Eric Graitson scite author profile

Climatic changes, habitat loss and invasive species are important threats for many animal populations. Here, we report rapid declines and extinctions of adder populations monitored during 12 years in Belgium where none of the above causes was involved. This study provides the first large-scale data showing that wild boars represent a major risk for snakes, pushing populations to extinction. Drastic population declines were observed in the sites impacted by wild boars (N = 14), while in other sites spared by wild boars populations remained stable (N = 9). Wild boars are highly fertile and their main predators have been extirpated from Western Europe; yet, recreational hunting kept populations in check during decades. Hunting pressure is currently insufficient to control the rapid expansion of wild boars, demographic outbreaks are increasingly frequent. Wild boars are omnivorous; they can destroy snakes directly and indirectly through the depletion of snake's preys and via the destruction of key microhabitats. Snakes exhibit limited dispersal capacities; they cannot escape local perturbations and thus are highly vulnerable. Because wild boars have a very eclectic diet, are prolific breeders and are able to devastate a range of habitats their negative impact under relaxed hunting pressure applies to a huge variety of organisms, including reptiles. Policies to limit wild boar populations are urgently needed. Recommendations to target reproductive females and piglets should be generalized and applied.

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Snake conservation in anthropized landscapes: considering artificial habitats and questioning management of semi-natural habitats

Graitson¹,

Ursenbacher

Lourdais

2020

Eur J Wildl Res

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Fine‐scale vegetation complexity and habitat structure influence predation pressure on a declining snake

Duchesne

Graitson²,

Lourdais

et al. 2022

Journal of Zoology

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In Western Europe, omnipresent human activities have considerable impacts on habitats at several spatial scales resulting in direct shifts in habitat characteristics. These modifications in habitat features can disrupt biotic interactions such as predation. Surprisingly, although snake species are facing a worldwide decline, relationships between habitat characteristics and predation pressure in snakes remain poorly understood. The main goal of this study was to assess predation pressure on a snake species (the common adder; Vipera berus) in relation to two habitat characteristics: fine‐scale (microhabitat) vegetation complexity and habitat structure (linear/non‐linear). Using 2400 artificial plasticine models of adder as lures in 12 sites in Wallonia (Belgium), we quantified and compared the relative predation risk with respect to these two habitat features. We showed that, all predators combined (mammals and birds), increasing vegetation complexity had a positive impact by decreasing predation pressure, while habitat linearity increased attack risk on adders. However, for mammalian predators, increasing structural complexity reduced predation risk in non‐linear habitats while this risk remained constant and substantial in linear habitats. This suggests that the abiotic benefits of linear strips or edges may be balanced by high predation risks. For bird predators, habitat linearity had no effect on attack rates while an increase in structural complexity reduced attack probabilities. In the light of these results, we suggest applying management practices that ensure a high degree of structural complexity in semi‐natural habitats concerned with snake conservation. Moreover, we recommend creating non‐linear, highly structured habitat elements to hamper predation pressure by mammals.

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Conservation genetics of a wide-ranged temperate snake: same species, different locations, and different behaviour

et al. 2021

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Even though reptiles are threatened worldwide, few studies address their conservation, especially snakes.The goal of our study was to measure the genetic structure of a widely distributed temperate reptile, the smooth snake Coronella austriaca using eight microsatellite markers in two different areas at the core (Alsace, north-eastern France) and at the edge (Wallonia, southern Belgium) of its range. We sampled 506 individuals in 38 localities (respectively 10 and 28). Analysis of genetic structure conducted with a clustering method detected three clusters in Alsace, one group gathering all populations but two. In Wallonia, differentiation was observed on both sides of the Meuse river and in the Southern Ardenne region (southernmost sampling sites). Spatial autocorrelation analysis showed that individuals share parental relationship up to a distance of 2.8 km in Alsace and up to 10 km in Wallonia. Isolation by distance was detected in Wallonia but the distance explained a very limited part of the differentiation (r = 0.033), whereas no isolation-by-distance pattern was detected in Alsace. Even though genetic differentiation between populations separated by large rivers, highways, or crop elds was detected, dispersal between populations seem currently su cient to avoid any kind of genetic drift in both regions.These results are strongly contrasting with a previous study in England, suggesting sharp local variation of genetic structuring and diversi cation between location within the same species, probably related to the position in the distribution area and different densities.

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Conservation genetics of a wide-ranged temperate snake: same species, different locations, and different behaviour

Vacher

Graitson²,

Cauwenbergh

et al. 2021

Preprint

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Even though reptiles are threatened worldwide, few studies address their conservation, especially snakes. The goal of our study was to measure the genetic structure of a widely distributed temperate reptile, the smooth snake Coronella austriaca using eight microsatellite markers in two different areas at the core (Alsace, north-eastern France) and at the edge (Wallonia, southern Belgium) of its range. We sampled 506 individuals in 38 localities (respectively 10 and 28). Analysis of genetic structure conducted with a clustering method detected three clusters in Alsace, one group gathering all populations but two. In Wallonia, differentiation was observed on both sides of the Meuse river and in the Southern Ardenne region (southernmost sampling sites). Spatial autocorrelation analysis showed that individuals share parental relationship up to a distance of 2.8 km in Alsace and up to 10 km in Wallonia. Isolation by distance was detected in Wallonia but the distance explained a very limited part of the differentiation (r = 0.033), whereas no isolation-by-distance pattern was detected in Alsace. Even though genetic differentiation between populations separated by large rivers, highways, or crop fields was detected, dispersal between populations seem currently sufficient to avoid any kind of genetic drift in both regions. These results are strongly contrasting with a previous study in England, suggesting sharp local variation of genetic structuring and diversification between location within the same species, probably related to the position in the distribution area and different densities.

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Eric Graitson

Catastrophic impact of wild boars: insufficient hunting pressure pushes snakes to the brink

Snake conservation in anthropized landscapes: considering artificial habitats and questioning management of semi-natural habitats

Fine‐scale vegetation complexity and habitat structure influence predation pressure on a declining snake

Conservation genetics of a wide-ranged temperate snake: same species, different locations, and different behaviour

Conservation genetics of a wide-ranged temperate snake: same species, different locations, and different behaviour

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