Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects

Department of Veterinary and Animal Sciences

Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects. / Stelder, Jonno Jorn; Olesen, Ann Sofie; Belsham, Graham J. J.; Rasmussen, Thomas Bruun; Botner, Anette; Kjaer, Lene Jung; Boklund, Anette Ella; Bodker, Rene.

In: Transboundary and Emerging Diseases, Vol. 2023, 8787621, 2023.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Stelder, JJ, Olesen, AS, Belsham, GJJ, Rasmussen, TB, Botner, A, Kjaer, LJ, Boklund, AE & Bodker, R 2023, 'Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects', Transboundary and Emerging Diseases, vol. 2023, 8787621. https://doi.org/10.1155/2023/8787621

APA

Stelder, J. J., Olesen, A. S., Belsham, G. J. J., Rasmussen, T. B., Botner, A., Kjaer, L. J., Boklund, A. E., & Bodker, R. (2023). Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects. Transboundary and Emerging Diseases, 2023, [8787621]. https://doi.org/10.1155/2023/8787621

Vancouver

Stelder JJ, Olesen AS, Belsham GJJ, Rasmussen TB, Botner A, Kjaer LJ et al. Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects. Transboundary and Emerging Diseases. 2023;2023. 8787621. https://doi.org/10.1155/2023/8787621

Author

Stelder, Jonno Jorn ; Olesen, Ann Sofie ; Belsham, Graham J. J. ; Rasmussen, Thomas Bruun ; Botner, Anette ; Kjaer, Lene Jung ; Boklund, Anette Ella ; Bodker, Rene. / Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects. In: Transboundary and Emerging Diseases. 2023 ; Vol. 2023.

Bibtex

@article{dbc7c8032a6e4e4facac7a81043e2af9,

title = "Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects",

abstract = "Background. DNA of African swine fever virus (ASFV) has previously been detected in hematophagous insects on ASF outbreak farms. However, it remains unclear whether the viral DNA derived from blood meals that originated from pigs on the outbreak farm or was introduced from infected domestic pigs or wild boar sources located outside of the outbreak farm. Methods. We caught 644 hematophagous insects on the windows at two non-outbreak high-biosecurity pig farms (i.e., without ASFV-infected pigs) using plastic meshes coated with sticky glue, as well as 3576 hematophagous insects using H-traps on or around the farms. Using PCR analyses, we identified which insects were present, whether these hematophagous insects carried blood from an external (exogenous) source and if the blood contained ASFV DNA. Results. We found blood meals with ASFV DNA in one pool of five Haematopota spp. in the H-traps. From the window traps, we found 0-2.7% of Haematopota spp., Stomoxys calcitrans, and Aedes spp. carrying blood meals from exogenous sources into the farms. Some insects carried bovine blood; the closest registered source for this was 2500m from the pig farm. Conclusion. Hematophagous insects carrying ASFV-positive blood meals or blood meals from exogenous sources seem to be attracted to high-biosecurity pig farms and attempt to enter them through their windows. Despite the small percentage of insects carrying blood and the small amounts carried by each insect, the large numbers of insects result in a sufficient volume of exogenous blood, potentially containing ASFV, to constitute a non-negligible risk for ASFV-introduction into unprotected pig stables. This study is the first to provide quantitative data on the number of hematophagous insects trying to enter high-biosecurity pig farms. It is also the first to provide information about the origin of their blood meals, indicating that insect-borne introduction of blood containing ASFV into high-biosecurity pig farms is possible and, therefore, could potentially be responsible for some of the outbreaks observed during the summer peaks of infection.",

keywords = "BLOOD MEAL SIZE, DIRECT-CONTACT, AEDES-AEGYPTI, HOST-SEEKING, TRANSMISSION, DIPTERA, TABANIDAE, FLIES",

author = "Stelder, {Jonno Jorn} and Olesen, {Ann Sofie} and Belsham, {Graham J. J.} and Rasmussen, {Thomas Bruun} and Anette Botner and Kjaer, {Lene Jung} and Boklund, {Anette Ella} and Rene Bodker",

year = "2023",

doi = "10.1155/2023/8787621",

language = "English",

volume = "2023",

journal = "Transboundary and Emerging Diseases",

issn = "1865-1674",

publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Potential for Introduction of African Swine Fever Virus into High-Biosecurity Pig Farms by Flying Hematophagous Insects

AU - Stelder, Jonno Jorn

AU - Olesen, Ann Sofie

AU - Belsham, Graham J. J.

AU - Rasmussen, Thomas Bruun

AU - Botner, Anette

AU - Kjaer, Lene Jung

AU - Boklund, Anette Ella

AU - Bodker, Rene

PY - 2023

Y1 - 2023

N2 - Background. DNA of African swine fever virus (ASFV) has previously been detected in hematophagous insects on ASF outbreak farms. However, it remains unclear whether the viral DNA derived from blood meals that originated from pigs on the outbreak farm or was introduced from infected domestic pigs or wild boar sources located outside of the outbreak farm. Methods. We caught 644 hematophagous insects on the windows at two non-outbreak high-biosecurity pig farms (i.e., without ASFV-infected pigs) using plastic meshes coated with sticky glue, as well as 3576 hematophagous insects using H-traps on or around the farms. Using PCR analyses, we identified which insects were present, whether these hematophagous insects carried blood from an external (exogenous) source and if the blood contained ASFV DNA. Results. We found blood meals with ASFV DNA in one pool of five Haematopota spp. in the H-traps. From the window traps, we found 0-2.7% of Haematopota spp., Stomoxys calcitrans, and Aedes spp. carrying blood meals from exogenous sources into the farms. Some insects carried bovine blood; the closest registered source for this was 2500m from the pig farm. Conclusion. Hematophagous insects carrying ASFV-positive blood meals or blood meals from exogenous sources seem to be attracted to high-biosecurity pig farms and attempt to enter them through their windows. Despite the small percentage of insects carrying blood and the small amounts carried by each insect, the large numbers of insects result in a sufficient volume of exogenous blood, potentially containing ASFV, to constitute a non-negligible risk for ASFV-introduction into unprotected pig stables. This study is the first to provide quantitative data on the number of hematophagous insects trying to enter high-biosecurity pig farms. It is also the first to provide information about the origin of their blood meals, indicating that insect-borne introduction of blood containing ASFV into high-biosecurity pig farms is possible and, therefore, could potentially be responsible for some of the outbreaks observed during the summer peaks of infection.

AB - Background. DNA of African swine fever virus (ASFV) has previously been detected in hematophagous insects on ASF outbreak farms. However, it remains unclear whether the viral DNA derived from blood meals that originated from pigs on the outbreak farm or was introduced from infected domestic pigs or wild boar sources located outside of the outbreak farm. Methods. We caught 644 hematophagous insects on the windows at two non-outbreak high-biosecurity pig farms (i.e., without ASFV-infected pigs) using plastic meshes coated with sticky glue, as well as 3576 hematophagous insects using H-traps on or around the farms. Using PCR analyses, we identified which insects were present, whether these hematophagous insects carried blood from an external (exogenous) source and if the blood contained ASFV DNA. Results. We found blood meals with ASFV DNA in one pool of five Haematopota spp. in the H-traps. From the window traps, we found 0-2.7% of Haematopota spp., Stomoxys calcitrans, and Aedes spp. carrying blood meals from exogenous sources into the farms. Some insects carried bovine blood; the closest registered source for this was 2500m from the pig farm. Conclusion. Hematophagous insects carrying ASFV-positive blood meals or blood meals from exogenous sources seem to be attracted to high-biosecurity pig farms and attempt to enter them through their windows. Despite the small percentage of insects carrying blood and the small amounts carried by each insect, the large numbers of insects result in a sufficient volume of exogenous blood, potentially containing ASFV, to constitute a non-negligible risk for ASFV-introduction into unprotected pig stables. This study is the first to provide quantitative data on the number of hematophagous insects trying to enter high-biosecurity pig farms. It is also the first to provide information about the origin of their blood meals, indicating that insect-borne introduction of blood containing ASFV into high-biosecurity pig farms is possible and, therefore, could potentially be responsible for some of the outbreaks observed during the summer peaks of infection.

KW - BLOOD MEAL SIZE

KW - DIRECT-CONTACT

KW - AEDES-AEGYPTI

KW - HOST-SEEKING

KW - TRANSMISSION

KW - DIPTERA

KW - TABANIDAE

KW - FLIES

U2 - 10.1155/2023/8787621

DO - 10.1155/2023/8787621

M3 - Journal article

VL - 2023

JO - Transboundary and Emerging Diseases

JF - Transboundary and Emerging Diseases

SN - 1865-1674

M1 - 8787621

ER -

ID: 346260938