1. bookVolume 41 (2022): Edizione 2 (June 2022)
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Methodology of Wildlife Underpasses Attractiveness Assessment

Pubblicato online: 04 Jul 2022
Volume & Edizione: Volume 41 (2022) - Edizione 2 (June 2022)
Pagine: 172 - 182
Ricevuto: 22 Feb 2022
Accettato: 15 Apr 2022
Dettagli della rivista
License
Formato
Rivista
eISSN
1337-947X
Prima pubblicazione
24 Aug 2013
Frequenza di pubblicazione
4 volte all'anno
Lingue
Inglese

Anděl, P., Hlaváč, V. & Lenner R. (2006). Migration objects to ensure the pass-ability of highways and roads for wildlife (in Czech). Praha: Ministerstvo dopravy, odbor pozemních komunikací ČR. Search in Google Scholar

Beben, D. (2016). Crossings construction as a method of animal conservation. Transportation Research Procedia, 14, 474–483. DOI: 10.1016/j. trpro.2016.05.100. Apri DOISearch in Google Scholar

Bellis, M.A. (2008). Evaluating the effectiveness of wildlife crossing structures in Southern Vermont. Unpublished master thesis, University of Massachusetts Amherst, USA. Search in Google Scholar

Bhardway, M., Olsson, M. & Seiler A. (2020). Ungulate use of non-wild-life underpasses. J. Environ. Manag., 273, 1–6. DOI: 10.1016/j.jenvman.2020.111095.32734891 Apri DOISearch in Google Scholar

Choi, T.Y., Yang, B.G., & Woo D.G. (2012). The suitable types and measures of wildlife crossing structures for mammals of Korea. Journal of Environmental Impact Assessment, 21(1), 209–218. DOI: 10.14249/EIA.2012.21.1.209. Apri DOISearch in Google Scholar

Clevenger, A.P. & Huijser M.P. (2011). Wildlife Crossing Structure Handbook. Design and Evaluation in North America. Publication No. FHWA-CFL/TD-11-003. Search in Google Scholar

Clevenger, A.P. & Waltho N. (2000). Factors influencing the effectiveness of wildlife underpasses in Banff National Park, Alberta, Canada. Conserv. Biol., 14, 47–56. DOI: 10.1046/J.1523-1739.2000.00099-085.X. Apri DOISearch in Google Scholar

Clevenger, A.P. & Waltho N. (2005). Performance indices to identify attributes of highway crossing structures facilitating movement of large mammals. Biol. Conserv., 121(3), 453–464. DOI: 10.1016/j.biocon.2004.04.025. Apri DOISearch in Google Scholar

Denneboom, D., Bar-Massada, A. & Shwartz A. (2021). Factors affecting usage of crossing structures by wildlife – A systematic review and meta-analysis. Sci. Total Environ., 777, 1–10. DOI: 10.1016/j.scitotenv.2021.146061. Apri DOISearch in Google Scholar

Fabrizio, M.D., Febbraro, M., D’Amico, M., Frate, L., Roscioni, F. & Loy A. (2019). Habitat suitability vs landscape connectivity determining road-kill risk at a regional scale: a case study on European badger (Meles meles). European Journal of Wildlife Research, 65, 7. DOI: 10.1007/s10344-018-1241-7. Apri DOISearch in Google Scholar

Gibson, L., Lynam, A.J., Bradshaw, C.J.A., He, F. & Bickford D.P. (2013). Near-complite extinction of native small mammal fauna 25 years after forest fragmentation. Science, 341(6153), 1508–1510. DOI: 10.1126/science.1240495.24072921 Apri DOISearch in Google Scholar

Gloyne, C.C. & Clevenger A.P. (2001). Cougar Puma concolor use of wild-life crossing structures on the Trans-Canada highway in Banff National Park, Alberta. Wildl. Biol., 72(2), 117–124. DOI: 10.2981/wlb.2001.009. Apri DOISearch in Google Scholar

Grilo, C., Bissonette, J.A. & Santos-Reis M. (2008). Response of carnivores to existing highway culverts and underpasses: implications for road planning and mitigation. Biodivers. Conserv., 17, 1685–1699. DOI: 10.1007/s10531-008-9374-8. Apri DOISearch in Google Scholar

Hlaváč, V. & Anděl P. (2001). Methodical manual for ensuring the passability of highways for wildlife animals (in Czech). Praha: AOPaK ČR. Search in Google Scholar

Hlaváč, V. & Anděl P. (2008). Bridges over watercourses – ecological aspects and requirements (in Czech). Vysočina: Krajský úřad kraje. Search in Google Scholar

Hlaváč, V., Anděl, P., Matoušová, J., Dostál, I., Strnad, M., Immerová, B., Kadlečík, J., Meyer, H., Moț, R., Pavelko, A., Hahn, E. & Georgiadis L. (2019). Wildlife and Traffic in the Carpathians, Guidelines how to minimize the impact of transport infrastructure development on nature in the Carpathian countries. DTP1-187-3.1 TRANSGREEN. Praha: Nature Conservation Agency of the Czech Republic. Search in Google Scholar

Huck, M., Jędrzejewski, W., Borowik, T., Miłosz-Cielma, M., Schmidt, K., Jędrzejewska, B., Nowak, S. & Mysłajek R.W. (2010). Habitat suitability, corridors and dispersal barriers for large carnivores in Poland. Acta Theriol., 55, 177–192. DOI: 10.4098/j.at.0001-7051.114.2009. Apri DOISearch in Google Scholar

Ibisch, P.L., Hoffmann, M.T., Kreft, S., Pe’er, G., Kati, V., Biber-Freudenberger, L., DellaSala, D.A., Vale, M.M., Hobson, P.R. & Selva N. (2016). A global map of roadless areas and their conservation status. Science, 354(6318), 1423–1427. DOI: 10.1126/science.aaf7166. Apri DOISearch in Google Scholar

Iuell, B., Bekker, G.J., Cuperus, R., Dufek, J., Fry, G., Hicks, C., Hlaváč, V., Keller, V.B., Rosell, C., Sangwine, T., Tørsløv, N. & Wandall B. le Maire (Eds.) (2003). Wildlife and Traffic: A European Handbook for Identifying Conflicts and Designing Solutions. KNNV Publishers. Search in Google Scholar

Jędrzejewski, W. & Sidorovich V. (2010). The art of tracking animals. Białowieża: Mammal Research Institute of Polish Academy of Sciences. Search in Google Scholar

Klescht, V. & Valachovič D. (2002). Protection of animals on roads (in Slovak). Banská Bystrica: State Nature Protection of Slovak Republic. Search in Google Scholar

Laurance, W.F., Clements, G.R., Sloan, S., O’Connell, C.S., Mueller, N.D., Goosem, M., Venter, O., Edwards, D.P., Phalan, B., Balmford, A., van der Ree, R. & Arrea I.B. (2014). A global strategy for road building. Nature, 513, 229–232. DOI: 10.1038/nature13717. Apri DOISearch in Google Scholar

Lehotská, B. & Horváthová B. (2009). Functional evaluation of wildlife underpasses under highway D2 in cadastral areas Rusovce and Čunovo (in Slovak). Acta Environmentalica Universitatis Comenianae (Bratislava), 17(1), 71–78. Search in Google Scholar

Loyd, K.A.T, Hernandez, S.M., Carroll, J.P., Abernathy, K.J. & Marshall G.J. (2013). Quantifying free-roaming domestic cat predation using animal-borne video cameras. Biol. Conserv., 160, 183–189. DOI: 10.1016/j.biocon.2013.01.008. Apri DOISearch in Google Scholar

MAFE (Ministry of Agriculture, Food and the Environment) (2016). Technical prescriptions for wildlife crossing and fence design (second edition, revised and expanded). Documents for the mitigation of habitat fragmentation caused by transport infrastructure, number 1. Madrid: Ministry of Agriculture, Food and the Environment (Spain). Search in Google Scholar

Mata, C., Hervaás, I., Herranz, J., Suárez, F. & Malo J.E. (2005). Complementary use by vertebrates of crossing structures along a fenced Spanish motorway. Biol. Conserv., 124(3), 397–405. DOI: 10.1016/j.biocon.2005.01.044. Apri DOISearch in Google Scholar

MTCRD SR (Ministry of Transport, Construction and Regional Development of the Slovak Republic) (2012). Technical conditions No. 02/2012 – Migration structures for wildlife. Part 1: Project engineering, construction, operation, maintenance and repair of ecoducts. Bratislava: Ministry of Transport, Construction and Regional Development of the Slovak Republic. Search in Google Scholar

Mysłajek, R.W., Olkowska, E., Wronka-Tomulewicz, M. & Nowak S. (2020). Mammal use of wildlife crossing structures along a new motorway in an area recently recolonized by wolves. European Journal of Wildlife Research, 66, 79. DOI: 10.1007/s10344-020-01412-y. Apri DOISearch in Google Scholar

Nevřelová, M. & Novota M. (2020). Functionality of the ecological network elements from the point of view of mammal migrations in the contact zone of the forest and agricultural landscape. Ekológia (Bratislava), 39(1), 45–57. DOI: 10.2478/eko-2020-0004. Apri DOISearch in Google Scholar

Ng, S.J., Dole, J.W., Sauvajot, R.M., Riley, S.P.D. & Valone T.J. (2004). Use of highway undercrossing by wildlife in southern California. Biol. Conserv., 115(3), 499–507. DOI: 1016/S0006-3207(03)00166-6. Apri DOISearch in Google Scholar

Poessel, S.A., Burdett, C.L., Boydston, E.E., Lyren, L.M., Alonso, R.S., Fisher, R.N. & Crooks K.R. (2014). Roads influence movement and home ranges of a fragmentation-sensitive carnivore, the bobcat, in an urban landscape. Biol. Conserv., 180, 224–232. DOI: 10.1016/j.biocon.2014.10.010. Apri DOISearch in Google Scholar

Puig, J., Sanz, L., Serrano, M. & Elosegui J. (2012). Wildlife roadkills and underpass use in northern Spain. Environmental Engineering and Management Journal, 11(6), 1141–1147.10.30638/eemj.2012.138 Search in Google Scholar

Reck, H., Hänel, K., Strein, M., Georgii, B., Henneberg, M., Peters-Ostenberg, E. & Böttcher M. (2017). Green bridges, wildlife tunnels and fauna culverts – the biodiversity approach. Bonn: Federal Agency for Nature Conservation, Germany. Search in Google Scholar

Rodriquez, A., Crema, G. & Delibes M. (1997). Use of non-wildlife passages across a high speed railway by terrestrial vertebrates. J. Appl. Ecol., 33(6), 1527–1540. DOI: 10.2307/2404791. Apri DOISearch in Google Scholar

Ružičková, J. (2007). Fragmentation of landscape and biotopes. In M. Kozová et al. Landscape Ecology in Slovakia, Development, Current State and Perspectives (pp. 227–236). Bratislava: Ministry of the Environment of the Slovak Republic, IALE SK, Slovakia. Search in Google Scholar

Ružičková, J. & Lehotská B. (2008). Possibilities to mitigate negative impact of roads to migration routes of fauna (in Slovak). In A. Daniš & P. Wirthová (Eds.), Urbanistické, architektonické a technické aspekty obnovy vidieka VII (pp. 61–74). Bratislava: STU. Search in Google Scholar

Ružičková, J. & Lehotská B. (2014). Evaluation and passport of underpasses on the railway line between Pezinok and Báhoň (in Slovak). In P. Fedor & M. Molnárová (Eds.), Nové horizonty environmentálnej ekológie a ochrany životného prostredia (pp. 159–169). Bratislava: Univerzita Komenského. Search in Google Scholar

Samia, D.S.M., Nakagawa, S., Nomura, F., Rangel, T.F. & Blumstein D.T. (2015). Increased tolerance to humans among disturbed wildlife. Nature Communications, 6, 8877. DOI: 10.1038/ncomms9877.466021926568451 Apri DOISearch in Google Scholar

Seidler, R.G., Green, D.S. & Beckmann J.P. (2018). Highways, crossing structures and risk: Behaviors of Greater Yellowstone pronghorn elucidate efficacy of road mitigation. Global Eco. Conserv., 15, e00416. DOI: 10.1016/j.gecco.2018.e00416. Apri DOISearch in Google Scholar

Seiler, A. & Olsson M. (2009). Are non-wildlife passages effective passages for wildlife? In International Conference on Ecology & Transportation (pp. 317–331). 13-17 September 2009, Duluth, Minnesota. Search in Google Scholar

Seo, H., Choi, C., Lee, K. & Woo D. (2021). Landscape characteristics based on effectiveness of wildlife crossing structures in South Korea. Sustainability, 13, 675. DOI: 10.3390/su13020675. Apri DOISearch in Google Scholar

Smith, D.J., van der Ree, R. & Rosell C. (2015). Wildlife crossing structures: an effective strategy to restore or maintain wildlife connectivity across roads. In R. van der Ree, D.J. Smith & C. Grilo (Eds.), Handbook of Road Ecology (pp. 172–183). John Wiley & Sons, Ltd. DOI: 10.1002/9781118568170.ch21. Apri DOISearch in Google Scholar

Valerio, F., Carvalho, F., Barbosa, A.M., Mira, A. & Santos S.M. (2019). Accounting for connectivity uncertainties in predicting roadkills: a comparative approach between path selection functions and habitat suitability models. Environ. Manag., 64, 329–343. DOI: 10.1007/s00267-019-01191-6.31372805 Apri DOISearch in Google Scholar

van der Grift, E.A. & van der Ree R. (2015). Guidelines for evaluating use of wildlife crossing structures. In R. van der Ree, D.J. Smith & C. Grilo (Eds.), Handbook of Road Ecology (pp. 119–128). John Wiley & Sons, Ltd.10.1002/9781118568170.ch15 Search in Google Scholar

van der Ree, R., van der Grift, E.A., Gulle, N., Holland, K., Mata, C. & Suarez F. (2007). Overcoming the barrier effect of roads–how effective are mitigation strategies? An international review of the use and effectiveness of underpasses and overpasses designed to increase the permeability of roads for wildlife. In International conference on ecology and transportation (pp. 423-431). Raleighe, North Carolina: Center for Transportation and Environment, North Carolina State University. Search in Google Scholar

Völk, F., Kalivodová, E., Kalivoda, H., Glitzner, I., Kürthy, A. & Wöss M. (2000). Wildtier-Korridor Alpen-Karpaten slowakischer Teilberiech: Staatsgrenze Österreich bis östlich der Autobahn E 65. Wien: Institut für Wildbiologie und Jagwirtschaft der Universität für Bodenkultur, Bratislava: Institute of Landscape Ecology, Slovak Academy of Sciences, Malacky: Administration of Protected Landscape Area Záhorie. Search in Google Scholar

Ważna, A., Kaźmierczak, A., Cichocki, J., Bojarski, J. & Gabryś G. (2020). Use of underpasses by animals on a fenced expressway in a suburban area in western Poland. Nature Conservation, 39, 1–18. DOI: 10.3897/natureconservation.39.33967. Apri DOISearch in Google Scholar

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