Factors Affecting Roadkills of Semi-Aquatic Mammals

Balčiauskas, Linas; Stratford, Jos; Kučas, Andrius; Balčiauskienė, Laima

doi:10.3390/biology11050748

Cited by 5 publications

(1 citation statement)

References 65 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For species averse to urbanisation, the negative population-level impacts of roads and fences are more pronounced, often further endangering already threatened species (Taylor and Goldingay 2004;Seidler et al 2015;Jakes et al 2018). Species that disperse or migrate, such as semi-aquatic species using a complex of wetlands, are particularly sensitive to barriers (Roe et al 2006; Glista et al 2007; Balčiauskas et al 2022). In particular, freshwater turtles often travel frequently between water bodies and are negatively impacted by these arti cial barriers (Aresco 2005a Many freshwater turtles have large home ranges (Slavenko et al 2016) and use water-adjacent land for nesting (Bodie 2001;Petrov et al 2018;Van Dyke et al 2018), thermoregulation (Chessman 2020), and to travel between water bodies (Graham et al 1996;Serrano et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Ninja Turtles: high mobility and successful passage through common barriers to movement in a semi-terrestrial freshwater turtle

Dowling,

Nordberg,

Bower

2024

Preprint

View full text Add to dashboard Cite

Anthropogenic landscape change due to urbanisation, agriculture and resource extraction inevitably results in linear barriers within the landscape. Artificial linear structures such as roads, fences, levees, and dams limit the movement of some species and further fragment residual habitat. In this study, we investigated the ability of Eastern long-necked turtles (Chelodina longicollis) to cross various terrestrial obstacles commonly encountered in their habitat. We tested two types of fences (chicken wire and exclusion fencing) commonly used in agricultural systems and three sizes of rocks (gravel, gabion, and large boulders) often used for road construction, erosion control, and waterway stabilisation. We examined the success rates of turtles in crossing obstacles, the effect of fatigue on crossing attempts, and the impact of individual boldness on movement behaviour. Turtles displayed high success rates in crossing gravel (85.4%), gabion (86%), boulders (73.3%) and hinged joint exclusion fencing (94.7%). Chicken wire style wire netting had no successful crossings (0%) despite 276 attempts. A significant fatigue effect was observed throughout the experiment, with turtles making an average of 3.94 (± 4.93 SE) fewer attempts at the end of the experiment (day eighteen) as opposed to day one. Bolder turtles were faster at crossing obstacles, however, boldness had no bearing on obstacle-crossing success. These results highlight the need for thoughtful selection of waterway and wetland infrastructure and the fatiguing impact of constant exposure to anthropogenic barriers for wildlife.

show abstract

Section: Introductionmentioning

confidence: 99%

Ninja Turtles: high mobility and successful passage through common barriers to movement in a semi-terrestrial freshwater turtle

Dowling,

Nordberg,

Bower

2024

Preprint

View full text Add to dashboard Cite

show abstract

Don’t stop it now: functional and structural habitat connectivity assessment suggests further expansion in Southern Europe for the Eurasian beaver

Serva,

Biondi,

Mantoni

et al. 2024

Landsc Ecol

View full text Add to dashboard Cite

Context After being close to extinction, the Eurasian beaver (Castor fiber) is now recovering throughout Europe. The Eurasian beaver is a keystone species, and an ecosystem engineer, capable of modifying ecosystems at multiple levels. In the last years, the species reappeared in Italy due to natural recolonization and illegal reintroductions, while in Spain, after being confined to the Ebro basin, the beaver has been recently reported at the border with Portugal. Objectives In this study, we evaluated both functional and structural connectivity for the Eurasian beaver in Italy and in the Iberian Peninsulas, to deepen the understanding of its expansion process, and to prioritize the barriers that occur in the areas where the species is reported, and that could limit this expansion. Methods We generated resistance layers for each study area, based on key variables for the target species. Circuit theory was applied to evaluate functional connectivity, summarizing it at the basin and protected areas (PAs) level. We applied different fluvial connectivity indices to characterize, at-reach-scale, structural connectivity, and identify barriers within each hydrographic network. Results In both study areas, there are several corridors mainly linked to rivers with high tree cover that occur in flat areas, like the valleys in the Apennines and the Cantabrian mountain systems. Despite the distances and the extant barriers, the occurrences in Central Italy and Spain are respectively well-connected. In general, in each hydrographic network, only a few barriers impede connectivity, with the Iberian Peninsula more impacted, especially in the Douro basin. In the Ebro basin, several barriers contribute to fragmentation, especially in the northern area considering the Population Connectivity Indices; however, high connectivity is found within the protected areas. Conclusions The recent return of the Eurasian beaver in Italy, and its recent expansion in the Iberian Peninsula, could continue in the near future, considering both the fair habitat connectivity and the adaptability of the species. Although both areas are impacted by man-made dams, only a specific set possibly limits the Eurasian beavers’ expansion. In general, the current PAs arrangement does not protect the areas important for the beaver connectivity, with some of them impacted by man-made dams.

show abstract