Priority areas for a cold-adapted snake 343
Melanoplinae) in the Mediterranean mountains of the southern Balkans. Journal of Mediterranean Ecology, 18, 67–79.
MARIOTTI, A., PAN, Y., ZENG,N.&ALESSANDRI,A.(2015) Long-term climate change in the Mediterranean region in the midst of decadal variability. Climate Dynamics, 44, 1437–1456.
MARTÍNEZ-FREIRÍA,F.(2015) Assessing climate change vulnerability for the Iberian viper Vipera seoanei. Basic and Applied Herpetology, 29, 61–80.
MIZSEI, E., ÜVEGES, B., VÁGI, B., SZABOLCS, M., LENGYEL, S., PFLIEGLER,W.P. et al. (2016) Species distribution modelling leads to the discovery of new populations of one of the least known European snakes, Vipera ursinii graeca, in Albania. Amphibia-Reptilia, 37, 55–68.
MIZSEI, E., JABLONSKI, D., ROUSSOS, S.A., DIMAKI, M., IOANNIDIS, Y., NILSON,G.&NAGY, Z.T. (2017) Nuclear markers support the mitochondrial phylogeny of Vipera ursinii renardi complex (Squamata: Viperidae) and species status for the Greek meadow viper. Zootaxa, 4227, 75–88.
MIZSEI, E., SZABOLCS, M., DIMAKI, M., ROUSSOS, S.A. & IOANNIDIS, Y. (2018) Vipera
graeca.In The IUCN Red List of Threatened Species 2018.
doi.org/10.2305/IUCN.UK.2018-1.RLTS.T53789650A53790137. en [accessed 23 July 2019].
MIZSEI, E., BOROS, Z., LOVAS‐KISS, Á., SZEPESVÁRY, C., SZABOLCS, M., RÁK,G. et al. (2019) A trait‐based framework for understanding predator–prey relationships: trait matching between a specialist snake and its insect prey. Functional Ecology, 33, 2354–2368.
MOILANEN,A.(2007) Landscape zonation, benefit functions and target-based planning: unifying reserve selection strategies. Biological Conservation, 134, 571–579.
MORRIS,W.K. (2016) rzonation. R package version 0.0.0.9068.
rdrr.io/ github/wkmor1/rzonation [accessed 4 May 2019].
NORI, J., TORRES, R., LESCANO, J.N., CORDIER, J.M., PERIAGO, M.E.& BALDO,D.(2016) Protected area and spatial conservation priorities for endemic vertebrates of theGranChaco, one of themost threatened ecoregions of the world. Diversity and Distributions, 22, 1212–1219.
PÉCHY, T.,HALPERN, B., SÓS,E.&WALZER,C.(2015) Conservation of the Hungarian meadow viper Vipera ursinii rakosiensis. International Zoo Yearbook, 49, 89–103.
PECL, G.T.,ARAÚJO, M.B., BELL, J.D., BLANCHARD, J., BONEBRAKE,T. C., CHEN, I-C. et al. (2017) Biodiversity redistribution under climate change: impacts on ecosystems and human well-being. Science, 355, eaai9214.
PLIENINGER,T. (2006) Habitat loss, fragmentation, and alteration– quantifying the impact of land-use changes on a Spanish dehesa landscape by use of aerial photography and GIS. Landscape Ecology, 21, 91–105.
RCORE TEAM (2016) R: a Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria.
R-project.org [accessed 23 July 2019].
SCALI, S., MANGIACOTTI, M., SACCHI,R.&GENTILLI,A. (2011)A tribute to Hubert Saint Girons: niche separation between Vipera aspis and V. berus on the basis of distribution models. Amphibia-Reptilia, 32, 223–233.
ŞEKERCIOĞLU, C.G., SCHNEIDER, S.H., FAY, J.P.&LOARIE, S.R. (2008) Climate change, elevational range shifts, and bird extinctions. Conservation Biology, 22, 140–150.
SENAY, G.B. & ELLIOTT, R.L. (2000) Combining AVHRR-NDVI and land use data to describe temporal and spatial dynamics of vegetation. Forest Ecology and Management, 128, 83–91.
SINERVO, B., MÉNDEZ-DE-LA-CRUZ, F., MILES, D.B., HEULIN, B., BASTIAANS, E., VILLAGRÁN-SANTA CRUZ,M. et al. (2010) Erosion of lizard diversity by climate change and altered thermal niches. Science, 328, 894–899.
THUILLER,W., GEORGES,D.&ENGLER,R.(2012) Package ‘biomod 2’ Version 2.1.15. R Foundation, Vienna, Austria.
www2.uaem.mx/r- mirror/web/packages/biomod2/biomod2.pdf [accessed 23 July 2019].
TODD, S.W., HOFFER, R.M. & MILCHUNAS, D.G. (1998) Biomass estimation on grazed and ungrazed rangelands using spectral indices. International Journal of Remote Sensing, 19, 427–438.
UNEP-WCMC & IUCN (2018) Protected Planet: The World Database on Protected Areas. UNEP-WCMC and IUCN, Cambridge, UK.
protectedplanet.net [accessed 27 July 2018].
WALTHER, G.R., POST, E., CONVEY, P., MENZEL, A., PARMESAN, C., BEEBEE, T.J.C. et al. (2002) Ecological responses to recent climate change. Nature, 416, 389–395.
WAND,M.(2015) KernSmooth: Functions for Kernel Smoothing Supporting Wand & Jones (1995). R package version 2.23-15. R Foundation, Vienna, Austria.
CRAN.R-project.org/package= KernSmooth [accessed 23 April 2017].
WATANABE, S., SUDO, K., NAGASHIMA, T., TAKEMURA,T., KAWASE,H. & NOZAWA,T. (2011) Future projections of surface UV-B in a changing climate. Climate and Dynamics, 116, 2156–2202.
Oryx, 2021, 55(3), 334–343 © The Author(s), 2020. Published by Cambridge University Press on behalf of Fauna & Flora International doi:10.1017/S0030605319000322
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