Adaptation of wild boar (Sus scrofa) activity in a human-dominated landscape

Johann, Franz; Handschuh, Markus; Linderoth, Peter; Dormann, Carsten F.; Arnold, Janosch

doi:10.1186/s12898-019-0271-7

Cited by 81 publications

(69 citation statements)

References 78 publications

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“…Wild boar contacts are particularly high within groups but also exist between groups because their home ranges often overlap. Lack of food and cover, supplementary feeding, and hunting pressure increase the home ranges and the chance of contacts (Johann et al 2020). Young animals 0.5–2 years of age are disproportionately involved in contacts between groups, primarily for the biological purpose of reproduction (Podgórski et al 2018).…”

Section: Discussionmentioning

confidence: 99%

Genetic Differentiation of Wild Boar Populations in a Region Endangered by African Swine Fever

et al. 2021

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For areas at risk for African swine fever (ASF) introduction from neighboring regions, it is important for epidemic control to know how wild boar (Sus scrofa) dispersion dynamics could be used to combat the spread of ASF. In this regard, long‐term information based on population genetic data makes an important contribution. We selected our study area as Rhineland‐Palatinate, Germany, because it had a high density of wild boars and was threatened by ASF via infected wild boars from neighboring Belgium. On an area of around 20,000 km2, we collected almost 1,200 blood samples from 22 wild boar hunting grounds. The study area included a network of potential barriers to movement, including roads and rivers. We assessed genetic differentiation based on microsatellite data. We used 2 spatial (Bayesian Analysis of Population Structure [BAPS] and TESS) and 1 non‐spatial (STRUCTURE) Bayesian model‐based approaches to analyze the data. Each of the algorithms detected 4 clusters with different cluster compositions in different areas and identified the highest degrees of differentiation between hunting grounds east and west of the Rhine River, between Pfalz and Eifel‐Hunsrück, and to a lesser degree between Westerwald and Taunus and between Eifel and Hunsrück. Thus, genetic evidence suggests barriers of different strength that might be helpful in a setup of complex and expensive measures against the spread of animal diseases such as ASF. The described approach could also provide valuable information for other threatened regions to contain ASF. © 2021 The Authors. The Journal of Wildlife Management published by Wiley Periodicals LLC on behalf of The Wildlife Society.

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Section: Discussionmentioning

confidence: 99%

Genetic Differentiation of Wild Boar Populations in a Region Endangered by African Swine Fever

et al. 2021

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“…Forest expansion is one of the most important factors that favoured the expansion of the wild boar populations (Keuling et al 2009;Servanty et al 2011). Moreover, the releases carried out for hunting purposes emphasised the expansion of the species, thanks also to its high reproductive potential, the limited presence of natural predators in a considerable portion of its range, and its high ability to adapt to very different habitats (Brangi and Meriggi 2003;Bieber and Ruf 2005;Sales et al 2017;Johann et al 2020) where the species, when overabundant, could have different negative impacts.…”

Section: Introductionmentioning

confidence: 99%

Factors affecting the crop damage by wild boar (Sus scrofa) and effects of population control in the Ticino and Lake Maggiore Park (North-western Italy)

2021

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Wild boar foraging impacts the crops, pastures, and meadows causing remarkable losses to agricultural income. Protected areas located in plains, such as the Ticino Valley Natural Park, are characterized by the coexistence of important natural habitats and intensive agricultural areas. In the Park, from 2010 to 2017, 49% of the complaints report an event of damage to maize and 43% to meadows. The total expense for reimbursements of the maize amounted to € 439,341.52, with damages concentrated in May, after sowing period and between August and September, during the milky stage of maize. For meadows reimbursements amounted to € 324,768.66, with damage events concentrated in February and March. To reduce damage to crops, the Park administration carried out lethal control of the wild boar population. From 2006 to 2017, the most used control method was culling from hunting hides. In our analysis, we did not find significant relationships between the number of shot boars and the damage amount. The factors that determine the decrease of damage probability to crops are mainly related to human disturbance and the characteristics of the fields. The predictive model of damage risk built comparing damaged and undamaged fields showed a good predictive ability. The population viability analyses showed that it is impossible to obtain a drastic reduction of population with the current harvest rate. By tripling it and focusing on the females and sub-adult a numerical reduction of 50% of the population would be achievable in 7 years and the probability of population survival would be halved in 3 years.

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“…This may be due to the enhanced surveillance for wild boars during the second study period, which induces changes in the population behaviors. Wild boars flexibly adjust their activity and home ranges to human activities, such as hunting and recreation, to protect themselves from risk (Scillitani et al, 2009; Thurfjell et al, 2013; Johann et al, 2020). Owing to intensive hunting condition, wild boars could have left their original home-range and shifted to other areas where they could hide from the hunters (Thurfjell et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Modelling the deathbed of ASF-infected wild boars in South Korea using 2019-2020 national surveillance data

Lim¹,

Vergne

Pak³

et al. 2021

Preprint

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In September 2019, African swine fever (ASF) was reported in South Korea for the first time. Since then, more than 651 ASF cases in wild boars and 14 farm outbreaks have been notified in the country. The purpose of this study was to characterize the spatial distribution of ASF-positive wild boar carcasses to identify the risk factors associated with the presence of ASF and number of ASF-positive wild boar carcasses in the affected areas. To achieve this objective, we divided the study into two periods (October 2, 2019, to January 19, 2020, and January 19 to April 28, 2020) and aggregated the number of reported ASF-positive carcasses into a regular grid of hexagons. To account for imperfect detection, we adjusted spatial zero-inflated Poisson regression models to the number of ASF-positive wild boar carcasses per hexagons. During the first study period, only proximity to North Korea was identified as a risk factor for the presence of African swine fever virus (ASFV). In addition, there were more reports in the affected hexagons with a high habitat suitability for wild boar, low heat load index (HLI), and high human density. During the second study period, proximity to an ASF-positive carcass reported during the first period was the only significant risk factor for the presence of ASF-positive carcasses. Additionally, high HLI and low elevation were associated with an increased number of ASF-positive carcasses reported in the affected hexagons. Although the proportion of ASF-affected hexagons increased from 0.06 (95% credible interval [CrI]: 0.05-0.07) to 0.09 (95% CrI: 0.08-0.10), the probability of reporting ASF-affected hexagons increased substantially from 0.49 (95% CrI: 0.41-0.57) to 0.73 (95% CrI: 0.66-0.81) between the two study periods. These results can be used to further advance risk-based surveillance.

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Adaptation of wild boar (Sus scrofa) activity in a human-dominated landscape

Cited by 81 publications

References 78 publications

Genetic Differentiation of Wild Boar Populations in a Region Endangered by African Swine Fever

Genetic Differentiation of Wild Boar Populations in a Region Endangered by African Swine Fever

Factors affecting the crop damage by wild boar (Sus scrofa) and effects of population control in the Ticino and Lake Maggiore Park (North-western Italy)

Modelling the deathbed of ASF-infected wild boars in South Korea using 2019-2020 national surveillance data

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