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Individual Spatial Responses towards Roads: Implications for Mortality Risk

Author

Listed:
  • Clara Grilo
  • Joana Sousa
  • Fernando Ascensão
  • Hugo Matos
  • Inês Leitão
  • Paula Pinheiro
  • Monica Costa
  • João Bernardo
  • Dyana Reto
  • Rui Lourenço
  • Margarida Santos-Reis
  • Eloy Revilla

Abstract

Background: Understanding the ecological consequences of roads and developing ways to mitigate their negative effects has become an important goal for many conservation biologists. Most mitigation measures are based on road mortality and barrier effects data. However, studying fine-scale individual spatial responses in roaded landscapes may help develop more cohesive road planning strategies for wildlife conservation. Methodology/Principal Findings: We investigated how individuals respond in their spatial behavior toward a highway and its traffic intensity by radio-tracking two common species particularly vulnerable to road mortality (barn owl Tyto alba and stone marten Martes foina). We addressed the following questions: 1) how highways affected home-range location and size in the immediate vicinity of these structures, 2) which road-related features influenced habitat selection, 3) what was the role of different road-related features on movement properties, and 4) which characteristics were associated with crossing events and road-kills. The main findings were: 1) if there was available habitat, barn owls and stone martens may not avoid highways and may even include highways within their home-ranges; 2) both species avoided using areas near the highway when traffic was high, but tended to move toward the highway when streams were in close proximity and where verges offered suitable habitat; and 3) barn owls tended to cross above-grade highway sections while stone martens tended to avoid crossing at leveled highway sections. Conclusions: Mortality may be the main road-mediated mechanism that affects barn owl and stone marten populations. Fine-scale movements strongly indicated that a decrease in road mortality risk can be realized by reducing sources of attraction, and by increasing road permeability through measures that promote safe crossings.

Suggested Citation

  • Clara Grilo & Joana Sousa & Fernando Ascensão & Hugo Matos & Inês Leitão & Paula Pinheiro & Monica Costa & João Bernardo & Dyana Reto & Rui Lourenço & Margarida Santos-Reis & Eloy Revilla, 2012. "Individual Spatial Responses towards Roads: Implications for Mortality Risk," PLOS ONE, Public Library of Science, vol. 7(9), pages 1-11, September.
    • Handle: RePEc:plo:pone00:0043811
    DOI: 10.1371/journal.pone.0043811
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    Citations

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    Cited by:

    1. Sara M Santos & Rui Lourenço & António Mira & Pedro Beja, 2013. "Relative Effects of Road Risk, Habitat Suitability, and Connectivity on Wildlife Roadkills: The Case of Tawny Owls (Strix aluco)," PLOS ONE, Public Library of Science, vol. 8(11), pages 1-11, November.
    2. Maureen H. Murray & Colleen Cassady St. Clair, 2015. "Individual flexibility in nocturnal activity reduces risk of road mortality for an urban carnivore," Behavioral Ecology, International Society for Behavioral Ecology, vol. 26(6), pages 1520-1527.
    3. Freitas, Simone R. & Constantino, Everton & Alexandrino, Marcos M., 2018. "Computational geometry applied to develop new metrics of road and edge effects and their performance to understand the distribution of small mammals in an Atlantic forest landscape," Ecological Modelling, Elsevier, vol. 388(C), pages 24-30.
    4. Enrique Valero & Xana Álvarez & Juan Picos, 2019. "Connectivity Study in Northwest Spain: Barriers, Impedances, and Corridors," Sustainability, MDPI, vol. 11(18), pages 1-25, September.
    5. Borda-de-Água, Luís & Grilo, Clara & Pereira, Henrique M., 2014. "Modeling the impact of road mortality on barn owl (Tyto alba) populations using age-structured models," Ecological Modelling, Elsevier, vol. 276(C), pages 29-37.
    6. Ascensão, Fernando & Clevenger, Anthony & Santos-Reis, Margarida & Urbano, Paulo & Jackson, Nathan, 2013. "Wildlife–vehicle collision mitigation: Is partial fencing the answer? An agent-based model approach," Ecological Modelling, Elsevier, vol. 257(C), pages 36-43.

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