Simulation of transmission and persistence of African swine fever in wild boar in Denmark

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Standard

Simulation of transmission and persistence of African swine fever in wild boar in Denmark. / Halasa, Tariq; Boklund, Anette; Bøtner, Anette; Mortensen, Sten; Kjær, Lene Jung.

I: Preventive Veterinary Medicine, Bind 167, 2019, s. 68 - 79.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Halasa, T, Boklund, A, Bøtner, A, Mortensen, S & Kjær, LJ 2019, 'Simulation of transmission and persistence of African swine fever in wild boar in Denmark', Preventive Veterinary Medicine, bind 167, s. 68 - 79. https://doi.org/10.1016/j.prevetmed.2019.03.028

APA

Halasa, T., Boklund, A., Bøtner, A., Mortensen, S., & Kjær, L. J. (2019). Simulation of transmission and persistence of African swine fever in wild boar in Denmark. Preventive Veterinary Medicine, 167, 68 - 79. https://doi.org/10.1016/j.prevetmed.2019.03.028

Vancouver

Halasa T, Boklund A, Bøtner A, Mortensen S, Kjær LJ. Simulation of transmission and persistence of African swine fever in wild boar in Denmark. Preventive Veterinary Medicine. 2019;167:68 - 79. https://doi.org/10.1016/j.prevetmed.2019.03.028

Author

Halasa, Tariq ; Boklund, Anette ; Bøtner, Anette ; Mortensen, Sten ; Kjær, Lene Jung. / Simulation of transmission and persistence of African swine fever in wild boar in Denmark. I: Preventive Veterinary Medicine. 2019 ; Bind 167. s. 68 - 79.

Bibtex

@article{47b1f6d7525e4a59bc06bfbe8fcd8ea6,
title = "Simulation of transmission and persistence of African swine fever in wild boar in Denmark",
abstract = "African swine fever (ASF) is caused by ASF virus (ASFV) and is currently circulating in the eastern part of Europe posing a serious risk regarding transmission to western European countries. Wild boar is a main driver of the transmission and persistence of ASFV in the endemic infected countries in Europe. Some European countries free from ASF, such as Denmark and the Netherlands, have limited population sizes of wild boar, but have large swine productions. In these countries, the patterns of transmission and persistence of ASFV in the existing wild boar population, in case of introduction of ASFV, are unknown. It is important to get a better understanding of ASFV in these wild boar populations, in order to better manage the existing wild boar population and thereby minimize the risk of virus introduction and transmission to domestic pigs, in case of an ASFV incursion. We created an agent-based spatio-temporal model and simulated the transmission of ASFV within Danish wild boar populations, using actual landscape data. The model was run with 50 and 100 wild boar groups used as initial population sizes, respectively, either distributed across the southern part of the mainland (Jutland) or across both the southern and middle parts of Jutland, where wild boar groups are believed to exist. At first, the model was run without ASFV for 25 years to assess wild boar population dynamics in both regions. Thereafter, ASFV was added to the model 1 year after initiation and run for up to another 4 years. The model predicted that wild boar populations may increase drastically over the next 25 years, if wild boar groups were distributed across both southern and middle Jutland and no mitigation actions were taken, while the population sizes will be restricted, if groups were distributed only across the southern part of Jutland. The density of the population is an important factor affecting the transmission and persistency of the disease. Model results indicated that ASF epidemics in the simulated populations would generally persist for few months. However, due to the high stochasticity of the process, in certain situations the epidemics may last for more than one year, posing a serious risk of ASFV introduction to domestic pigs.",
keywords = "Simulation model, African swine fever, Transmission, Persistence, Wild boar",
author = "Tariq Halasa and Anette Boklund and Anette B{\o}tner and Sten Mortensen and Kj{\ae}r, {Lene Jung}",
year = "2019",
doi = "10.1016/j.prevetmed.2019.03.028",
language = "English",
volume = "167",
pages = "68 -- 79",
journal = "Preventive Veterinary Medicine",
issn = "0167-5877",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Simulation of transmission and persistence of African swine fever in wild boar in Denmark

AU - Halasa, Tariq

AU - Boklund, Anette

AU - Bøtner, Anette

AU - Mortensen, Sten

AU - Kjær, Lene Jung

PY - 2019

Y1 - 2019

N2 - African swine fever (ASF) is caused by ASF virus (ASFV) and is currently circulating in the eastern part of Europe posing a serious risk regarding transmission to western European countries. Wild boar is a main driver of the transmission and persistence of ASFV in the endemic infected countries in Europe. Some European countries free from ASF, such as Denmark and the Netherlands, have limited population sizes of wild boar, but have large swine productions. In these countries, the patterns of transmission and persistence of ASFV in the existing wild boar population, in case of introduction of ASFV, are unknown. It is important to get a better understanding of ASFV in these wild boar populations, in order to better manage the existing wild boar population and thereby minimize the risk of virus introduction and transmission to domestic pigs, in case of an ASFV incursion. We created an agent-based spatio-temporal model and simulated the transmission of ASFV within Danish wild boar populations, using actual landscape data. The model was run with 50 and 100 wild boar groups used as initial population sizes, respectively, either distributed across the southern part of the mainland (Jutland) or across both the southern and middle parts of Jutland, where wild boar groups are believed to exist. At first, the model was run without ASFV for 25 years to assess wild boar population dynamics in both regions. Thereafter, ASFV was added to the model 1 year after initiation and run for up to another 4 years. The model predicted that wild boar populations may increase drastically over the next 25 years, if wild boar groups were distributed across both southern and middle Jutland and no mitigation actions were taken, while the population sizes will be restricted, if groups were distributed only across the southern part of Jutland. The density of the population is an important factor affecting the transmission and persistency of the disease. Model results indicated that ASF epidemics in the simulated populations would generally persist for few months. However, due to the high stochasticity of the process, in certain situations the epidemics may last for more than one year, posing a serious risk of ASFV introduction to domestic pigs.

AB - African swine fever (ASF) is caused by ASF virus (ASFV) and is currently circulating in the eastern part of Europe posing a serious risk regarding transmission to western European countries. Wild boar is a main driver of the transmission and persistence of ASFV in the endemic infected countries in Europe. Some European countries free from ASF, such as Denmark and the Netherlands, have limited population sizes of wild boar, but have large swine productions. In these countries, the patterns of transmission and persistence of ASFV in the existing wild boar population, in case of introduction of ASFV, are unknown. It is important to get a better understanding of ASFV in these wild boar populations, in order to better manage the existing wild boar population and thereby minimize the risk of virus introduction and transmission to domestic pigs, in case of an ASFV incursion. We created an agent-based spatio-temporal model and simulated the transmission of ASFV within Danish wild boar populations, using actual landscape data. The model was run with 50 and 100 wild boar groups used as initial population sizes, respectively, either distributed across the southern part of the mainland (Jutland) or across both the southern and middle parts of Jutland, where wild boar groups are believed to exist. At first, the model was run without ASFV for 25 years to assess wild boar population dynamics in both regions. Thereafter, ASFV was added to the model 1 year after initiation and run for up to another 4 years. The model predicted that wild boar populations may increase drastically over the next 25 years, if wild boar groups were distributed across both southern and middle Jutland and no mitigation actions were taken, while the population sizes will be restricted, if groups were distributed only across the southern part of Jutland. The density of the population is an important factor affecting the transmission and persistency of the disease. Model results indicated that ASF epidemics in the simulated populations would generally persist for few months. However, due to the high stochasticity of the process, in certain situations the epidemics may last for more than one year, posing a serious risk of ASFV introduction to domestic pigs.

KW - Simulation model, African swine fever, Transmission, Persistence, Wild boar

U2 - 10.1016/j.prevetmed.2019.03.028

DO - 10.1016/j.prevetmed.2019.03.028

M3 - Journal article

C2 - 31027724

VL - 167

SP - 68

EP - 79

JO - Preventive Veterinary Medicine

JF - Preventive Veterinary Medicine

SN - 0167-5877

ER -

ID: 216200926