to pursue the development and evaluation of this or similar zoonotic disease risk mitigation tools.

Published
2022

4. Evidence of SARS-CoV-2 Related Coronaviruses Circulating in Sunda pangolins (Manis javanica) Confiscated From the Illegal Wildlife Trade in Viet Nam.

Author

Nga, Nguyen Thi Thanh, Latinne, Alice, Thuy, Hoang Bich, Long, Nguyen Van, Ngoc, Pham Thi Bich, Anh, Nguyen Thi Lan, Thai, Nguyen Van, Phuong, Tran Quang, Thai, Hoang Van, Hai, Lam Kim, Long, Pham Thanh, Phuong, Nguyen Thanh, Hung, Vo Van, Quang, Le Tin Vinh, Lan, Nguyen Thi, Hoa, Nguyen Thi, Johnson, Christine K, Mazet, Jonna AK, Roberton, Scott I, Walzer, Chris, Olson, Sarah H, and Fine, Amanda E

Subjects
Animals, Animals, Wild, Humans, Phylogeny, Vietnam, China, COVID-19, SARS-CoV-2, Pangolins, EID, coronavirus, one health, pangolin, spillover, trafficking, wildlife trade, Infectious Diseases, Biotechnology, Clinical Research, Life on Land, Public Health and Health Services
Abstract

Despite the discovery of several closely related viruses in bats, the direct evolutionary progenitor of SARS-CoV-2 has not yet been identified. In this study, we investigated potential animal sources of SARS-related coronaviruses using archived specimens from Sunda pangolins (Manis javanica) and Chinese pangolins (Manis pentadactyla) confiscated from the illegal wildlife trade, and from common palm civets (Paradoxurus hermaphroditus) raised on wildlife farms in Viet Nam. A total of 696 pangolin and civet specimens were screened for the presence of viral RNA from five zoonotic viral families and from Sarbecoviruses using primers specifically designed for pangolin coronaviruses. We also performed a curated data collection of media reports of wildlife confiscation events involving pangolins in Viet Nam between January 2016 and December 2020, to illustrate the global pangolin supply chain in the context of Viet Nam where the trade confiscated pangolins were sampled for this study. All specimens from pangolins and civets sampled along the wildlife supply chains between February 2017 and July 2018, in Viet Nam and tested with conventional PCR assays designed to detect flavivirus, paramyxovirus, filovirus, coronavirus, and orthomyxovirus RNA were negative. Civet samples were also negative for Sarbecoviruses, but 12 specimens from seven live pangolins confiscated in Hung Yen province, northern Viet Nam, in 2018 were positive for Sarbecoviruses. Our phylogenetic trees based on two fragments of the RdRp gene revealed that the Sarbecoviruses identified in these pangolins were closely related to pangolin coronaviruses detected in pangolins confiscated from the illegal wildlife trade in Yunnan and Guangxi provinces, China. Our curated data collection of media reports of wildlife confiscation events involving pangolins in Viet Nam between January 2016 and December 2020, reflected what is known about pangolin trafficking globally. Pangolins confiscated in Viet Nam were largely in transit, moving toward downstream consumers in China. Confiscations included pangolin scales sourced originally from Africa (and African species of pangolins), or pangolin carcasses and live pangolins native to Southeast Asia (predominately the Sunda pangolin) sourced from neighboring range countries and moving through Viet Nam toward provinces bordering China.

Published
2022

5. Socializing One Health: an innovative strategy to investigate social and behavioral risks of emerging viral threats

Author

Saylors, Karen, Wolking, David J, Hagan, Emily, Martinez, Stephanie, Francisco, Leilani, Euren, Jason, Olson, Sarah H, Miller, Maureen, Fine, Amanda E, Thanh, Nga Nguyen Thi, Tran Minh, Phuc, Kalengkongan, Jusuf D, Kusumaningrum, Tina, Latinne, Alice, Pamungkas, Joko, Safari, Dodi, Saputro, Suryo, Bamba, Djeneba, Coulibaly, Kalpy Julien, Dosso, Mireille, Laudisoit, Anne, N’guettia Jean, Kouassi Manzan, Dutta, Shusmita, Islam, Ariful, Shano, Shahanaj, Mwanzalila, Mwokozi I, Trupin, Ian P, Gbakima, Aiah, Bangura, James, Yondah, Sylvester T, Karmacharya, Dibesh, Shrestha, Rima D, Kamta, Marcelle Annie Matsida, Mouiche, Mohamed Moctar Mouliom, Ndolo, Hilarion Moukala, Niama, Fabien Roch, Onikrotin, Dionne, Daszak, Peter, Johnson, Christine K, and Mazet, Jonna AK

Subjects
Health Services and Systems, Health Sciences, Clinical Research, Prevention, Behavioral and Social Science, Basic Behavioral and Social Science, 2.2 Factors relating to the physical environment, 2.3 Psychological, social and economic factors, Aetiology, Infection, Good Health and Well Being, Social science research, Behavioral risk, One health, Multi-disciplinary surveillance, PREDICT Consortium, Health services and systems
Abstract

In an effort to strengthen global capacity to prevent, detect, and control infectious diseases in animals and people, the United States Agency for International Development's (USAID) Emerging Pandemic Threats (EPT) PREDICT project funded development of regional, national, and local One Health capacities for early disease detection, rapid response, disease control, and risk reduction. From the outset, the EPT approach was inclusive of social science research methods designed to understand the contexts and behaviors of communities living and working at human-animal-environment interfaces considered high-risk for virus emergence. Using qualitative and quantitative approaches, PREDICT behavioral research aimed to identify and assess a range of socio-cultural behaviors that could be influential in zoonotic disease emergence, amplification, and transmission. This broad approach to behavioral risk characterization enabled us to identify and characterize human activities that could be linked to the transmission dynamics of new and emerging viruses. This paper provides a discussion of implementation of a social science approach within a zoonotic surveillance framework. We conducted in-depth ethnographic interviews and focus groups to better understand the individual- and community-level knowledge, attitudes, and practices that potentially put participants at risk for zoonotic disease transmission from the animals they live and work with, across 6 interface domains. When we asked highly-exposed individuals (ie. bushmeat hunters, wildlife or guano farmers) about the risk they perceived in their occupational activities, most did not perceive it to be risky, whether because it was normalized by years (or generations) of doing such an activity, or due to lack of information about potential risks. Integrating the social sciences allows investigations of the specific human activities that are hypothesized to drive disease emergence, amplification, and transmission, in order to better substantiate behavioral disease drivers, along with the social dimensions of infection and transmission dynamics. Understanding these dynamics is critical to achieving health security--the protection from threats to health-- which requires investments in both collective and individual health security. Involving behavioral sciences into zoonotic disease surveillance allowed us to push toward fuller community integration and engagement and toward dialogue and implementation of recommendations for disease prevention and improved health security.

Published
2021

7. Coronavirus testing indicates transmission risk increases along wildlife supply chains for human consumption in Viet Nam, 2013-2014.

Author

Huong, Nguyen Quynh, Nga, Nguyen Thi Thanh, Long, Nguyen Van, Luu, Bach Duc, Latinne, Alice, Pruvot, Mathieu, Phuong, Nguyen Thanh, Quang, Le Tin Vinh, Hung, Vo Van, Lan, Nguyen Thi, Hoa, Nguyen Thi, Minh, Phan Quang, Diep, Nguyen Thi, Tung, Nguyen, Ky, Van Dang, Roberton, Scott I, Thuy, Hoang Bich, Gilbert, Martin, Wicker, Leanne, Mazet, Jonna AK, Johnson, Christine Kreuder, Goldstein, Tracey, Tremeau-Bravard, Alex, Ontiveros, Victoria, Joly, Damien O, Walzer, Chris, Fine, Amanda E, and Olson, Sarah H

Subjects
Feces, Animals, Animals, Wild, Chiroptera, Humans, Rats, Porcupines, Coronavirus, Zoonoses, Coronavirus Infections, RNA, Viral, Risk, Polymerase Chain Reaction, Disease Reservoirs, Phylogeny, Food Supply, Meat, Vietnam, Wild, RNA, Viral, General Science & Technology
Abstract

Outbreaks of emerging coronaviruses in the past two decades and the current pandemic of a novel coronavirus (SARS-CoV-2) that emerged in China highlight the importance of this viral family as a zoonotic public health threat. To gain a better understanding of coronavirus presence and diversity in wildlife at wildlife-human interfaces in three southern provinces in Viet Nam 2013-2014, we used consensus Polymerase Chain Reactions to detect coronavirus sequences. In comparison to previous studies, we observed high proportions of positive samples among field rats (34.0%, 239/702) destined for human consumption and insectivorous bats in guano farms (74.8%, 234/313) adjacent to human dwellings. Most notably among field rats, the odds of coronavirus RNA detection significantly increased along the supply chain from field rats sold by traders (reference group; 20.7% positivity, 39/188) by a factor of 2.2 for field rats sold in large markets (32.0%, 116/363) and 10.0 for field rats sold and served in restaurants (55.6%, 84/151). Coronaviruses were also detected in rodents on the majority of wildlife farms sampled (60.7%, 17/28). These coronaviruses were found in the Malayan porcupines (6.0%, 20/331) and bamboo rats (6.3%, 6/96) that are raised on wildlife farms for human consumption as food. We identified six known coronaviruses in bats and rodents, clustered in three Coronaviridae genera, including the Alpha-, Beta-, and Gammacoronaviruses. Our analysis also suggested either mixing of animal excreta in the environment or interspecies transmission of coronaviruses, as both bat and avian coronaviruses were detected in rodent feces on wildlife farms. The mixing of multiple coronaviruses, and their apparent amplification along the wildlife supply chain into restaurants, suggests maximal risk for end consumers and likely underpins the mechanisms of zoonotic spillover to people.

Published
2020

8. Zoonotic Pathogens in Wildlife Traded in Markets for Human Consumption, Laos

Author

Nawtaisong, Pruksa, Robinson, Matthew T., Khammavong, Khongsy, Milavong, Phonesavanh, Rachlin, Audrey, Dittrich, Sabine, Dubot-Peres, Audrey, Vongsouvath, Malavanh, Horwood, Paul F., Dussart, Philippe, Theppangna, Watthana, Douangngeum, Bounlom, Fine, Amanda E., Pruvot, Mathieu, and Newton, Paul N.

Subjects
Wildlife -- Health aspects, Zoonoses -- Risk factors, Disease transmission -- Risk factors, Butchers -- Health aspects, Pathogenic microorganisms -- Identification and classification, Health
Abstract

Consumption of wildlife meat drives emerging infectious diseases (1), often amplified by human encroachment into natural areas and changes in land use. Wildlife trade and consumption have been responsible for [...]

Published
2022
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9. Wildlife Trade and Human Health in Lao PDR: An Assessment of the Zoonotic Disease Risk in Markets.

Author

Greatorex, Zoe F, Olson, Sarah H, Singhalath, Sinpakone, Silithammavong, Soubanh, Khammavong, Kongsy, Fine, Amanda E, Weisman, Wendy, Douangngeun, Bounlom, Theppangna, Watthana, Keatts, Lucy, Gilbert, Martin, Karesh, William B, Hansel, Troy, Zimicki, Susan, O'Rourke, Kathleen, Joly, Damien O, and Mazet, Jonna AK

Subjects
Animals, Animals, Wild, Humans, Zoonoses, Laos, Wild, General Science & Technology
Abstract

Although the majority of emerging infectious diseases can be linked to wildlife sources, most pathogen spillover events to people could likely be avoided if transmission was better understood and practices adjusted to mitigate risk. Wildlife trade can facilitate zoonotic disease transmission and represents a threat to human health and economies in Asia, highlighted by the 2003 SARS coronavirus outbreak, where a Chinese wildlife market facilitated pathogen transmission. Additionally, wildlife trade poses a serious threat to biodiversity. Therefore, the combined impacts of Asian wildlife trade, sometimes termed bush meat trade, on public health and biodiversity need assessing. From 2010 to 2013, observational data were collected in Lao PDR from markets selling wildlife, including information on volume, form, species and price of wildlife; market biosafety and visitor origin. The potential for traded wildlife to host zoonotic diseases that pose a serious threat to human health was then evaluated at seven markets identified as having high volumes of trade. At the seven markets, during 21 observational surveys, 1,937 alive or fresh dead mammals (approximately 1,009 kg) were observed for sale, including mammals from 12 taxonomic families previously documented to be capable of hosting 36 zoonotic pathogens. In these seven markets, the combination of high wildlife volumes, high risk taxa for zoonoses and poor biosafety increases the potential for pathogen presence and transmission. To examine the potential conservation impact of trade in markets, we assessed the status of 33,752 animals observed during 375 visits to 93 markets, under the Lao PDR Wildlife and Aquatic Law. We observed 6,452 animals listed by Lao PDR as near extinct or threatened with extinction. The combined risks of wildlife trade in Lao PDR to human health and biodiversity highlight the need for a multi-sector approach to effectively protect public health, economic interests and biodiversity.

Published
2016

10. Outbreak of Peste des Petits Ruminants Virus among Critically Endangered Mongolian Saiga and Other Wild Ungulates, Mongolia, 2016-2017

Author

Pruvot, Mathieu, Fine, Amanda E., Hollinger, Charlotte, Strindberg, Samantha, Damdinjav, Batchuluun, Buuveibaatar, Bayarbaatar, Chimeddorj, Buyanaa, Bayandonoi, Gantulga, Khishgee, Bodisaikhan, Sandag, Batkhuyag, Narmandakh, Jamiyankhuu, Jargalsaikhan, Tserenjav, Bataa, Batzorig, McAloose, Denise, Shatar, Munkhduuren, Basan, Ganzorig, Mahapatra, Mana, Selvaraj, Muni, Parida, Satya, Njeumi, Felix, Kock, Richard, and Shiilegdamba, Enkhtuvshin

Subjects
Epidemiology -- Health aspects, Time, Wildlife, Characterization, Health
Abstract

Peste des petits ruminants virus (PPRV; family Paramyxoviridae, genus Morbillivirus) causes an acute and highly contagious infection in domestic sheep and goats (1) and multiple species of wild ungulates (2). [...]

Published
2020
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12. Ecological characterization of 175 low‐pathogenicity avian influenza viruses isolated from wild birds in Mongolia, 2009–2013 and 2016–2018

Author

Barkhasbaatar, Ariunbaatar, primary, Gilbert, Martin, additional, Fine, Amanda E., additional, Shiilegdamba, Enkhtuvshin, additional, Damdinjav, Batchuluun, additional, Buuveibaatar, Bayarbaatar, additional, Khishgee, Bodisaikhan, additional, Johnson, Christine K., additional, Leung, Connie Y. H., additional, Ankhanbaatar, Ulaankhuu, additional, Purevtseren, Dulam, additional, Tuttle, James M., additional, Mazet, Jonna A. K., additional, Peiris, Joseph S. Malik, additional, Jambal, Losolmaa, additional, Shatar, Munkhduuren, additional, Sukhbaatar, Tuvshintugs, additional, and Olson, Sarah H., additional

Published
2023
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13. Case report: Lumpy skin disease in an endangered wild banteng (Bos javanicus) and initiation of a vaccination campaign in domestic livestock in Cambodia

Author

Porco, Alice, primary, Chea, Sokha, additional, Sours, Sreyem, additional, Nou, Vonika, additional, Groenenberg, Milou, additional, Agger, Cain, additional, Tum, Sothyra, additional, Chhuon, Vanna, additional, Sorn, San, additional, Hong, Chamnan, additional, Davis, Ben, additional, Davis, Sharyn, additional, Ken, Sereyrotha, additional, Olson, Sarah H., additional, and Fine, Amanda E., additional

Published
2023
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14. One Health Surveillance Highlights Circulation of Viruses with Zoonotic Potential in Bats, Pigs, and Humans in Viet Nam

Author

Fine, Amanda E., Olson, Sarah H, Walzer, Chris, Mazet, Jonna A K, Johnson, Christine K, Padungtod, Pawin, Inui, Ken, Ricks, Keersten, Schoepp, Randal, Thinh, Nguyen Duc, Duoc, Vu Trong, Nam, Vu Sinh, Tung, Nguyen, Quang, Le Tin Vinh, Phuong, Nguyen Thanh, long, Pham Thanh, Long, Nguyen Van, Thuy, Hoang Bich, Ngoc, Pham Thi Bich, Latinne, Alice, Nga, Nguyen Thi Thanh, and Predict Consortium

Subjects
spillover, Swine, bats, coronavirus, Encephalitis-Virus, Usutu-Virus, Nipah Virus, Coronavirus, Identification, Paramyxovirus, Chiroptera, History, Origin, Growth, Microbiology, Vaccine Related, paramyxovirus, Zoonoses, Biodefense, Virology, Animals, Humans, 2.2 Factors relating to the physical environment, One Health, Aetiology, Phylogeny, Prevention, pigs, Filoviridae, livestock, Emerging Infectious Diseases, Good Health and Well Being, Infectious Diseases, Vietnam, surveillance, Coronavirus Infections, influenza, Infection, zoonoses, Biotechnology
Abstract

A One Health cross-sectoral surveillance approach was implemented to screen biological samples from bats, pigs, and humans at high-risk interfaces for zoonotic viral spillover for five viral families with zoonotic potential in Viet Nam. Over 1600 animal and human samples from bat guano harvesting sites, natural bat roosts, and pig farming operations were tested for coronaviruses (CoVs), paramyxoviruses, influenza viruses, filoviruses and flaviviruses using consensus PCR assays. Human samples were also tested using immunoassays to detect antibodies against eight virus groups. Significant viral diversity, including CoVs closely related to ancestors of pig pathogens, was detected in bats roosting at the human–animal interfaces, illustrating the high risk for CoV spillover from bats to pigs in Viet Nam, where pig density is very high. Season and reproductive period were significantly associated with the detection of bat CoVs, with site-specific effects. Phylogeographic analysis indicated localized viral transmission among pig farms. Our limited human sampling did not detect any known zoonotic bat viruses in human communities living close to the bat cave and harvesting bat guano, but our serological assays showed possible previous exposure to Marburg virus-like (Filoviridae), Crimean–Congo hemorrhagic fever virus-like (Bunyaviridae) viruses and flaviviruses. Targeted and coordinated One Health surveillance helped uncover this viral pathogen emergence hotspot.

Published
2023
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16. Evidence of SARS-CoV-2 Related Coronaviruses Circulating in Sunda pangolins (Manis javanica) Confiscated From the Illegal Wildlife Trade in Viet Nam

Author

Nga, Nguyen Thi Thanh, primary, Latinne, Alice, additional, Thuy, Hoang Bich, additional, Long, Nguyen Van, additional, Ngoc, Pham Thi Bich, additional, Anh, Nguyen Thi Lan, additional, Thai, Nguyen Van, additional, Phuong, Tran Quang, additional, Thai, Hoang Van, additional, Hai, Lam Kim, additional, Long, Pham Thanh, additional, Phuong, Nguyen Thanh, additional, Hung, Vo Van, additional, Quang, Le Tin Vinh, additional, Lan, Nguyen Thi, additional, Hoa, Nguyen Thi, additional, Johnson, Christine K., additional, Mazet, Jonna A. K., additional, Roberton, Scott I., additional, Walzer, Chris, additional, Olson, Sarah H., additional, and Fine, Amanda E., additional

Published
2022
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17. Eradication of Peste des Petits Ruminants virus and the wildlife-livestock interface

Author

Fine, Amanda E., Pruvot, Mathieu, Benfield, Camilla T.O., Caron, Alexandre, Cattoli, Giovanni, Chardonnet, Philippe, Dioli, Maurizio, Dulu, Thomas, Gilbert, Martin, Kock, Michael, Lubroth, Juan, Mariner, Jeffrey C., Ostrowski, Stéphane, Parida, Satya, Fereidouni, Sasan R., Shiilegdamba, Enkee, Sleeman, Jonathan M., Schulz, Claudia, Soula, Jean-Jacques, Van der Stede, Yves, Tekola, Berhe G., Walzer, Chris, Zuther, Steffen, Njeumi, Felix, Fine, Amanda E., Pruvot, Mathieu, Benfield, Camilla T.O., Caron, Alexandre, Cattoli, Giovanni, Chardonnet, Philippe, Dioli, Maurizio, Dulu, Thomas, Gilbert, Martin, Kock, Michael, Lubroth, Juan, Mariner, Jeffrey C., Ostrowski, Stéphane, Parida, Satya, Fereidouni, Sasan R., Shiilegdamba, Enkee, Sleeman, Jonathan M., Schulz, Claudia, Soula, Jean-Jacques, Van der Stede, Yves, Tekola, Berhe G., Walzer, Chris, Zuther, Steffen, and Njeumi, Felix

Abstract

Growing evidence suggests that multiple wildlife species can be infected with peste des petits ruminants virus (PPRV), with important consequences for the potential maintenance of PPRV in communities of susceptible hosts, and the threat that PPRV may pose to the conservation of wildlife populations and resilience of ecosystems. Significant knowledge gaps in the epidemiology of PPRV across the ruminant community (wildlife and domestic), and the understanding of infection in wildlife and other atypical host species groups (e.g., camelidae, suidae, and bovinae) hinder our ability to apply necessary integrated disease control and management interventions at the wildlife-livestock interface. Similarly, knowledge gaps limit the inclusion of wildlife in the FAO/OIE Global Strategy for the Control and Eradication of PPR, and the framework of activities in the PPR Global Eradication Programme that lays the foundation for eradicating PPR through national and regional efforts. This article reports on the first international meeting on, “Controlling PPR at the livestock-wildlife interface,” held in Rome, Italy, March 27–29, 2019. A large group representing national and international institutions discussed recent advances in our understanding of PPRV in wildlife, identified knowledge gaps and research priorities, and formulated recommendations. The need for a better understanding of PPRV epidemiology at the wildlife-livestock interface to support the integration of wildlife into PPR eradication efforts was highlighted by meeting participants along with the reminder that PPR eradication and wildlife conservation need not be viewed as competing priorities, but instead constitute two requisites of healthy socio-ecological systems.

Published
2020

18. Zoonotic Pathogens in Wildlife Traded in Markets for Human Consumption, Laos.

Author

Pruksa Nawtaisong, Robinson, Matthew T., Khongsy Khammavong, Phonesavanh Milavong, Rachlin, Audrey, Dittrich, Sabine, Dubot-Pérès, Audrey, Malavanh Vongsouvath, Horwood, Paul F., Dussart, Philippe, Theppangna, Watthana, Douangngeum, Bounlom, Fine, Amanda E., Pruvot, Mathieu, Newton, Paul N., Nawtaisong, Pruksa, Khammavong, Khongsy, Milavong, Phonesavanh, and Vongsouvath, Malavanh

Abstract

We tested animals from wildlife trade sites in Laos for the presence of zoonotic pathogens. Leptospira spp. were the most frequently detected infectious agents, found in 20.1% of animals. Rickettsia typhi and R. felis were also detected. These findings suggest a substantial risk for exposure through handling and consumption of wild animal meat. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Outbreak of Peste des Petits Ruminants among Critically Endangered Mongolian Saiga and Other Wild Ungulates, Mongolia, 2016–2017

Author

Pruvot, Mathieu, primary, Fine, Amanda E., additional, Hollinger, Charlotte, additional, Strindberg, Samantha, additional, Damdinjav, Batchuluun, additional, Buuveibaatar, Bayarbaatar, additional, Chimeddorj, Buyanaa, additional, Bayandonoi, Gantulga, additional, Khishgee, Bodisaikhan, additional, Sandag, Batkhuyag, additional, Narmandakh, Jamiyankhuu, additional, Jargalsaikhan, Tserenjav, additional, Bataa, Batzorig, additional, McAloose, Denise, additional, Shatar, Munkhduuren, additional, Basan, Ganzorig, additional, Mahapatra, Mana, additional, Selvaraj, Muni, additional, Parida, Satya, additional, Njeumi, Felix, additional, Kock, Richard, additional, and Shiilegdamba, Enkhtuvshin, additional

Published
2020
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26. Eradication of Peste des Petits Ruminants Virus and the Wildlife-Livestock Interface.

Author

Fine AE, Pruvot M, Benfield CTO, Caron A, Cattoli G, Chardonnet P, Dioli M, Dulu T, Gilbert M, Kock R, Lubroth J, Mariner JC, Ostrowski S, Parida S, Fereidouni S, Shiilegdamba E, Sleeman JM, Schulz C, Soula JJ, Van der Stede Y, Tekola BG, Walzer C, Zuther S, and Njeumi F

Abstract

Growing evidence suggests that multiple wildlife species can be infected with peste des petits ruminants virus (PPRV), with important consequences for the potential maintenance of PPRV in communities of susceptible hosts, and the threat that PPRV may pose to the conservation of wildlife populations and resilience of ecosystems. Significant knowledge gaps in the epidemiology of PPRV across the ruminant community (wildlife and domestic), and the understanding of infection in wildlife and other atypical host species groups (e.g., camelidae, suidae, and bovinae) hinder our ability to apply necessary integrated disease control and management interventions at the wildlife-livestock interface. Similarly, knowledge gaps limit the inclusion of wildlife in the FAO/OIE Global Strategy for the Control and Eradication of PPR, and the framework of activities in the PPR Global Eradication Programme that lays the foundation for eradicating PPR through national and regional efforts. This article reports on the first international meeting on, "Controlling PPR at the livestock-wildlife interface," held in Rome, Italy, March 27-29, 2019. A large group representing national and international institutions discussed recent advances in our understanding of PPRV in wildlife, identified knowledge gaps and research priorities, and formulated recommendations. The need for a better understanding of PPRV epidemiology at the wildlife-livestock interface to support the integration of wildlife into PPR eradication efforts was highlighted by meeting participants along with the reminder that PPR eradication and wildlife conservation need not be viewed as competing priorities, but instead constitute two requisites of healthy socio-ecological systems., (Copyright © 2020 Fine, Pruvot, Benfield, Caron, Cattoli, Chardonnet, Dioli, Dulu, Gilbert, Kock, Lubroth, Mariner, Ostrowski, Parida, Fereidouni, Shiilegdamba, Sleeman, Schulz, Soula, Van der Stede, Tekola, Walzer, Zuther, Njeumi and Meeting Participants.)

Published
2020
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27. A Study of the Persistence of Mycobacterium bovis in the Environment under Natural Weather Conditions in Michigan, USA.

Author

Fine AE, Bolin CA, Gardiner JC, and Kaneene JB

Abstract

Reisolation of Mycobacterium bovis from inoculated substrates was used to follow the persistence of viable M. bovis bacteria exposed to natural weather conditions over a 12-month period. Environmental factors were recorded continuously, and factors affecting M. bovis persistence (i.e., temperature, season, and substrate) were studied using survival analysis and Cox's proportional hazards regression. Persistence of M. bovis in the environment was significantly shorter in the spring/summer season, characterized by the highest average daily temperatures over the 12-month period. M. bovis persisted up to 88 days in soil, 58 days in water and hay, and 43 days on corn. These studies demonstrate that M. bovis bacteria persist long enough to represent a risk of exposure for cattle and/or wildlife and strengthen evidence that suggests cattle farm biosecurity and efforts to eliminate supplemental feeding of white-tailed deer will decrease the risk of bovine TB transmission among and between cattle and deer populations.

Published
2011
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