Your search keyword '"wildlife–livestock interface"' showing total 269 results

1. Movement‐driven modelling reveals new patterns in disease transmission networks.

Author

Herraiz, Cesar, Triguero‐Ocaña, Roxana, Laguna, Eduardo, Jiménez‐Ruiz, Saúl, Peralbo‐Moreno, Alfonso, Martínez‐López, Beatriz, García‐Bocanegra, Ignacio, Risalde, María Ángeles, Vicente, Joaquín, and Acevedo, Pelayo

Subjects

*GPS receivers, *INFECTIOUS disease transmission, *SWINE farms, *EPIDEMIOLOGICAL models, *NATIONAL parks & reserves

Abstract

Interspecific interactions are highly relevant in the potential transmission of shared pathogens in multi‐host systems. In recent decades, several technologies have been developed to study pathogen transmission, such as proximity loggers, GPS tracking devices and/or camera traps. Despite the diversity of methods aimed at detecting contacts, the analysis of transmission risk is often reduced to contact rates and the probability of transmission given the contact. However, the latter process is continuous over time and unique for each contact, and is influenced by the characteristics of the contact and the pathogen's relationship with both the host and the environment.Our objective was to assess whether a more comprehensive approach, using a movement‐based model which assigns a unique transmission risk to each contact by decomposing transmission into contact formation, contact duration and host characteristics, could reveal disease transmission dynamics that are not detected with more traditional approaches.The model was built from GPS‐collar data from two management systems in Spain where animal tuberculosis (TB) circulates: a national park with extensively reared endemic cattle, and an area with extensive free‐range pigs and cattle farms. In addition, we evaluated the effect of the GPS device fix rate on the performance of the model.Different transmission dynamics were identified between both management systems. Considering the specific conditions under which each contact occurs (i.e. whether the contact is direct or indirect, its duration, the hosts characteristics, the environmental conditions, etc.) resulted in the identification of different transmission dynamics compared to using only contact rates. We found that fix intervals greater than 30 min in the GPS tracking data resulted in missed interactions, and intervals greater than 2 h may be insufficient for epidemiological purposes.Our study shows that neglecting the conditions under which each contact occurs may result in a misidentification of the real role of each species in disease transmission. This study describes a clear and repeatable framework to study pathogen transmission from GPS data and provides further insights to understand how TB is maintained in multi‐host systems in Mediterranean environments. [ABSTRACT FROM AUTHOR]

Published

2024

2. Farm management practices and host species richness associated with higher likelihood of tuberculosis positive farms in Western Spain.

Author

Herrero-García, Gloria, Vaz-Rodrigues, Rita, Pozo, Pilar, Barroso, Patricia, Relimpio, David, Nácar, Jesús, Grau, Anna, Mínguez, Olga, García-Rodríguez, Alberto, Balseiro, Ana, and Gortázar, Christian

Subjects

FARM management, AGRICULTURE, SPECIES diversity, OLD World badger, EPIDEMIOLOGY, FARM size, DAIRY farm management

Abstract

Copyright of European Journal of Wildlife Research is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. Interacting effects of surface water and temperature on wild and domestic large herbivore aggregations and contact rates.

Author

Martinez, Viviana, Mantas, John, Hulke, Jenna, Gituku, Benard, Ndiema, Nickson, Elkouby, Malik, Thompson, Asher, CantoAdams, Joelle, Yeh, Serena, VanLeeuwen, Adam, Young, Hillary, and Titcomb, Georgia

Subjects

*WATER temperature, *WILDLIFE monitoring, *ANIMAL behavior, *CLIMATE change adaptation, *INFECTIOUS disease transmission, *HERBIVORES

Abstract

Earth's climate is rapidly changing, bringing forth questions of how domestic and wild animals will alter their behaviour in response to increasing temperatures and dryland expansion. Dwindling water availability will likely impact animal behaviour and water foraging, potentially increasing animal aggregations and interspecific contacts. These interspecific contacts are especially important for competition, predation and disease transmission among wildlife and domestic animals. In this study, we analysed interspecific wildlife and cattle contacts using two years of camera trap data at an experimental water manipulation site at a conservancy in central Kenya. We found that on average, the hourly probability of any interspecific contact was approximately 3.4 times higher at water sources versus drained water sources and 18 times higher than surrounding matrix areas, and that this relationship was amplified by dry and hot conditions. Species‐specific analyses revealed variation in the magnitude of responses across wildlife and domestic cattle, although all animals had approximately 2–3 times higher interspecific contact probability with other species at water in hot conditions versus other conditions. Notably, we observed the largest behavioural changes for relatively water‐independent species, such as giraffe, which had 3.6 times higher interspecific contact probability at water sources in hot versus other conditions. Synthesis and applications. These findings show how elevated temperatures that will become increasingly common with future climate changes can increase interspecific contacts around critical water resources. In mixed wildlife‐livestock systems, maintaining wildlife‐only water sources may be a practical management tool to mitigate human‐wildlife conflict and disease transmission at this interface, especially during dry and hot conditions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluating Two Sampling Methods for Mycoplasma Bovis Diagnosis in American Bison (Bison bison).

Author

Schwartz, Katie, Schwalbe, Erin, Buttke, Danielle, Bragg, Tom, Killion, Halcyon, Sondgeroth, Kerry S., and Malmberg, Jennifer L.

Abstract

Mycoplasma bovis is a bacterial pathogen endemic to cattle. In the early 2000s, M. bovis emerged as a cause of respiratory disease in American bison (Bison bison), causing significant morbidity and mortality. Bison herds that experience an outbreak of M. bovis are at higher risk for subsequent outbreaks, suggesting that chronic, subclinical infections can be established. Antemortem testing is therefore crucial to disease management; however, the precise sampling method to maximize detection of M. bovis in bison is unknown. We evaluated two sample types--superficial nasal swabs and deep nasopharyngeal swabs--collected from apparently healthy or symptomatic bison from January 2021 through December 2022. We used real-time PCR to detect M. bovis in 76/938 bison (8.1%) from 11 herds. For bison testing positive on at least one swab type, M. bovis was detected in 63/76 (82.8%) deep nasopharyngeal swabs and 29/73 (38.1%) superficial nasal swabs. Agreement between swabs for positive bison was 21% (n¼16, kappa coefficient 0.319). We conclude that deep nasopharyngeal swabbing is more sensitive than superficial nasal swabbing for detection of M. bovis in bison and that low agreement between methods may be related to stage of infection. We further tested pooled samples by PCR and found that pooling of up to five samples can be effective to increase throughput and minimize costs. Management of wild bison relies on the ability to relocate animals to maintain gene flow and healthy populations. Sensitive and specific diagnostic tests are needed to inform decisions and minimize risk of transmission, especially from subclinical carriers. This study provides valuable insight that will inform best practices for M. bovis testing, thereby supporting the conservation of bison as healthy wildlife, which in turn promotes ecological restoration, safeguards cultural practices of Tribal Nations, and upholds the bison as a unique American icon. [ABSTRACT FROM AUTHOR]

Published

2024

5. One Health Farming: Noninvasive monitoring reveals links between farm vertebrate richness and pathogen markers in outdoor hoofstock

Author

Gloria Herrero-García, Marta Pérez-Sancho, Patricia Barroso, Carmen Herranz-Benito, David Relimpio, Teresa García-Seco, Alberto Perelló, Alberto Díez-Guerrier, Pilar Pozo, Ana Balseiro, Lucas Domínguez, and Christian Gortázar

Subjects

Farmland, Noninvasive sampling, Vertebrate community, Wildlife-livestock interface, Medicine (General), R5-920

Abstract

Outdoor farming contributes to biodiversity conservation and enhances animal welfare, but also raises biosafety concerns due to livestock contact with potentially infected wildlife. Thus, there is a need to assess the balance between vertebrate species richness on farms, visits by wildlife species posing a biosafety risk, and pathogen circulation in open-air farming systems. We explored these links in a pilot study involving 15 open-air hoofstock farms (6 cattle, 5 small ruminant, and 4 pig farms), where we conducted interviews and risk point inspections and used two noninvasive tools: short-term camera trap (CT) deployment and environmental nucleic acid detection (ENAD). CTs were deployed to assess the richness of birds and mammals, as well as to determine the percentage of CTs detecting defined risk species. We also collected livestock feces and used sponges to sample surfaces for environmental DNA (eDNA), testing for nine pathogen markers. Total vertebrate richness ranged from 18 to 42 species, with waterholes significantly contributing to farm vertebrate richness, since 48.2 % of all wild vertebrates were detected at waterbodies, and 28.6 % were exclusively detected at waterholes. Pathogen markers detected at risk points correlated with those detected in livestock samples. Notably, the frequency of uidA marker detection correlated with the total number of pathogen markers detected per farm. Overall marker richness, an indicator of pathogen diversity, varied between farms, being higher in small ruminant farms compared to cattle or pig farms. At the farm level, wild vertebrate richness was negatively correlated with the richness of pathogen markers detected at risk points. Additionally, risk points with a higher probability of detecting more pathogen markers had lower vertebrate richness. Although CT-based assessments of vertebrate richness and ENAD-based pathogen marker detection are only indicators of actual biodiversity and farm health, respectively, our findings suggest that farmland vertebrate communities provide important ecosystem services and may help limit the circulation of multi-host pathogens.

Published

2024

6. Helminth Prevalence in European Deer with a Focus on Abomasal Nematodes and the Influence of Livestock Pasture Contact: A Meta-Analysis.

Author

Brown, Tony L. and Morgan, Eric R.

Subjects

HELMINTHS, FALLOW deer, RED deer, DEER, ROE deer, HAEMONCHUS contortus, SIKA deer, DEER populations

Abstract

Deer are susceptible to infection with parasitic helminths, including species which are of increasing economic concern to the livestock industry due to anthelmintic drug resistance. This paper systematically collates helminth prevalence data from deer across Europe and explores patterns in relation to host and parasite species, as well as landscape factors. A livestock pasture contact index (LPCI) is developed to predict epidemiological overlap between deer and livestock, and hence to examine deer helminth fauna in the context of their surrounding environment. Fifty-eight studies comprising fallow (Dama dama), red (Cervus elaphus), roe (Capreolus capreolus) and sika (Cervus nippon) deer were identified. Deer populations in "likely" contact with livestock pasture had a higher mean prevalence of the abomasal nematodes Haemonchus contortus, Ostertagia ostertagi, Teladorsagia circumcincta and Trichostrongylus axei (p = 0.01), which are common in livestock and not primarily associated with deer. Roe deer populations had a higher prevalence of T. circumcincta (p = 0.02) and T. axei (p = 0.01) than fallow deer and a higher prevalence of H. contortus than both red (p = 0.01) and fallow deer (p = 0.02). Liver fluke and lungworm species were present sporadically at low prevalence, while the abomasal nematode Ashworthius sidemi occurred locally at high prevalence. Insights from this research suggest that deer helminth fauna is reflective of their surrounding environment, including the livestock species which inhabit areas of shared grazing. This is explored from an epidemiological perspective, and the prospect of helminth transmission between wild and domestic hosts is discussed, including drug-resistant strains, alongside the role of helminths as indicators relevant to the transmission of other pathogens at the wildlife–livestock interface. [ABSTRACT FROM AUTHOR]

Published

2024

7. PATHOLOGY OF CHRONIC MYCOPLASMA OVIPNEUMONIAE CARRIERS IN A DECLINING BIGHORN SHEEP (OVIS CANADENSIS) POPULATION.

Author

Malmberg, Jennifer L., Allen, Samantha E., Jennings-Gaines, Jessica E., Johnson, Marguerite, Luukkonen, Katie L., Robbins, Kara M., Cornish, Todd E., Smiley, Rachel A., Wagler, Brittany L., Gregory, Zach, Lutz, Daryl, Hnilicka, Pat, Monteith, Kevin L., and Edwards, William H.

Abstract

Bighorn sheep (Ovis canadensis) across North America commonly experience population-limiting epizootics of respiratory disease. Although many cases of bighorn sheep pneumonia are polymicrobial, Mycoplasma ovipneumoniae is most frequently associated with all-age mortality events followed by years of low recruitment. Chronic carriage of M. ovipneumoniae by adult females serves as a source of exposure of naïve juveniles; relatively few ewes may be responsible for maintenance of infection within a herd. Test-and-remove strategies focused on removal of adult females with evidence of persistent or intermittent shedding (hereafter chronic carriers) may reduce prevalence and mitigate mortality. Postmortem confirmation of pneumonia in chronic carriers has been inadequately reported and the pathology has not been thoroughly characterized, limiting our understanding of important processes shaping the epidemiology of pneumonia in bighorn sheep. Here we document postmortem findings and characterize the lesions of seven ewes removed from a declining bighorn sheep population in Wyoming, USA, following at least two antemortem detections of M. ovipneumoniae within a 14-mo period. We confirmed that 6/7 (85.7%) had variable degrees of chronic pneumonia. Mycoplasma ovipneumoniae was detected in the lung of 4/7 (57.1%) animals postmortem. Four (57.1%) had paranasal sinus masses, all of which were classified as inflammatory, hyperplastic lesions. Pasteurella multocida was detected in all seven (100%) animals, while Trueperella pyogenes was detected in 5/7 (71.4%). Our findings indicate that not all chronic carriers have pneumonia, nor do all have detectable M. ovipneumoniae in the lung. Further, paranasal sinus masses are a common but inconsistent finding, and whether sinus lesions predispose to persistence or result from chronic carriage remains unclear. Our findings indicate that disease is variable in chronic M. ovipneumoniae carriers, underscoring the need for further efforts to characterize pathologic processes and underlying mechanisms in this system to inform management. [ABSTRACT FROM AUTHOR]

Published

2024

8. Prevalence of Gastrointestinal Parasites in Free-Ranging Bantengs (Bos javanicus) and Domestic Cattle at a Wildlife and Livestock Interface in Thailand.

Author

Watwiengkam, Nattaya, Patikae, Patinya, Thiangthientham, Pintira, Ruksachat, Nuntita, Simkum, Supanun, Arunlerk, Kittikom, Chooyoung, Kamonchanok, and Purisotayo, Tarid

Subjects

*WILDLIFE conservation, *ANIMAL populations, *PARASITES, *LIVESTOCK, *POLYMERASE chain reaction

Abstract

Impact of human activities on conservation of endangered species is significant due to the creation of wildlife-livestock interfaces (WLI), which increases the likelihood of disease transmissions. Protected wildlife populations may suffer from diseases caused by gastrointestinal (GI) parasites, potentially impacting conservation efforts. A population of ~100 wild bantengs inhabits the Lam-Pao non-hunting area, which is adjacent to human communities, animal farms and the Pao River, making this WLI suitable for a study of prevalence of GI parasites in the bantengs and domestic cattle. This research examined the prevalence and diversity of GI parasites and explored the associations between the parasitic species identified in the 2 animal groups. Formalin ethyl - acetate concentration technique (FECT) identified overall prevalence of 26.2, 17.4, 53.3 % for both animal groups, bantengs and domestic cattle respectively. The following prevalence of parasitic eggs were identified in the bantengs (N = 46) and the domestic cattle (N = 15) respectively: 1) 8.7 and 46 % of strongyle-type; 2) 4.3 and 6.7 % of Moniezia spp.; 3) 2.2 and 0 % of Fasciola spp.; 4) 6.5 and 6.7 % of Rumen flukes; 5) 0 and 13.3 % of Toxocara spp.; 6) 0 and 6.7 % of Capillaria spp.; 7) 0 and 6.7 % of Strongyloides spp.; and 8) 0 and 6.7 % of Trichuris spp. The combination of coproculture and polymerase chain reactions (PCR) was used to identified common strongyle-type species. We determined Oesophagostomum radiatum in 2 cattle (13.3 %) and 3 (6.5 %) banteng samples, Cooperia onchophora in 1 (6.7 %) cattle sample and Ostertagia ostertagi in 1 (6.7 %) cattle sample. The results present in this study would enable management to proactively strategize and prepare for parasitic diseases that can endanger such a population. [ABSTRACT FROM AUTHOR]

Published

2024

9. Pathogen surveillance and epidemiology in endangered peninsular bighorn sheep (Ovis canadensis nelsoni)

Author

Sanchez, Jessica N, Munk, Brandon A, Colby, Janene, Torres, Steve G, Gonzales, Ben J, DeForge, James R, Byard, Aimee J, Konde, Lora, Shirkey, Nicholas J, Pandit, Pranav S, Botta, Randy A, Roug, Annette, Ziccardi, Michael H, and Johnson, Christine K

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, 2.4 Surveillance and distribution, Infection, Good Health and Well Being, endangered species, epidemic pneumonia, lamb recruitment, Mycoplasma ovipneumoniae, pathogen spillover, Peninsular ranges, survival, wildlife-livestock interface, Peninsular Ranges, Forestry sciences, Ecology, Environmental management

Abstract

Peninsular bighorn sheep (Ovis canadensis nelsoni) are found exclusively in Southern California and Baja Mexico. They are federally endangered due to multiple threats, including introduced infectious disease. From 1981 - 2017, we conducted surveillance for 16 pathogens and estimated population sizes, adult survival, and lamb survival. We used mixed effects regression models to assess disease patterns at the individual and population levels. Pathogen infection/exposure prevalence varied both spatially and temporally. Our findings indicate that the primary predictor of individual pathogen infection/exposure was the region in which an animal was captured, implying that transmission is driven by local ecological or behavioral factors. Higher Mycoplasma ovipneumoniae seropositivity was associated with lower lamb survival, consistent with lambs having high rates of pneumonia-associated mortality, which may be slowing population recovery. There was no association between M. ovipneumoniae and adult survival. Adult survival was positively associated with population size and parainfluenza-3 virus seroprevalence in the same year, and orf virus seroprevalence in the previous year. Peninsular bighorn sheep are recovering from small population sizes in a habitat of environmental extremes, compounded by infectious disease. Our research can help inform future pathogen surveillance and population monitoring for the long-term conservation of this population.

Published

2022

10. Overview of global wildlife–livestock interfaces: the array of conflicts and strategies to mitigate them.

Author

VerCauteren, Kurt and Breck, Stewart

Subjects

WOLVES, LIVESTOCK protection dogs, WILD boar, ANIMAL culture, WILDLIFE conservation, ANIMAL welfare, OLD World badger

Abstract

This article provides an overview of the conflicts that can arise between wildlife and livestock, such as competition for resources, disease transmission, and predation. It discusses management strategies that can focus on either the livestock or the wildlife, but emphasizes the effectiveness of integrating both strategies. The goal is to reduce conflict while maintaining healthy populations of wildlife and thriving human endeavors. The article highlights the importance of sustainable coexistence, considering diverse perspectives and cultural contexts in wildlife management. It discusses various nonlethal and lethal strategies for managing conflicts, and emphasizes the need for a multidisciplinary approach, proactive prevention, public education, and research. [Extracted from the article]

Published

2024

11. The coexistence of wildlife and livestock.

Author

Barroso, Patricia and Gortázar, Christian

Subjects

TROPHIC cascades, RANGELANDS, LIVESTOCK, RANGE management, PESTE des petits ruminants, WILDLIFE conservation, FOOT & mouth disease virus

Abstract

This document explores the coexistence of wildlife and livestock and the conflicts that can arise from their interactions. It acknowledges the positive contributions of livestock grazing to ecosystem health and habitat management, but also highlights the potential for conflicts such as shared infections, competition for resources, fencing, and the presence of predators. The document suggests various interventions, including zoning and land use planning, diversifying livelihoods, and implementing biosafety measures. It emphasizes the importance of addressing inequality and promoting co-management and interdisciplinary approaches. The document concludes by emphasizing the need for further research in order to balance food security and ecosystem services while minimizing negative impacts. [Extracted from the article]

Published

2024

12. Understanding the interface between European wild boar (Sus scrofa) and domestic pigs (Sus scrofa domesticus) in Sweden through a questionnaire study

Author

Linda Ernholm, Karl Ståhl, Aleksija Neimanis, Stefan Widgren, and Susanna Sternberg-Lewerin

Subjects

African swine fever, Disease transmission, Wildlife-livestock interface, Veterinary medicine, SF600-1100

Abstract

Abstract Background In recent years, the wildlife/livestock interface has attracted increased attention due to disease transmission between wild and domestic animal populations. The ongoing spread of African swine fever (ASF) in European wild boar (Sus scrofa) emphasize the need for further understanding of the wildlife/livestock interface to prevent disease spill-over between the wild and domestic populations. Although wild boar may also act as a potential source for other infectious disease agents, ASF is currently the most severe threat from wild boar to domestic pigs. To gather information on the wild boar situation at commercial pig producing farms in Sweden, a digital questionnaire survey was distributed through the animal health services. Results Most pigs produced for commercial purposes in Sweden are raised without outdoor access. Of the 211 responding pig producers, 80% saw wild boar or signs of wild boar activity in the vicinity of their farm at least once during the year. Observations were significantly correlated with geographical region, but there was no correlation between farm characteristics (farm size, main type of production, outdoor access) and observed wild boar presence or proximity. However, a reported higher frequency of wild boar observations was positively correlated with the observations being made in closer proximity to the farm. Hunting and strategic baiting were the most common mitigation strategies used to keep wild boar at bay. Of the 14 farms raising pigs with outdoor access, 12 responded that these pigs could be raised solely indoors if needed. Pigs with outdoor access are required to be fenced in, but double fencing in these outdoor pig enclosures was not practiced by all. A perimeter fence surrounding any type of pig farm was very rare. More than half of the producers that grew crops with intended use for pigs reported crop damage by wild boar. Conclusion This study shows that although pigs raised for commercial purposes in Sweden are, to a large extent, kept indoors the potential for indirect contact with wild boar exists and must be considered. Variable local situations regarding wild boar abundance may require an adaptive approach regarding biosecurity efforts.

Published

2023

13. Disentangling wildlife–cattle interactions in multi‐host tuberculosis scenarios: systematic review and meta‐analysis.

Author

Ferreira, Eduardo M., Duarte, Elsa L., Cunha, Mónica V., Mira, António, and Santos, Sara M.

Subjects

*GLOBAL Positioning System, *MYCOBACTERIUM bovis, *TUBERCULOSIS, *CATTLE, *WILDLIFE diseases, *CATTLE herding

Abstract

Ecological interactions involving wildlife (wild mammals) and cattle Bos taurus are considered fundamental drivers of animal tuberculosis (TB) caused by Mycobacterium bovis at the wildlife–livestock interface. Despite recent insights about the role of direct and indirect interactions on TB dynamics, a mechanistic evaluation of studies addressing patterns of wildlife–cattle interaction at the global level is lacking, and the most likely factors explaining interaction rates under different epidemiological scenarios remain poorly understood.We began by reviewing the main criteria used to define a wildlife–cattle interaction relevant to Mycobacterium bovis transmission under different methodological approaches (camera‐trapping, proximity loggers and Global Positioning System collars). Secondly, we applied a generic framework to estimate and characterise interaction patterns between susceptible wildlife and cattle hosts worldwide, testing the effect of potential ecological and methodological factors on interaction rates.We synthesise two main criteria to define direct interactions and five criteria to define indirect interactions between wildlife and cattle. Using data from 31 studies, our meta‐analysis showed that wildlife–cattle direct interaction rates were low (mean = 0.03 interactions/month per species pair, range: 0.00–0.12). In contrast, indirect interaction rates were 154 times higher than the mean of direct interaction rates (mean = 4.63 interactions/month per species pair, range: 0.16–30.00).To prevent TB transmission to cattle, attention should be given to indirect interactions between wildlife and cattle in shared environments. Indirect interactions significantly increase with increasing wildlife density, which, hypothetically, could result in a higher TB transmission risk for cattle. We outline recommendations to achieve harmonised integration and comparison of results in future studies. Consolidation of knowledge in this field will contribute towards guiding control and biosecurity measures, also applicable to other infectious diseases at the wildlife, domestic species and human interfaces. [ABSTRACT FROM AUTHOR]

Published

2023

14. Understanding the interface between European wild boar (Sus scrofa) and domestic pigs (Sus scrofa domesticus) in Sweden through a questionnaire study.

Author

Ernholm, Linda, Ståhl, Karl, Neimanis, Aleksija, Widgren, Stefan, and Sternberg-Lewerin, Susanna

Subjects

*WILD boar, *SWINE, *AFRICAN swine fever, *VETERINARY services, *SWINE farms, *FARM size, *DOMESTIC animals, *ANIMAL populations

Abstract

Background: In recent years, the wildlife/livestock interface has attracted increased attention due to disease transmission between wild and domestic animal populations. The ongoing spread of African swine fever (ASF) in European wild boar (Sus scrofa) emphasize the need for further understanding of the wildlife/livestock interface to prevent disease spill-over between the wild and domestic populations. Although wild boar may also act as a potential source for other infectious disease agents, ASF is currently the most severe threat from wild boar to domestic pigs. To gather information on the wild boar situation at commercial pig producing farms in Sweden, a digital questionnaire survey was distributed through the animal health services. Results: Most pigs produced for commercial purposes in Sweden are raised without outdoor access. Of the 211 responding pig producers, 80% saw wild boar or signs of wild boar activity in the vicinity of their farm at least once during the year. Observations were significantly correlated with geographical region, but there was no correlation between farm characteristics (farm size, main type of production, outdoor access) and observed wild boar presence or proximity. However, a reported higher frequency of wild boar observations was positively correlated with the observations being made in closer proximity to the farm. Hunting and strategic baiting were the most common mitigation strategies used to keep wild boar at bay. Of the 14 farms raising pigs with outdoor access, 12 responded that these pigs could be raised solely indoors if needed. Pigs with outdoor access are required to be fenced in, but double fencing in these outdoor pig enclosures was not practiced by all. A perimeter fence surrounding any type of pig farm was very rare. More than half of the producers that grew crops with intended use for pigs reported crop damage by wild boar. Conclusion: This study shows that although pigs raised for commercial purposes in Sweden are, to a large extent, kept indoors the potential for indirect contact with wild boar exists and must be considered. Variable local situations regarding wild boar abundance may require an adaptive approach regarding biosecurity efforts. [ABSTRACT FROM AUTHOR]

Published

2023

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

Author

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

Subjects

case report, lumpy skin disease, wildlife-livestock interface, vaccination, banteng, wildlife, Veterinary medicine, SF600-1100

Abstract

We describe a case of lumpy skin disease in an endangered banteng in Cambodia and the subsequent initiation of a vaccination campaign in domestic cattle to protect wild bovids from disease transmission at the wildlife-livestock interface. Lumpy skin disease virus (LSDV) was first detected in domestic cattle in Cambodia in June of 2021 and rapidly spread throughout the country. In September 2021, a banteng was seen in Phnom Tnout Phnom Pok wildlife sanctuary with signs of lumpy skin disease. Scab samples were collected and tested positive for LSDV. Monitoring using line transect surveys and camera traps in protected areas with critical banteng and gaur populations was initiated from December 2021-October 2022. A collaborative multisector vaccination campaign to vaccinate domestic livestock in and around priority protected areas with banteng and gaur was launched July 2022 and a total of 20,089 domestic cattle and water buffalo were vaccinated with LumpyvaxTM. No signs of LSDV in banteng or gaur in Cambodia have been observed since this initial case. This report documents the first case of lumpy skin disease in wildlife in Cambodia and proposes a potential intervention to mitigate the challenge of pathogen transmission at the domestic-wildlife interface. While vaccination can support local livestock-based economies and promote biodiversity conservation, it is only a component of an integrated solution and One Health approach to protect endangered species from threats at the wildlife-livestock interface.

Published

2023

16. An evaluation of the landscape structure and La Niña climatic anomalies associated with Japanese encephalitis virus outbreaks reported in Australian piggeries in 2022

Author

Michael G. Walsh, Cameron Webb, and Victoria Brookes

Subjects

Japanese encephalitis, Vector-borne disease, Animal health, Wildlife-livestock interface, Arbovirus, Disease ecology, Medicine (General), R5-920

Abstract

The widespread activity of Japanese encephalitis virus (JEV) reported in previously unaffected regions of eastern and southern Australia in 2022 represents the most significant local arbovirus emergency in almost 50 years. Japanese encephalitis virus is transmitted by mosquitoes and maintained in wild ardeid birds and amplified in pigs, the latter of which suffer significant reproductive losses as a result of infection. The landscape epidemiology of JEV in mainland Australia is almost entirely unknown, particularly in the eastern and southern parts of the country where the virus has not been previously documented. Although other areas with endemic JEV circulation in the Indo-Pacific region have demonstrated the importance of wild waterbird-livestock interface in agricultural-wetland mosaics, no such investigation has yet determined the composition and configuration of pathogenic landscapes for Australia. Moreover, the recent emergence in Australia has followed substantial precipitation and temperature anomalies associated with the La Niña phase of the El Niño Southern Oscillation. This study investigated the landscape epidemiology of JEV outbreaks in Australian piggeries reported between January and April of 2022 to determine the influence of ardeid habitat suitability, hydrogeography, hydrology, land cover and La Niña-associated climate anomalies. Outbreaks of JEV in domestic pigs were associated with intermediate ardeid species richness, cultivated land and grassland fragmentation, waterway proximity, temporary wetlands, and hydrological flow accumulation. This study has identified the composition and configuration of landscape features that were associated with piggery outbreaks reported in 2022 in Australia. Although preliminary, these findings can inform actionable strategies for the development of new One Health JEV surveillance specific to the needs of Australia.

Published

2023

17. Temporal Dynamics of Anaplasma marginale Infections and the Composition of Anaplasma spp. in Calves in the Mnisi Communal Area, Mpumalanga, South Africa.

Author

Makgabo, S. Marcus, Brayton, Kelly A., Biggs, Louise, Oosthuizen, Marinda C., and Collins, Nicola E.

Subjects

ANAPLASMA marginale, ANAPLASMOSIS, CALVES, TICK-borne diseases, CATTLE diseases, ACARICIDES, CATTLE herding

Abstract

Bovine anaplasmosis, caused by Anaplasma marginale, is one of the most important tick-borne diseases of cattle. Anaplasma marginale is known to be present in the Mnisi community, Mpumalanga Province, with frequent cases of anaplasmosis reported. This study investigated the infection dynamics in calves (n = 10) in two habitats in the study area over 12 months. A duplex real-time PCR assay targeting the msp1β gene of A. marginale and the groEL gene of A. centrale confirmed the presence of A. marginale in five calves in a peri-urban area from the first month, but in only two calves at the wildlife–livestock interface and only after six months. These results were confirmed by 16S rRNA microbiome analysis. Over 50 A. marginale msp1α genotypes were detected in the calves along with five novel Msp1a repeats. Calves in the peri-urban area were more likely to be infected with A. marginale than calves in the wildlife–livestock interface. Cattle management, acaricide treatment, and cattle density could explain differences in infection prevalence in the two areas. Our results revealed that most calves were superinfected by distinct A. marginale strains within the study period, indicating continuous challenge with multiple strains that should lead to robust immunity in the calves and endemic stability in the area. [ABSTRACT FROM AUTHOR]

Published

2023

18. Perception of Somali pastoralists in Adadle woreda, Eastern Ethiopia, towards wildlife at the human‐animal interface, conservation and wildlife population change.

Author

Ibrahim, Mohammed, Muhummed, Abdifatah, Melaku, Hamere, Mohammed, Seid, Zinsstag, Jakob, and Tschopp, Rea

Subjects

*WILDLIFE conservation, *ANIMAL populations, *ATTITUDES toward the environment, *CHEETAH, *DEMOGRAPHIC change, *SOMALIS, *WILD animal trade

Abstract

Pastoralists and wildlife co‐exist in the Somali Regional State competing for habitat, food and water resources. A questionnaire survey conducted among 198 pastoralists, captured information on their perception of wildlife against the backdrop of wildlife population decrease, illegal wildlife trade and lack of quantitative and qualitative data in the area. The top perceived threats to livestock were drought (46%), wildlife attacks (33.8%) and diseases (20.2%). Daily encounters between wildlife and livestock were reported by 61.1% of respondents. Herbivores, including warthogs, accounted for the majority of these encounters (88.4%), whereas carnivores were rarely observed with livestock, except for jackals. The majority (92.9%) of the respondents did not think that wildlife could transmit diseases to livestock. Jackals were reported by 7.1% to transmit rabies. A strong dislike for wildlife was recorded in 99% of all respondents. All stated that wildlife should not be protected. Half of the respondents did not see any benefits in wildlife. Wildlife populations have decreased over the last 10 years, particularly lions and cheetahs. Pastoralist's attitudes and perceptions towards wildlife in the study area were negative, potentially affecting conservation efforts. There is an urgent need to improve awareness of the benefits of wildlife and to include wildlife in integrated human‐livestock‐environment surveillance systems. [ABSTRACT FROM AUTHOR]

Published

2022

19. Quantifying Transmission Between Wild and Domestic Populations

Author

Martínez-López, Beatriz, Díaz-Cao, José Manuel, Pepin, Kim M., Lopez, Beatriz Arroyo, Series Editor, Gonzalez, Jesus Garcia, Series Editor, Soria, Rafael Mateo, Series Editor, Vicente, Joaquín, editor, Vercauteren, Kurt C., editor, and Gortázar, Christian, editor

Published

2021

20. Characterisation of Wildlife-Livestock Interfaces: The Need for Interdisciplinary Approaches and a Dedicated Thematic Field

Author

Caron, Alexandre, Angel Barasona, Jose, Miguel, Eve, Michaux, Johan, De Garine-Wichatitsky, Michel, Lopez, Beatriz Arroyo, Series Editor, Gonzalez, Jesus Garcia, Series Editor, Soria, Rafael Mateo, Series Editor, Vicente, Joaquín, editor, Vercauteren, Kurt C., editor, and Gortázar, Christian, editor

Published

2021

21. Collecting Data to Assess the Interactions Between Livestock and Wildlife

Author

Triguero-Ocaña, Roxana, Vicente, Joaquín, Lavelle, Michael, Acevedo, Pelayo, Lopez, Beatriz Arroyo, Series Editor, Gonzalez, Jesus Garcia, Series Editor, Soria, Rafael Mateo, Series Editor, Vicente, Joaquín, editor, Vercauteren, Kurt C., editor, and Gortázar, Christian, editor

Published

2021

22. The Ecology of Pathogens Transmission at the Wildlife-Livestock Interface: Beyond Disease Ecology, Towards Socio-Ecological System Health

Author

De Garine-Wichatitsky, Michel, Miguel, Eve, Kock, Richard, Valls-Fox, Hugo, Caron, Alexandre, Lopez, Beatriz Arroyo, Series Editor, Gonzalez, Jesus Garcia, Series Editor, Soria, Rafael Mateo, Series Editor, Vicente, Joaquín, editor, Vercauteren, Kurt C., editor, and Gortázar, Christian, editor

Published

2021

23. Characterization and management of interaction risks between livestock and wild ungulates on outdoor pig farms in Spain

Author

Saúl Jiménez-Ruiz, Eduardo Laguna, Joaquín Vicente, Ignacio García-Bocanegra, Jordi Martínez-Guijosa, David Cano-Terriza, María A. Risalde, and Pelayo Acevedo

Subjects

Outdoor farming, Wildlife-livestock interface, Risk of species interaction, Biosecurity, Standardised approach, Iberian pig, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background To control the transmission of relevant shared diseases, such as animal tuberculosis (TB) and African swine fever (ASF), it is essential to reduce the risk of interaction between livestock and wild ungulates. In Eastern and Central Europe, the current spread of ASF virus affecting wild boar and domestic pigs (especially those raised outdoors and/or in backyards) has devastated the pig sector in affected regions and is seriously threatening other exporting countries. Here, we evaluated the risk of wildlife-livestock interactions on 45 outdoor pig farms in Spain, the second largest pork producer in the EU and then proposed biosecurity-related actions. An integrated, systematic wildlife risk mitigation protocol based on interviews, questionnaires and field audits was developed and applied on each farm. Results Most of the interaction risk points were associated with water sources (84.2%; 701/832), mainly springs and ponds, which accounted for almost all the specific points with high or very high risk scores. The risk of interaction at feeding points (6.9%; 57/832) and those associated with facilities for livestock and/or game management (8.9%; 74/832) were rated as low and very low risk, respectively. Wild boar were present and hunted on 69% of the farms. Supplementary feeding for wild ungulate species (mainly wild boar) was provided on almost half (48.9%; 22/45) the surveyed farms. Risk mitigation actions were categorised to target water access, waterers, food, other livestock species, grazing, wildlife, and offal disposal. Of the total number of actions (n = 2016), 82.7% were identified as priority actions while 17.3% represented alternative options which were identified less cost-effective. On average, 37.1 (median: 32; range 14–113) action proposals per study farm were made and 2.0 (median: 1; range 0–4) per risk point. The mean estimated cost of implementing the proposed priority actions was 14,780 €/farm (25.7 €/hectare and 799.4 €/risk point). Conclusions This study expands the knowledge of interaction risks between domestic pigs and wild ungulates in outdoor pig farming systems and highlights the importance of considering local risks and management practices when designing and prioritising adapted wildlife risk mitigation and biosecurity actions. This practical and feasible protocol developed for Mediterranean ecosystems is easily transferable to professionals and can be adapted to extensive (outdoor) production or epidemiological systems in other European regions.

Published

2022

24. Farm management practices and host species richness associated with higher likelihood of tuberculosis positive farms in Western Spain

Author

Herrero García, Gloria, Vaz Rodrigues, Rita, Pozo Piñol, Pilar, Barroso, Patricia, Relimpio, David, Nácar, Jesús, Grau, Anna, Mínguez, Olga, García Rodríguez, Alberto, Balseiro, Ana, Gortázar, Christian, Herrero García, Gloria, Vaz Rodrigues, Rita, Pozo Piñol, Pilar, Barroso, Patricia, Relimpio, David, Nácar, Jesús, Grau, Anna, Mínguez, Olga, García Rodríguez, Alberto, Balseiro, Ana, and Gortázar, Christian

Abstract

Gloria Herrero-García is funded by Junta de Castilla y León and FSE (contract ref LE036-20); Rita Vaz-Rodrigues is funded by Universidad de Castilla-La Mancha (UCLM) and ESF (contract ref. 2022/20675); Pilar Pozo is funded by Juan de la Cierva Formación 2021, funded by the Ministerio de Ciencia e Innovación, Agencia Estatal de Investigación and NextGenerationEU/PRTR (contract ref FJC2021-046805-I); Patricia Barroso is funded by a Juan de la Cierva post-doc fellowship (contract ref DC2022-049103-I); and Alberto García-Rodríguez is funded by the EU-NextGenerationEU funds through the 2021–2023 Margarita Salas call for the requalification of the Spanish university system, convened by the Universidad de León, Despite enormous efforts, complete animal tuberculosis (TB) eradication has only been achieved in few regions. Epidemiological analyses are key to identify TB risk factors and set up targeted biosecurity measures. Here, we conducted an in-depth characterization of 84 extensive beef cattle farms from a high TB prevalence region in Western Spain, and assessed how farm management and wildlife presence on farms contribute to cattle TB risk. Twenty-six out of 84 variables were associated with cattle farm TB positivity. Farm management variables associated with TB positivity included older cattle, larger herd size, highly fragmented farm structure and greater connectivity between farms. TB-positive farms provided supplemental feed over a higher number of months, used calf feeders, and had higher number of waterholes. Detecting Eurasian wild boar (Sus scrofa), red fox (Vulpes vulpes), European badger (Meles meles), roe deer (Capreolus capreolus), or Egyptian mongoose (Herpestes ichneumon) on cattle farms was also associated with farm TB positivity. The best ordinal regression model indicated that in farms with a large herd size (> 167 animals) the odds of being positive or recurrently positive (versus negative) was 7.34 (95% CI = 2.43–23.51) times higher that of farms with small herd size. Further, for every additional host species detected in the farm premises, the odds of being TB-positive increased 56%. We conclude that both cattle management and wildlife need to be targeted for successful TB control in grazing-based farming systems., A pesar de los enormes esfuerzos, la erradicación completa de la tuberculosis (TB) animal solo se ha logrado en algunas regiones. Los estudios epidemiológicos son fundamentales para identificar factores de riesgo de TB y establecer medidas de bioseguridad específicas. Aquí, realizamos una caracterización exhaustiva de 84 explotaciones de ganado bovino extensivo en una provincia occidental de España con alta prevalencia de TB bovina, y evaluamos cómo el manejo del ganado y la presencia de fauna silvestre contribuían al riesgo de esta enfermedad. De las 84 variables estudiadas, 26 mostraron asociación con la positividad a TB bovina. Entre las variables de manejo destacaron: ganado de mayor edad, rebaños de mayor tamaño, explotaciones altamente fragmentadas y mayor conectividad entre ganaderías. Asimismo, las explotaciones positivas a TB prolongaban la alimentación suplementaria, utilizaban cebaderos para terneros y tenían un mayor número de charcas. La detección de jabalí (Sus scrofa), zorro (Vulpes vulpes), tejón (Meles meles), corzo (Capreolus capreolus) o meloncillo (Herpestes ichneumon) en las ganaderías también se asoció con la positividad a TB. El mejor modelo de regresión ordinal mostró que en explotaciones con un tamaño de rebaño grande (> 167 animales) las probabilidades de ser positivo o recurrentemente positivo (frente a negativo) eran 7,34 (95 % IC = 2,43–23,51) veces superiores, a las de las explotaciones con un tamaño de rebaño pequeño. Además, por cada especie hospedadora susceptible detectada adicionalmente, la probabilidad de que la ganadería fuese positiva a TB aumentaba un 56 %. Concluimos que tanto el manejo del ganado como la interacción con fauna silvestre deben ser considerados para un control exitoso de la TB en explotaciones con sistemas de pastoreo extensivo., European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Depto. de Sanidad Animal, Fac. de Veterinaria, Centro de Vigilancia Sanitaria Veterinaria (VISAVET), TRUE, pub

Published

2024

25. The coexistence of wildlife and livestock

Author

Universidad de Castilla La Mancha, Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Barroso, Patricia, Gortázar, Christian, Universidad de Castilla La Mancha, Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Barroso, Patricia, and Gortázar, Christian

Published

2024

26. Choice of landscape discretisation method affects the inferred rate of spread in wildlife disease spread models.

Author

Reimert MM, Gussmann MK, Boklund AE, and Denwood M

Abstract

Disease modelling at the livestock-wildlife interface is an important topic for which discrete-space models are used for the wildlife component. One prominent example is African Swine Fever, where wild boar play an influential role as reservoirs of disease spillover into domestic pig farms. In this paper, we present a simulation study that demonstrates the impact of seemingly arbitrary choices of landscape discretisation method on the inferred rate of spread within the model. We use an ordinary differential equation model to implement a simplified model of disease transmission between discrete groups of wild boar with spillover into domestic pig farms contained within a homogeneous landscape. We examine a range of scenarios whereby the landscape is discretised into wild boar patches of varying size and shape, and compare the rate of spread between domestic pig farms placed at fixed points on the landscape. Our results demonstrate a non-monotonic relationship between patch size and rate of spread, which is particularly unstable and unpredictable for square and triangular shaped patches. Discretisation of the landscape into hexagons appears to produce a more stable relationship between patch size and rate of spread for the three types of transmission kernel we investigated. Although the rate of disease spread does converge to a stable value, this occurs at patch sizes that are much smaller than would be used in practice for wild boar. We conclude that outputs of disease models containing a wildlife component should not be considered to be robust to arbitrary choices for patch size and placement, but rather as a source of uncertainty to be examined using sensitivity analysis. Furthermore, we strongly recommend the use of hexagons rather than squares or right triangles for landscape discretisation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

27. Natural history of a bighorn sheep pneumonia epizootic: Source of infection, course of disease, and pathogen clearance

Author

Thomas E. Besser, E. Frances Cassirer, Amy Lisk, Danielle Nelson, Kezia R. Manlove, Paul C. Cross, and John T. Hogg

Subjects

bighorn sheep, domestic sheep, Mycoplasma ovipneumoniae, respiratory disease, spillover, wildlife–livestock interface, Ecology, QH540-549.5

Abstract

Abstract A respiratory disease epizootic at the National Bison Range (NBR) in Montana in 2016–2017 caused an 85% decline in the bighorn sheep population, documented by observations of its unmarked but individually identifiable members, the subjects of an ongoing long‐term study. The index case was likely one of a small group of young bighorn sheep on a short‐term exploratory foray in early summer of 2016. Disease subsequently spread through the population, with peak mortality in September and October and continuing signs of respiratory disease and sporadic mortality of all age classes through early July 2017. Body condition scores and clinical signs suggested that the disease affected ewe groups before rams, although by the end of the epizootic, ram mortality (90% of 71) exceeded ewe mortality (79% of 84). Microbiological sampling 10 years to 3 months prior to the epizootic had documented no evidence of infection or exposure to Mycoplasma ovipneumoniae at NBR, but during the epizootic, a single genetic strain of M. ovipneumoniae was detected in affected animals. Retrospective screening of domestic sheep flocks near the NBR identified the same genetic strain in one flock, presumptively the source of the epizootic infection. Evidence of fatal lamb pneumonia was observed during the first two lambing seasons following the epizootic but was absent during the third season following the death of the last identified M. ovipneumoniae carrier ewe. Monitoring of life‐history traits prior to the epizootic provided no evidence that environmentally and/or demographically induced nutritional or other stress contributed to the epizootic. Furthermore, the epizootic occurred despite proactive management actions undertaken to reduce risk of disease and increase resilience in this population. This closely observed bighorn sheep epizootic uniquely illustrates the natural history of the disease including the (presumptive) source of spillover, course, severity, and eventual pathogen clearance.

Published

2021

28. Stochastic modelling of African swine fever in wild boar and domestic pigs: Epidemic forecasting and comparison of disease management strategies

Author

Emmanuelle A. Dankwa, Sébastien Lambert, Sarah Hayes, Robin N. Thompson, and Christl A. Donnelly

Subjects

Mathematical modelling, African swine fever virus, Wildlife-livestock interface, Spatial model, Real-time analysis, Infectious and parasitic diseases, RC109-216

Abstract

African swine fever (ASF), caused by the African swine fever virus (ASFV), is highly virulent in domestic pigs and wild boar (Sus scrofa), causing up to 100% mortality. The recent epidemic of ASF in Europe has had a serious economic impact and poses a threat to global food security. Unfortunately, there is no effective treatment or vaccine against ASFV, limiting the available disease management strategies. Mathematical models allow us to further our understanding of infectious disease dynamics and evaluate the efficacy of disease management strategies. The ASF Challenge, organised by the French National Research Institute for Agriculture, Food, and the Environment, aimed to expand the development of ASF transmission models to inform policy makers in a timely manner. Here, we present the model and associated projections produced by our team during the challenge. We developed a stochastic model combining transmission between wild boar and domestic pigs, which was calibrated to synthetic data corresponding to different phases describing the epidemic progression. The model was then used to produce forward projections describing the likely temporal evolution of the epidemic under various disease management scenarios. Despite the interventions implemented, long-term projections forecasted persistence of ASFV in wild boar, and hence repeated outbreaks in domestic pigs. A key finding was that it is important to consider the timescale over which different measures are evaluated: interventions that have only limited effectiveness in the short term may yield substantial long-term benefits. Our model has several limitations, partly because it was developed in real-time. Nonetheless, it can inform understanding of the likely development of ASF epidemics and the efficacy of disease management strategies, should the virus continue its spread in Europe.

Published

2022

29. Detection of a novel enterotropic Mycoplasma gallisepticum‐like in European starling (Sturnus vulgaris) around poultry farms in France.

Author

Le Gall‐Ladevèze, Chloé, Nouvel, Laurent‐Xavier, Souvestre, Marie, Croville, Guillaume, Hygonenq, Marie‐Claude, Guérin, Jean‐Luc, and Le Loc'h, Guillaume

Subjects

*STURNUS vulgaris, *AVIAN influenza, *MYCOPLASMA gallisepticum, *POULTRY farms, *AVIAN influenza A virus, *MYCOPLASMA, *WHOLE genome sequencing, *CITY dwellers

Abstract

Recent outbreaks of highly pathogenic avian influenza in southwest France have raised questions regarding the role of commensal wild birds in the introduction and dissemination of pathogens between poultry farms. To assess possible infectious contacts at the wild–domestic bird interface, the presence of Mycoplasma gallisepticum (MG) was studied in the two sympatric compartments in southwest France. Among various peridomestic wild birds (n = 385), standard PCR primers targeting the 16S rRNA of MG showed a high apparent prevalence (up to 45%) in cloacal swabs of European starlings (Sturnus vulgaris, n = 108), while the MG‐specific mgc2 gene was not detected. No tracheal swab of these birds tested positive, and no clinical sign was observed in positive birds, suggesting commensalism in the digestive tract of starlings. A mycoplasma strain was then isolated from a starling swab and its whole genome was sequenced using both Illumina and Nanopore technologies. Phylogenetic analysis showed that it was closely related to MG and M. tullyi, although it was a distinct species. A pair of specific PCR primers targeting the mgc2‐like gene of this MG‐like strain was designed and used to screen again the same avian populations and a wintering urban population of starlings (n = 50). Previous PCR results obtained in starlings were confirmed to be mostly due to this strain (20/22 positive pools). In contrast, the strain was not detected in fresh faeces of urban starlings. Furthermore, it was detected in one cloacal pool of white wagtails, suggesting infectious transmissions between synanthropic birds with similar feeding behaviour. As the new Starling mycoplasma was not detected in free‐range ducks (n = 80) in close contact with positive starlings, nor in backyard (n = 320) and free‐range commercial (n = 720) chickens of the area, it might not infect poultry. However, it could be involved in mycoplasma gene transfer in such multi‐species contexts. [ABSTRACT FROM AUTHOR]

Published

2022

30. SOURCE AND SEASONALITY OF EPIZOOTIC MYCOPLASMOSIS IN FREE-RANGING PRONGHORN (ANTILOCAPRA AMERICANA).

Author

Johnson, Marguerite, MacGlover, Christopher, Peckham, Erika, Killion, Halcyon, Allen, Samantha E., Creekmore, Terry, Edwards, William H., Blaeser, Madison, Davison, McKenzi, Schwalbe, Erin, Wray, Amy K., Bragg, Thomas K., Sondgeroth, Kerry S., and Malmberg, Jennifer L.

Abstract

Mycoplasma bovis is an economically important bacterial pathogen of cattle (Bos taurus) and bison (Bison bison) that most commonly causes pneumonia, polyarthritis, and mastitis. It is prevalent in cattle and ranched bison; however, infections in other species are rare. In early 2019, we identified M. bovis in free-ranging pronghorn (Antilocapra americana) in northeastern Wyoming. Here, we report on additional pronghorn mortalities caused by M. bovis, in the same approximately 120-km2 geographic region 1 yr later. Genetic analysis by multilocus sequence typing revealed that the mortalities were caused by the same M. bovis sequence type, which is unique among all sequence types documented thus far in North America. To explore whether pronghorn maintain chronic infections and begin assessing M. bovis status in other sympatric species, we used PCR testing of nasal swabs to opportunistically survey select free-ranging ungulates. We found no evidence of subclinical infections in 13 pronghorn sampled from the outbreak area (upper 95% binomial confidence limit [bCL], ∼24.7%) or among 217 additional pronghorn (upper 95% bCL, ∼1.7%) sampled from eight additional counties in Wyoming and 10 in Montana. All mule deer (Odocoileus hemionus; n=231; upper 95% bCL, ∼1.6%) sampled from 11 counties in Wyoming also were PCR negative. To assess the potential for environmental transmission, we examined persistence of M. bovis in various substrates and conditions. Controlled experiments revealed that M. bovis can remain viable for 6 h in shaded water and 2 h in direct sunlight. Our results indicate that environmental transmission of M. bovis from livestock to pronghorn is possible and that seasonality of infection could be due to shared resources during late winter. Further investigations to better understand transmission dynamics, to assess population level impacts to pronghorn, and to determine disease risks among pronghorn and other ungulate taxa appear warranted. [ABSTRACT FROM AUTHOR]

Published

2022

31. The importance of fine‐scale predictors of wild boar habitat use in an isolated population.

Author

Bacigalupo, Sonny A., Chang, Yu‐mei, Dixon, Linda K., Gubbins, Simon, Kucharski, Adam J., and Drewe, Julian A.

Subjects

*WILD boar, *HABITATS, *ANIMAL populations, *FOREST litter, *INFECTIOUS disease transmission, *LOGISTIC regression analysis, *REGRESSION analysis

Abstract

Predicting the likelihood of wildlife presence at potential wildlife–livestock interfaces is challenging. These interfaces are usually relatively small geographical areas where landscapes show large variation over small distances. Models of wildlife distribution based on coarse data over wide geographical ranges may not be representative of these interfaces. High‐resolution data can help identify fine‐scale predictors of wildlife habitat use at a local scale and provide more accurate predictions of species habitat use. These data may be used to inform knowledge of interface risks, such as disease transmission between wildlife and livestock, or human–wildlife conflict.This study uses fine‐scale habitat use data from wild boar (Sus scrofa) based on activity signs and direct field observations in and around the Forest of Dean in Gloucestershire, England. Spatial logistic regression models fitted using a variant of penalized quasi‐likelihood were used to identify habitat‐based and anthropogenic predictors of wild boar signs.Our models showed that within the Forest of Dean, wild boar signs were more likely to be seen in spring, in forest‐type habitats, closer to the center of the forest and near litter bins. In the area surrounding the Forest of Dean, wild boar signs were more likely to be seen in forest‐type habitats and near recreational parks and less likely to be seen near livestock.This approach shows that wild boar habitat use can be predicted using fine‐scale data over comparatively small areas and in human‐dominated landscapes, while taking account of the spatial correlation from other nearby fine‐scale data‐points. The methods we use could be applied to map habitat use of other wildlife species in similar landscapes, or of movement‐restricted, isolated, or fragmented wildlife populations. [ABSTRACT FROM AUTHOR]

Published

2022

32. Spatial mechanistic modelling to simulate movements and contacts between wildlife and livestock in Southern Africa.

Author

Rumiano, Florent, Miguel, Eve, Dufleit, Victor, Degenne, Pascal, Gaucherel, Cédric, Valls-Fox, Hugo, de Garine-Wichatitsky, Michel, Gandiwa, Edson, Caron, Alexandre, and Tran, Annelise

Subjects

*AFRICAN animals, *CATTLE, *AFRICAN buffalo, *LOCATION data, *GLOBAL Positioning System

Abstract

• Wildlife-livestock interactions increase at the periphery of conservation areas. • Need to facilitate human-wildlife coexistence in wildlife-livestock interfaces. • Spatial mechanistic model combining remote sensing and telemetry data. • Dynamically modelling collective movements of individuals in interaction. • Generically simulate animal movements and contacts at landscape scale. The open interfaces between protected areas and rural communal lands in southern Africa are characterized by semi-arid savannas where wildlife-livestock interactions vary in frequency and intensity. In a context of increasing anthropization of land and trans-frontier conservation, the multiplication of these interactions may facilitate human-wildlife coexistence such as competition for natural resources, livestock predation, crop destruction by wildlife, and/or the risk of pathogen transmission between wild and domestic species. To better understand potential contacts between domestic and wild animals at these wildlife/livestock interfaces, we developed a method combining remote sensing and spatial modelling to simulate the movements of African buffalo (Syncerus caffer) and domestic cattle (Bos taurus, Bos indicus). Satellite-derived maps of surface water and vegetation, the primary determinants of movement for these ungulate species, were integrated into a mechanistic and stochastic model of collective movements of individuals interacting according to group cohesion and alignment. This model allowed simulations of herd movements and the location of contact areas with their seasonal dynamics in space and time at the periphery of three national parks in Zimbabwe and South Africa. Model outputs were compared to Global Positioning Systems collar location data of 32 individuals (14 buffalo and 18 cattle). The modelled results show a high spatial and seasonal variability of contacts between buffalo and cattle in the three study sites, and a landscape scale correspondence between spatial extensions of the modelled and observed contact areas. These results illustrate the potential of spatial modelling combined with remote sensing to generically simulate animal movements and contacts at landscape scale while providing opportunities to explore the management of these wildlife/livestock interfaces through, for example, a further coupling with epidemiological modelling. [ABSTRACT FROM AUTHOR]

Published

2024

33. The importance of fine‐scale predictors of wild boar habitat use in an isolated population

Author

Sonny A. Bacigalupo, Yu‐mei Chang, Linda K. Dixon, Simon Gubbins, Adam J. Kucharski, and Julian A. Drewe

Subjects

fine‐scale predictors, spatial logistic regression, species distribution, wild boar, wildlife habitat use, wildlife–livestock interface, Ecology, QH540-549.5

Abstract

Abstract Predicting the likelihood of wildlife presence at potential wildlife–livestock interfaces is challenging. These interfaces are usually relatively small geographical areas where landscapes show large variation over small distances. Models of wildlife distribution based on coarse data over wide geographical ranges may not be representative of these interfaces. High‐resolution data can help identify fine‐scale predictors of wildlife habitat use at a local scale and provide more accurate predictions of species habitat use. These data may be used to inform knowledge of interface risks, such as disease transmission between wildlife and livestock, or human–wildlife conflict. This study uses fine‐scale habitat use data from wild boar (Sus scrofa) based on activity signs and direct field observations in and around the Forest of Dean in Gloucestershire, England. Spatial logistic regression models fitted using a variant of penalized quasi‐likelihood were used to identify habitat‐based and anthropogenic predictors of wild boar signs. Our models showed that within the Forest of Dean, wild boar signs were more likely to be seen in spring, in forest‐type habitats, closer to the center of the forest and near litter bins. In the area surrounding the Forest of Dean, wild boar signs were more likely to be seen in forest‐type habitats and near recreational parks and less likely to be seen near livestock. This approach shows that wild boar habitat use can be predicted using fine‐scale data over comparatively small areas and in human‐dominated landscapes, while taking account of the spatial correlation from other nearby fine‐scale data‐points. The methods we use could be applied to map habitat use of other wildlife species in similar landscapes, or of movement‐restricted, isolated, or fragmented wildlife populations.

Published

2022

34. Large-herbivore nemabiomes: patterns of parasite diversity and sharing.

Author

Titcomb, Georgia C., Pansu, Johan, Hutchinson, Matthew C., Tombak, Kaia J., Hansen, Christina B., Baker, Christopher C. M., Kartzinel, Tyler R., Young, Hillary S., and Pringle, Robert M.

Subjects

*PARASITES, *NEMATODES, *WILDLIFE conservation, *WILDLIFE management, *BODY size, *GENETIC barcoding

Abstract

Amidst global shifts in the distribution and abundance of wildlife and livestock, we have only a rudimentary understanding of ungulate parasite communities and parasite-sharing patterns. We used qPCR and DNA metabarcoding of fecal samples to characterize gastrointestinal nematode (Strongylida) community composition and sharing among 17 sympatric species of wild and domestic large mammalian herbivore in central Kenya. We tested a suite of hypothesis-driven predictions about the role of host traits and phylogenetic relatedness in describing parasite infections. Host species identity explained 27–53% of individual variation in parasite prevalence, richness, community composition and phylogenetic diversity. Host and parasite phylogenies were congruent, host gut morphology predicted parasite community composition and prevalence, and hosts with low evolutionary distinctiveness were centrally positioned in the parasite-sharing network. We found no evidence that host body size, social-group size or feeding height were correlated with parasite composition. Our results highlight the interwoven evolutionary and ecological histories of large herbivores and their gastrointestinal nematodes and suggest that host identity, phylogeny and gut architecture—a phylogenetically conserved trait related to parasite habitat—are the overriding influences on parasite communities. These findings have implications for wildlife management and conservation as wild herbivores are increasingly replaced by livestock. [ABSTRACT FROM AUTHOR]

Published

2022

35. Characterization and management of interaction risks between livestock and wild ungulates on outdoor pig farms in Spain.

Author

Jiménez-Ruiz, Saúl, Laguna, Eduardo, Vicente, Joaquín, García-Bocanegra, Ignacio, Martínez-Guijosa, Jordi, Cano-Terriza, David, Risalde, María A., and Acevedo, Pelayo

Subjects

WILD boar, AFRICAN swine fever, TUBERCULOSIS, SWINE, SWINE farms, UNGULATES, LIVESTOCK, WILDLIFE management, INTERNAL auditing

Abstract

Background: To control the transmission of relevant shared diseases, such as animal tuberculosis (TB) and African swine fever (ASF), it is essential to reduce the risk of interaction between livestock and wild ungulates. In Eastern and Central Europe, the current spread of ASF virus affecting wild boar and domestic pigs (especially those raised outdoors and/or in backyards) has devastated the pig sector in affected regions and is seriously threatening other exporting countries. Here, we evaluated the risk of wildlife-livestock interactions on 45 outdoor pig farms in Spain, the second largest pork producer in the EU and then proposed biosecurity-related actions. An integrated, systematic wildlife risk mitigation protocol based on interviews, questionnaires and field audits was developed and applied on each farm. Results: Most of the interaction risk points were associated with water sources (84.2%; 701/832), mainly springs and ponds, which accounted for almost all the specific points with high or very high risk scores. The risk of interaction at feeding points (6.9%; 57/832) and those associated with facilities for livestock and/or game management (8.9%; 74/832) were rated as low and very low risk, respectively. Wild boar were present and hunted on 69% of the farms. Supplementary feeding for wild ungulate species (mainly wild boar) was provided on almost half (48.9%; 22/45) the surveyed farms. Risk mitigation actions were categorised to target water access, waterers, food, other livestock species, grazing, wildlife, and offal disposal. Of the total number of actions (n = 2016), 82.7% were identified as priority actions while 17.3% represented alternative options which were identified less cost-effective. On average, 37.1 (median: 32; range 14–113) action proposals per study farm were made and 2.0 (median: 1; range 0–4) per risk point. The mean estimated cost of implementing the proposed priority actions was 14,780 €/farm (25.7 €/hectare and 799.4 €/risk point). Conclusions: This study expands the knowledge of interaction risks between domestic pigs and wild ungulates in outdoor pig farming systems and highlights the importance of considering local risks and management practices when designing and prioritising adapted wildlife risk mitigation and biosecurity actions. This practical and feasible protocol developed for Mediterranean ecosystems is easily transferable to professionals and can be adapted to extensive (outdoor) production or epidemiological systems in other European regions. [ABSTRACT FROM AUTHOR]

Published

2022

36. Phylodynamic analysis of an emergent Mycobacterium bovis outbreak in an area with no previously known wildlife infections.

Author

Rossi, Gianluigi, Crispell, Joseph, Brough, Tanis, Lycett, Samantha J., White, Piran C. L., Allen, Adrian, Ellis, Richard J., Gordon, Stephen V., Harwood, Roland, Palkopoulou, Eleftheria, Presho, Eleanor L., Skuce, Robin, Smith, Graham C., and Kao, Rowland R.

Subjects

*TUBERCULOSIS in cattle, *MYCOBACTERIUM bovis, *BADGERS, *NUCLEOTIDE sequencing, *BAYESIAN analysis, *DISEASE management, *EMERGING infectious diseases

Abstract

Understanding how emergent pathogens successfully establish themselves and persist in previously unaffected populations is a crucial problem in disease ecology, with important implications for disease management. In multi‐host pathogen systems this problem is particularly difficult, as the importance of each host species to transmission is often poorly characterised, and the disease epidemiology is complex. Opportunities to observe and analyse such emergent scenarios are few.Here, we exploit a unique dataset combining densely collected data on the epidemiological and evolutionary characteristics of an outbreak of Mycobacterium bovis (the causative agent of bovine tuberculosis, bTB) in a population of cattle and badgers in an area considered low risk for bTB, with no previous record of either persistent infection in cattle, or of any infection in wildlife. We analyse the outbreak dynamics using a combination of mathematical modelling, Bayesian evolutionary analyses and machine learning.Comparison to M. bovis whole‐genome sequences from Northern Ireland confirmed this to be a pathogen single introduction from the latter region, with evolutionary analysis supporting an introduction directly into the local cattle population 6 years prior to its first discovery in badgers.Once introduced, the evidence supports M. bovis epidemiological dynamics passing through two phases, the first dominated by cattle‐to‐cattle transmission before becoming established in the local badger population.Synthesis and applications. The Mycobacterium bovis emergent outbreak that was the object of this study was of considerable concern because of the geographical distance from previously known high‐risk areas. Initial decisions about the outbreak control were supported by the whole‐genome sequencing data. The further analyses described here were used to estimate the time of introduction (and therefore the likely magnitude of any hidden outbreak) and the rates of cross‐species transmission, and provided valuable confirmation that the extent and focus of the imposed controls were appropriate. Not only do these findings strengthen the call for genomic surveillance, but they also pave the path for future outbreaks control, providing insights for more rapid and decisive evidence‐based decision‐making. As the methods we used and developed are agnostic to the disease itself, they are also valuable for other slowly transmitting pathogens. [ABSTRACT FROM AUTHOR]

Published

2022

37. Molecular epidemiology of peste des petits ruminants virus emergence in critically endangered Mongolian saiga antelope and other wild ungulates.

Author

Benfield, Camilla T O, Hill, Sarah, Shatar, Munkduuren, Shiilegdamba, Enkhtuvshin, Damdinjav, Batchuluun, Fine, Amanda, Willett, Brian, Kock, Richard, and Bataille, Arnaud

Subjects

PESTE des petits ruminants, MOLECULAR epidemiology, UIGHUR (Turkic people), CHINESE people, ANTELOPES, UNGULATES, WILDLIFE conservation

Abstract

Peste des petits ruminants virus (PPRV) causes disease in domestic and wild ungulates, is the target of a Global Eradication Programme, and threatens biodiversity. Understanding the epidemiology and evolution of PPRV in wildlife is important but hampered by the paucity of wildlife-origin PPRV genomes. In this study, full PPRV genomes were generated from three Mongolian saiga antelope, one Siberian ibex, and one goitered gazelle from the 2016–2017 PPRV outbreak. Phylogenetic analysis showed that for Mongolian and Chinese PPRV since 2013, the wildlife and livestock-origin genomes were closely related and interspersed. There was strong phylogenetic support for a monophyletic group of PPRV from Mongolian wildlife and livestock, belonging to a clade of lineage IV PPRV from livestock and wildlife from China since 2013. Discrete diffusion analysis found strong support for PPRV spread into Mongolia from China, and phylogeographic analysis indicated Xinjiang Province as the most likely origin, although genomic surveillance for PPRV is poor and lack of sampling from other regions could bias this result. Times of most recent common ancestor (TMRCA) were June 2015 (95 per cent highest posterior density (HPD): August 2014 to March 2016) for all Mongolian PPRV genomes and May 2016 (95 per cent HPD: October 2015 to October 2016) for Mongolian wildlife-origin PPRV. This suggests that PPRV was circulating undetected in Mongolia for at least 6 months before the first reported outbreak in August 2016 and that wildlife were likely infected before livestock vaccination began in October 2016. Finally, genetic variation and positively selected sites were identified that might be related to PPRV emergence in Mongolian wildlife. This study is the first to sequence multiple PPRV genomes from a wildlife outbreak, across several host species. Additional full PPRV genomes and associated metadata from the livestock–wildlife interface are needed to enhance the power of molecular epidemiology, support PPRV eradication, and safeguard the health of the whole ungulate community. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

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

Subjects

Saiga tatarica mongolica, outbreak, wildlife–livestock interface, small ruminant morbillivirus, spillover, conservation impact, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

The 2016–2017 introduction of peste des petits ruminants virus (PPRV) into livestock in Mongolia was followed by mass mortality of the critically endangered Mongolian saiga antelope and other rare wild ungulates. To assess the nature and population effects of this outbreak among wild ungulates, we collected clinical, histopathologic, epidemiologic, and ecological evidence. Molecular characterization confirmed that the causative agent was PPRV lineage IV. The spatiotemporal patterns of cases among wildlife were similar to those among livestock affected by the PPRV outbreak, suggesting spillover of virus from livestock at multiple locations and time points and subsequent spread among wild ungulates. Estimates of saiga abundance suggested a population decline of 80%, raising substantial concerns for the species’ survival. Consideration of the entire ungulate community (wild and domestic) is essential for elucidating the epidemiology of PPRV in Mongolia, addressing the threats to wild ungulate conservation, and achieving global PPRV eradication.

Published

2020

39. Temporal Dynamics of Anaplasma marginale Infections and the Composition of Anaplasma spp. in Calves in the Mnisi Communal Area, Mpumalanga, South Africa

Author

S. Marcus Makgabo, Kelly A. Brayton, Louise Biggs, Marinda C. Oosthuizen, and Nicola E. Collins

Subjects

Anaplasma marginale, msp1α gene, wildlife–livestock interface, genotyping, tick-borne diseases, detection, Biology (General), QH301-705.5

Abstract

Bovine anaplasmosis, caused by Anaplasma marginale, is one of the most important tick-borne diseases of cattle. Anaplasma marginale is known to be present in the Mnisi community, Mpumalanga Province, with frequent cases of anaplasmosis reported. This study investigated the infection dynamics in calves (n = 10) in two habitats in the study area over 12 months. A duplex real-time PCR assay targeting the msp1β gene of A. marginale and the groEL gene of A. centrale confirmed the presence of A. marginale in five calves in a peri-urban area from the first month, but in only two calves at the wildlife–livestock interface and only after six months. These results were confirmed by 16S rRNA microbiome analysis. Over 50 A. marginale msp1α genotypes were detected in the calves along with five novel Msp1a repeats. Calves in the peri-urban area were more likely to be infected with A. marginale than calves in the wildlife–livestock interface. Cattle management, acaricide treatment, and cattle density could explain differences in infection prevalence in the two areas. Our results revealed that most calves were superinfected by distinct A. marginale strains within the study period, indicating continuous challenge with multiple strains that should lead to robust immunity in the calves and endemic stability in the area.

Published

2023

40. Natural history of a bighorn sheep pneumonia epizootic: Source of infection, course of disease, and pathogen clearance.

Author

Besser, Thomas E., Cassirer, E. Frances, Lisk, Amy, Nelson, Danielle, Manlove, Kezia R., Cross, Paul C., and Hogg, John T.

Subjects

*BIGHORN sheep, *SHEEP, *DISEASE progression, *LAMBS, *BISON, *INFECTIOUS disease transmission

Abstract

A respiratory disease epizootic at the National Bison Range (NBR) in Montana in 2016–2017 caused an 85% decline in the bighorn sheep population, documented by observations of its unmarked but individually identifiable members, the subjects of an ongoing long‐term study. The index case was likely one of a small group of young bighorn sheep on a short‐term exploratory foray in early summer of 2016. Disease subsequently spread through the population, with peak mortality in September and October and continuing signs of respiratory disease and sporadic mortality of all age classes through early July 2017. Body condition scores and clinical signs suggested that the disease affected ewe groups before rams, although by the end of the epizootic, ram mortality (90% of 71) exceeded ewe mortality (79% of 84). Microbiological sampling 10 years to 3 months prior to the epizootic had documented no evidence of infection or exposure to Mycoplasma ovipneumoniae at NBR, but during the epizootic, a single genetic strain of M. ovipneumoniae was detected in affected animals. Retrospective screening of domestic sheep flocks near the NBR identified the same genetic strain in one flock, presumptively the source of the epizootic infection. Evidence of fatal lamb pneumonia was observed during the first two lambing seasons following the epizootic but was absent during the third season following the death of the last identified M. ovipneumoniae carrier ewe. Monitoring of life‐history traits prior to the epizootic provided no evidence that environmentally and/or demographically induced nutritional or other stress contributed to the epizootic. Furthermore, the epizootic occurred despite proactive management actions undertaken to reduce risk of disease and increase resilience in this population. This closely observed bighorn sheep epizootic uniquely illustrates the natural history of the disease including the (presumptive) source of spillover, course, severity, and eventual pathogen clearance. [ABSTRACT FROM AUTHOR]

Published

2021

41. Prevalence of Trypanosome Species in Cattle Near Ruma National Park, Lambwe Valley, Kenya: An Update From the Historical Focus for African Trypanosomosis

Author

Shewit Kalayou, Michael Nyang'anga Okal, Peter Otieno Odhiambo, Kawira Mathenge, Daniel Ochieng Gamba, Edward Kariuki, Francis McOdimba, and Daniel Masiga

Subjects

bovine trypanosomosis, T. brucei subgroup, T. congolense savannah, T. vivax, wildlife-livestock interface, Lambwe valley, Veterinary medicine, SF600-1100

Abstract

The effective control of diseases in areas shared with wildlife depends on the validity of the epidemiologic parameters that guide interventions. Epidemiologic data on animal trypanosomosis in Lambwe valley are decades old, and the recent suspected outbreaks of the disease in the valley necessitate the urgent bridging of this data gap. This cross-sectional study estimated the prevalence of bovine trypanosomosis, identified risk factors, and investigated the occurrence of species with zoonotic potential in Lambwe valley. The area is ~324 km2, of which 120 km2 is the Ruma National Park. Blood was sampled from the jugular and marginal ear veins of 952 zebu cattle between December 2018 and February 2019 and tested for trypanosomes using the Buffy Coat Technique (BCT) and PCR-High-Resolution Melting (HRM) analysis of the 18S RNA locus. Risk factors for the disease were determined using logistic regression. The overall trypanosome prevalence was 11.0% by BCT [95% confidence interval (CI): 9.0–13.0] and 27.9% by PCR-HRM (95% CI: 25.1–30.8). With PCR-HRM as a reference, four species of trypanosomes were detected at prevalences of 12.7% for T. congolense savannah (95% CI: 10.6–14.8), 7.7% for T. brucei brucei (CI: 6.0–9.4), 8.7% for T. vivax (CI: 6.9–10.5), and 1.3% for T. theileri (CI: 0.6–2.0). About 2.4% of cattle had mixed infections (CI: 1.4–3.41). No human-infective trypanosomes were found. Infections clustered across villages but were not associated with animal age, sex, herd size, and distance from the park. Approximately 85% of infections occurred within 2 km of the park. These findings add to evidence that previous interventions eliminated human trypanosomosis but not bovine trypanosomosis. Risk-tailored intervention within 2 km of Ruma Park, especially in the north and south ends, coupled with stringent screening with molecular tools, could significantly reduce bovine trypanosomosis.

Published

2021

42. Endemic occurrence of Fasciola hepatica in an alpine ecosystem, Pyrenees, Northeastern Spain.

Author

Roldán, Claudia, Begovoeva, Mattia, López‐Olvera, Jorge Ramón, Velarde, Roser, Cabezón, Óscar, Molinar Min, Anna Rita, Pizzato, Federica, Pasquetti, Mario, Fernández Aguilar, Xavier, Mentaberre, Gregorio, Serrano, Emmanuel, Puig Ribas, Maria, Espunyes, Johan, Castillo‐Contreras, Raquel, Estruch, Josep, and Rossi, Luca

Subjects

*FASCIOLA hepatica, *MOUFLON, *SHEEP, *CATTLE, *FRESHWATER snails, *PATHOLOGICAL physiology, *MOUNTAIN ecology

Abstract

Fasciola hepatica is a liver parasite of ruminants whose distribution is determined by its intermediate host, the freshwater snail Galba truncatula. In Europe, F. hepatica is mostly associated with lowlands. Infection from sympatric domestic reservoirs is rarely reported in wild mountain ungulates. This study explores F. hepatica in a multi‐host system in a European alpine area. Serum samples (n = 1,209) from Pyrenean chamois (Rupicapra p. pyrenaica), European mouflon (Ovis aries musimon), domestic sheep (Ovis aries) and domestic cattle (Bos taurus) were collected in the National Game Reserve of Freser‐Setcases (NGRFS) in Catalonia, Northeastern Spain, from 2008 to 2019, and tested for antibodies against F. hepatica. During the same period, the livers of 214 chamois hunted in the NGRFS were inspected for F. hepatica and associated pathological changes. Finally, 907 freshwater snails were collected in summer 2016 between 1559 and 2,224 metres above sea level (asl) in the NGRFS, and F. hepatica DNA sought by PCR. Antibodies against F. hepatica were detected in all four species, with a higher prevalence in cattle and sheep than in chamois. Fasciola hepatica and hepatic lesions were concurrently observed in 13/214 of the chamois livers inspected (6.1%, CI95 2.9%–9.3%). Fasciola hepatica DNA was detected in one out of the 907 snails (0.1%, Cl95 0.1% – 0.3%; Ct value 33.3) and collected at 2054 m asl. Fasciola hepatica was consistently detected in a high mountain multi‐host system, suggesting that its life cycle is completed and that it occurs endemically at the highest elevation reported in Europe. Transhumant livestock are the likely source in this alpine ecosystem, which according to rare occurrence of F. hepatica DNA in G. truncatula is still a suboptimal habitat for F. hepatica life cycle. Studying parasites at their highest distribution range can be useful to monitor climate change in seasonal mountain environments. [ABSTRACT FROM AUTHOR]

Published

2021

43. Quantifying microbe transmission networks for wild and domestic ungulates in Kenya

Author

VanderWaal, Kimberly L, Atwill, Edward R, Isbell, Lynne A, and McCowan, Brenda

Subjects

Environmental Sciences, Biological Sciences, Ecology, Genetics, 2.2 Factors relating to the physical environment, Aetiology, Infection, Wildlife-livestock interface, Wildlife disease, Cattle, Pathogen transmission, Social network analysis, Interspecific transmission, Super-spreaders, Microbial genetics, Genotyping, Agricultural and Veterinary Sciences, Zoology, Environmental management

Abstract

Multi-host wildlife pathogens are an increasing concern for both wildlife conservation and livestock husbandry. Here, we combined social network theory with microbial genetics to assess patterns of interspecific pathogen transmission among ten species of wild and domestic ungulates in Kenya. If two individuals shared the same genetic subtype of a genetically diverse microbe, Escherichia coli, then we inferred that these individuals were part of the same transmission chain. Individuals in the same transmission chain were interlinked to create a transmission network. Given interspecific variation in physiology and behavior, some species may function as "super-spreaders" if individuals of that species are consistently central in the transmission network. Pathogen management strategies targeted at key super-spreader species are theoretically more effective at limiting pathogen spread than conventional strategies, and our approach provides a means to identify candidate super-spreaders in wild populations. We found that Grant's gazelle (Gazella granti) typically occupied central network positions and were connected to a large number of other individuals in the network. Zebra (Equus burchelli), in contrast, seemed to function as bridges between regions of the network that would otherwise be poorly connected, and interventions targeted at zebra significantly increased the level of fragmentation in the network. Although not usually pathogenic, E. coli transmission pathways provide insight into transmission dynamics by demonstrating where contact between species is sufficient for transmission to occur and identifying species that are potential super-spreaders. © 2013 Elsevier Ltd.

Published

2014

44. Interspecific visitation of cattle and badgers to fomites: A transmission risk for bovine tuberculosis?

Author

Emma L. Campbell, Andrew W. Byrne, Fraser D. Menzies, Kathryn R. McBride, Carl M. McCormick, Michael Scantlebury, and Neil Reid

Subjects

camera trapping, disease ecology, Meles meles, Mycobacterium bovis, surveillance, wildlife–livestock interface, Ecology, QH540-549.5

Abstract

Abstract In Great Britain and Ireland, badgers (Meles meles) are a wildlife reservoir of Mycobacterium bovis and implicated in bovine tuberculosis transmission to domestic cattle. The route of disease transmission is unknown with direct, so‐called “nose‐to‐nose,” contact between hosts being extremely rare. Camera traps were deployed for 64,464 hr on 34 farms to quantify cattle and badger visitation rates in space and time at six farm locations. Badger presence never coincided with cattle presence at the same time, with badger and cattle detection at the same location but at different times being negatively correlated. Badgers were never recorded within farmyards during the present study. Badgers utilized cattle water troughs in fields, but detections were infrequent (equivalent to one badger observed drinking every 87 days). Cattle presence at badger‐associated locations, for example, setts and latrines, were three times more frequent than badger presence at cattle‐associated locations, for example, water troughs. Preventing cattle access to badger setts and latrines and restricting badger access to cattle water troughs may potentially reduce interspecific bTB transmission through reduced indirect contact.

Published

2019

45. OCCURRENCE OF FOOTROT IN FREE-RANGING ALPINE IBEX (CAPRA IBEX) COLONIES IN SWITZERLAND.

Author

Moore-Jones, Gaia, Dürr, Salome, Willisch, Christian, and Ryser-Degiorgis, Marie-Pierre

Abstract

Footrot is a worldwide economically important, debilitating disease caused by Dichelobacter nodosus. In sheep (Ovis aries), it is characterized by lesions of varying severity, depending on the strain, whereas Alpine ibex (Capra ibex) seem to develop severe lesions, whatever the strain. Healthy carriers occur in livestock but are rare in wild ruminants. Using a triangulation approach (retrospective questionnaire survey, necropsy database screening, and pathogen prevalence estimation in selected ibex colonies with and without footrot), we aimed at evaluating the importance of footrot in the ibex population, identifying potential risk factors for disease occurrence in this species, and defining the epidemiological role of ibex. Our study revealed that footrot occurs throughout the entire ibex territory (34% of the Swiss ibex colonies affected) but only as a sporadic disease (mostly one case per disease event), although the situation differed among footrot-positive colonies because half of them had experienced outbreak recurrences. Risk factor analysis for the occurrence of footrot in ibex colonies suggested an absence of an effect of meteorologic conditions, region, contacts with sheep or cattle (known to be very common healthy carriers of D. nodosus) and existing local disease control program. We found a significant effect only of contacts with sheep having footrot. Pathogen prevalence was very low in all investigated colonies. In conclusion, our results support previous data suggesting that ibex are susceptible spillover hosts, likely infected mainly by sympatric sheep displaying clinical signs. [ABSTRACT FROM AUTHOR]

Published

2021

46. Genetic Relationship Between Hard Ticks (Ixodidae) Infesting Cattle from Select Areas of a Wildlife–Livestock Interface Ecosystem at Mikumi National Park, Tanzania.

Author

Damian, Donath, Damas, Modester, Wensman, Jonas Johansson, and Berg, Mikael

Abstract

Background: There has recently been a substantial increase in the number of tick species and tick-borne infectious agents in Tanzania. Owing to their impact on human, livestock, and wild animal health, increased knowledge of ticks is needed. So far, no published data on the genetic relationship between hard tick (Ixodidae) sequences collected from cattle are available in Tanzania. Methods: Ticks from cattle in the wards, which lie at the border of Mikumi National Park, were collected in the dry season, November to December 2019. Morphological identification of ticks was initially performed at the genus level. To identify ticks at the species level, molecular analysis based on the 16S rRNA gene was performed. Evolutionary relationships and genetic distances between ticks were determined using MaximumLikelihood and Kimura 2-parameter methods, respectively. Results: Based on morphology, two genera (Rhipicephalus and Hyalomma) were identified in the 630 adult ticks collected from a total of 252 cattle. Six species (Rhipicephalus microplus, Rhipicephalus evertsi, Hyalomma marginatum, Hyalomma rufipes, Hyalomma truncatum, and Hyalomma turanicum) were confirmed by BLASTn and phylogenetic analyses. Considerable mean and pairwise genetic distances were observed for Rhipicephalus and Hyalomma genera. Conclusion: The presence of different phylogenetic clusters and considerable mean and pairwise genetic distances observed reflect possible biological diversity of hard ticks present in the study area. Considering the value of the cattle in the livelihoods and economies of people and the country, the outcomes of this study will be useful in planning integrated control strategies for ticks and tick-borne diseases in Tanzania. [ABSTRACT FROM AUTHOR]

Published

2021

47. Molecular Diversity of Hard Tick Species from Selected Areas of a Wildlife-Livestock Interface Ecosystem at Mikumi National Park, Morogoro Region, Tanzania.

Author

Damian, Donath, Damas, Modester, Wensman, Jonas Johansson, and Berg, Mikael

Subjects

TICKS, ARTHROPOD vectors, ANIMAL health, WILDLIFE-livestock relationships, RIBOSOMAL RNA

Abstract

Ticks are one of the most important arthropod vectors and reservoirs as they harbor a wide variety of viruses, bacteria, fungi, protozoa, and nematodes, which can cause diseases in human and livestock. Due to their impact on human, livestock, and wild animal health, increased knowledge of ticks is needed. So far, the published data on the molecular diversity between hard ticks species collected in Tanzania is scarce. The objective of this study was to determine the genetic diversity between hard tick species collected in the wildlife-livestock interface ecosystem at Mikumi National Park, Tanzania using the mitochondrion 16S rRNA gene sequences. Adult ticks were collected from cattle (632 ticks), goats (187 ticks), and environment (28 ticks) in the wards which lie at the border of Mikumi National Park. Morphological identification of ticks was performed to genus level. To identify ticks to species level, molecular analysis based on mitochondrion 16S rRNA gene was performed. Ticks representing the two genera (Hyalomma and Rhipicephalus) were identified using morphological characters. Six species were confirmed based on mitochondrion 16S rRNA gene, including Rhipicephalus microplus, Rhipicephalus evertsi, Hyalomma rufipes, Hyalomma truncatum, Hyalomma marginatum, and Hhyalomma turanicum. The presence of different clusters of tick species reflects the possible biological diversity of the hard ticks present in the study region. Further studies are however required to quantify species of hard ticks present in the study region and the country in general over a larger scale. [ABSTRACT FROM AUTHOR]

Published

2021

48. A Review of Pathogen Transmission at the Backyard Chicken–Wild Bird Interface

Author

Andrea J. Ayala, Michael J. Yabsley, and Sonia M. Hernandez

Subjects

backyard chickens, wild birds, pathogen transmission, wildlife-livestock interface, emerging disease, Veterinary medicine, SF600-1100

Abstract

Habitat conversion and the expansion of domesticated, invasive species into native habitats are increasingly recognized as drivers of pathogen emergence at the agricultural–wildlife interface. Poultry agriculture is one of the largest subsets of this interface, and pathogen spillover events between backyard chickens and wild birds are becoming more commonly reported. Native wild bird species are under numerous anthropogenic pressures, but the risks of pathogen spillover from domestic chickens have been historically underappreciated as a threat to wild birds. Now that the backyard chicken industry is one of the fastest growing industries in the world, it is imperative that the principles of biosecurity, specifically bioexclusion and biocontainment, are legislated and implemented. We reviewed the literature on spillover events of pathogens historically associated with poultry into wild birds. We also reviewed the reasons for biosecurity failures in backyard flocks that lead to those spillover events and provide recommendations for current and future backyard flock owners.

Published

2020

49. Eradication of Peste des Petits Ruminants Virus and the Wildlife-Livestock Interface

Author

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

Subjects

wildlife-livestock interface, peste des petits ruminants, small ruminant morbillivirus, global eradication, integrated management, wildlife conservation, Veterinary medicine, SF600-1100

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

50. Sero-Epidemiological Study of Selected Zoonotic and Abortifacient Pathogens in Cattle at a Wildlife-Livestock Interface in South Africa.

Author

Adesiyun, Abiodun A., Knobel, Darryn L., Thompson, Peter N., Wentzel, Jeanette, Kolo, Francis B., Kolo, Agatha O., Conan, Anne, and Simpson, Gregory J.G.

Subjects

*COXIELLA burnetii, *NEOSPORA caninum, *RIFT Valley fever, *CATTLE, *INTRACLASS correlation, *ENZYME-linked immunosorbent assay, *MIXED infections

Abstract

A cross sectional sero-epidemiological study was conducted on cattle in a communal farming area adjacent to Kruger National Park at a wildlife-livestock interface in South Africa. A total of 184 cattle were screened for exposure to 5 abortifacient or zoonotic pathogens, namely Coxiella burnetii, Toxoplasma gondii, Chlamydophila abortus, Neospora caninum, and Rift Valley fever virus (RVFV) using enzyme-linked immunosorbent assays. In addition, the virus neutralization test was used to confirm the presence of antibodies to RVFV. The seroprevalence of C. burnetii, T. gondii, C. abortus, N. caninum, and RVFV antibodies was 38.0%, 32.6%, 20.7%, 1.6%, and 0.5%, respectively, and varied between locations (p < 0.001). Seroprevalence of C. burnetii and T. gondii was highly clustered by location (intraclass correlation coefficient [ICC] = 0.57), and that of C. abortus moderately so (ICC = 0.11). Seroprevalence was not associated with sex or age for any pathogen, except for C. abortus, for which seroprevalence was positively associated with age (p = 0.01). The predominant mixed infections were C. burnetii and T. gondii (15.2%) and C. burnetii, T. gondii, and C. abortus (13.0%). The serological detection of the five abortifacient pathogens in cattle indicates the potential for economic losses to livestock farmers, health impacts to domestic animals, transmission across the livestock-wildlife interface, and the risk of zoonotic transmission. This is the first documentation of T. gondii infection in cattle in South Africa, while exposure to C. burnetii, C. abortus, and N. caninum infections is being reported for the first time in cattle in a wildlife-livestock interface in the country. [ABSTRACT FROM AUTHOR]

Published

2020