Abstract
Ungulate vehicle collisions (UVC) provoke serious damage, including human casualties, and a large number of measures have been developed around the world to avoid collisions. We analyse the main factors involved in UVC in a road network built in the absence of ungulates, where mitigation structures to avoid UVC were not adequately considered. Ungulate population greatly increased during the last two decades and now Roe Deer and Wild Boars are widely distributed over the study area, but even after this increase, the road network was not adapted to avoid UVC. A total of 235 Roe Deer (RDVC) and 153 Wild Boar vehicle collisions (WBVC) were recorded between January 2008 and December 2011. We randomly selected 289 sample points (87 RDVC, 60 WBVC and 142 controls) separated by at least 500 metres from the next closest point and measured 19 variables that could potentially influence the vehicle collisions. We detected variations in the frequency of RDVC on a monthly basis, and WBVC was higher at weekends but no significant differences were detected on a monthly basis. UVC were more likely to occur at locations where sinuosity of the road, velocity, surface of shrub and deciduous forest area were greater, the presence of fences entered with positive relationship and distance to the nearest building was less. RDVC were more likely to occur at locations where timber forest area increased and distance to the nearest building decreased and WBVC was related to open fields cover and also to the presence of fences. Sinuosity and velocity entered in both cases as significant factors. Major roads, in which the traffic volume is greater and faster, caused more accidents with ungulates than secondary roads. Nowadays, the high frequency of ungulate road-kills deserves a new strategy in order to adapt infrastructure and adopt mitigation measures.
Highlights
Habitats and, wildlife populations are being increasingly fragmented due to increasing human population, urbanized areas, the extent of transport infrastructure, habitat transformation and agricultural intensification [1]
Ungulate Vehicle Collisions in Dense Urban Matrix forward regression procedures to build the models, leaving out 20% of the original data for cross-validation procedures in order to evaluate the explanatory power of each model
The frequency of Roe Deer vehicle collisions (RDVC) did not vary with the days of the week (x26 = 11.609, P = 0.07), but there were significant differences between months, April and May followed by July and August being the months with highest RDVC (x211 = 64.092, P,0.001)
Summary
Wildlife populations are being increasingly fragmented due to increasing human population, urbanized areas, the extent of transport infrastructure, habitat transformation and agricultural intensification [1]. In this changing world, refuges free of perturbation are becoming scarce and wildlife is forced to live in highly human populated and changing habitats [2]. Interactions between large herbivores and transport infrastructures are expected to increase, since the road network and the traffic volumes are predicted to grow. More populations will become susceptible to decline due to road mortality as the transportation infrastructure increases [3,4]. Great efforts are being made to understand the causes of ungulate vehicle collisions (UVC) and to develop strategies to reduce them [11]
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