Blackburn, T. M. & Duncan, R. P. Establishment patterns of exotic birds are constrained by non-random patterns in introduction. J. Biogeogr. 28, 927–939 (2001).
Google Scholar
Long, J. L. Introduced Mammals of the World: Their History, Distribution and Abundance (CABI Publishing, 2003).
Google Scholar
Stuwe, M. & Scribner, K. T. Low genetic variability in reintroduced alpine ibex (Capra ibex ibex) populations. J. Mammal. 70, 370–373 (1989).
Google Scholar
Allendorf, F. W. & Lundquist, L. L. Introduction: Population biology, evolution, and control of invasive species. Conserv. Biol. 17, 24–30 (2003).
Google Scholar
Frankham, R. Genetics and extinction. Biol. Conserv. 126, 131–140 (2005).
Google Scholar
Michael Reed, J. et al. Emerging issues in population viability analysis. Conserv. Biol. 16, 7–19 (2002).
Google Scholar
Carpio, A. J. et al. Hunting as a source of alien species: A European review. Biol. Invasions 19, 1197–1211 (2017).
Google Scholar
Linnell, J. D. C. & Zachos, F. E. Status and distribution patterns of European ungulates: genetics, population history and conservation. In Ungulate Management in Europe: Problems and Practices (eds Putman, R. et al.) 12–53 (Cambridge University Press, 2011).
Google Scholar
Šprem, N., Gančević, P., Safner, T., Jerina, K. & Cassinello, J. Barbary sheep (Ammotragus lervia, Pallas 1777). In Handbook of the Mammals of Europe (eds Hackländer, K. & Zachos, F. E.) (Springer, 2021).
Cassinello, J. Ammotragus lervia: A review on systematics, biology, ecology and distribution. Ann. Zool. Fennici 35, 149–162 (1998).
Cassinello, J. Ammotragus lervia (aoudad). Invasive species compendium. http://www.cabi.org/isc (2015).
Bounaceur, F., Benamor, N., Bissaad, F. Z., Abdi, A. & Aulagnier, S. Is there a future for the last populations of aoudad (Ammotragus lervia) in northern Algeria?. Pak. J. Zool. 48, 1727–1731 (2016).
Cassinello, J. et al. Ammotragus lervia. The IUCN Red List of Threatened Species. www.iucnredlist.org (2008).
Lazarus, M. et al. Barbary sheep tissues as bioindicators of radionuclide and stabile element contamination in Croatia: Exposure assessment for consumers. Environ. Sci. Pollut. Res. 26, 14521–14533 (2019).
Google Scholar
Mori, E., Mazza, G., Saggiomo, L., Sommese, A. & Esattore, B. Strangers coming from the Sahara: An update of the worldwide distribution, potential impacts and conservation opportunities of alien aoudad. Ann. Zool. Fennici 54, 373–386 (2017).
Google Scholar
Gančević, P., Šprem, N. & Jerina, K. Space use and activity patterns of introduced Barbary sheep (Ammotragus lervia) in Southern Dinarides, Croatia in Abstract book of 6th World Congress on Mountain Ungulates and 5th International Symposium on Mouflon (ed. Hadjisterkotis, E.) 41 (2016).
Bartoš, L., Kotrba, R. & Pintíř, J. Ungulates and their management in the Czech Republic. In European Ungulates and their Management in the 21st Century (eds Apollonio, M. et al.) 243–261 (Cambridge University Press, 2010).
Cassinello, J., Serrano, E., Calabuig, G. & Pérez, J. M. Range expansion of an exotic ungulate (Ammotragus lervia) in southern Spain: Ecological and conservation concerns. Biodivers. Conserv. 13, 851–866 (2004).
Google Scholar
Anadón, J. D., Pérez-García, J. M., Pérez, I., Royo, J. & Sánchez-Zapata, J. A. Disentangling the effects of habitat, connectivity and interspecific competition in the range expansion of exotic and native ungulates. Landsc. Ecol. 33, 597–608 (2018).
Google Scholar
Cassinello, J. Misconception and mismanagement of invasive species: The paradoxical case of an alien ungulate in Spain. Conserv. Lett. 11, e12440. https://doi.org/10.1111/conl.12440 (2018).
Google Scholar
Prentis, P. J., Wilson, J. R. U., Dormontt, E. E., Richardson, D. M. & Lowe, A. J. Adaptive evolution in invasive species. Trends Plant Sci. 13, 288–294 (2008).
Google Scholar
Derouiche, L. et al. Deep mitochondrial DNA phylogeographic divergence in the threatened aoudad Ammotragus lervia (Bovidae, Caprini). Gene 739, 144510. https://doi.org/10.1016/j.gene.2020.144510 (2020).
Google Scholar
Selkoe, K. A. & Toonen, R. J. Microsatellites for ecologists: A practical guide to using and evaluating microsatellite markers. Ecol. Lett. 9, 615–629 (2006).
Google Scholar
Fernando, P., Vidya, T. N. C., Rajapakse, C., Dangolla, A. & Melnick, D. J. Reliable noninvasive genotyping: Fantasy or reality?. J. Hered. 94, 115–123 (2003).
Google Scholar
Cassinello, J. Ammotragus free-ranging population in the south-east of Spain: A necessary first account. Biodivers. Conserv. 9, 887–900 (2000).
Google Scholar
Moravčíková, N. et al. Identification of genetic families based on mitochondrial D-loop sequence in population of the Tatra chamois (Rupicapra rupicapra tatrica). Biologia 75, 121–128 (2019).
Google Scholar
Cassinello, J. Ammotragus lervia Aoudad (Barbary Sheep, Arui). In Mammals of Africa. Volume VI: Pigs, Hippopotamuses, Chevrotain, Giraffes, Deer and Bovids (eds Kingdon, J. & Hoffmann, M.) 595–599 (Bloomsbury Publishing, 2013).
Nei, M., Maruyama, T. & Chakraborty, R. The bottleneck effect and genetic variability in populations. Evolution 29, 1–10 (1975).
Google Scholar
Šprem, N. & Buzan, E. The genetic impact of chamois management in the dinarides. J. Wildl. Manag. 80, 783–793 (2016).
Google Scholar
Pascual-Rico, R. et al. Ecological niche overlap between co-occurring native and exotic ungulates: Insights for a conservation conflict. Biol. Invasions 22, 2497–2508 (2020).
Google Scholar
Dlugosch, K. M. & Parker, I. M. Founding events in species invasions: Genetic variation, adaptive evolution, and the role of multiple introductions. Mol. Ecol. 17, 431–449 (2008).
Google Scholar
Beja-Pereira, A. et al. Twenty polymorphic microsatellites in two of North Africa’s most threatened ungulates: Gazella dorcas and Ammotragus lervia (Bovidae; Artiodactyla). Mol. Ecol. Notes 4, 452–455 (2004).
Google Scholar
Schuelke, M. An economic method for the fluorescent labeling of PCR fragments. Nat. Biotechnol. 18, 233–234 (2000).
Google Scholar
Mereu, P., Palici di Suni, M., Manca, L. & Masala, B. Complete nucleotide mtDNA sequence of Barbary sheep (Ammotragus lervia). DNA Seq. 19, 241–245 (2008).
Google Scholar
Kumar, S., Stecher, G., Li, M., Knyaz, C. & Tamura, K. MEGA X: Molecular evolutionary genetics analysis across computing platforms. Mol. Biol. Evol. 35, 1547–1549 (2018).
Google Scholar
Rozas, J. et al. DnaSP 6: DNA sequence polymorphism analysis of large data sets. Mol. Biol. Evol. 34, 3299–3302 (2017).
Google Scholar
Bandelt, H.-J., Forster, P. & Rohl, A. Median-joining networks for inferring intraspecific phylogenies. Mol. Biol. Evol. 16, 37–48 (1999).
Google Scholar
Leigh, J. W. & Bryant, D. POPART: Full-feature software for haplotype network construction. Methods Ecol. Evol. 6, 1110–1116 (2015).
Google Scholar
van Oosterhout, C., Hutchinson, W. F., Wills, D. P. M. & Shipley, P. MICROCHECKER: Software for identifying and correcting genotyping errors in microsatellite data. Mol. Ecol. Notes 4, 535–538 (2004).
Google Scholar
Dempster, A. P., Laird, N. M. & Rubin, D. B. Maximum likelihood from incomplete data via the EM algorithm. J. R. Stat. Soc. Ser. B 39, 1–22 (1977).
Google Scholar
Chapuis, M.-P. & Estoup, A. Microsatellite null alleles and estimation of population differentiation. Mol. Biol. Evol. 24, 621–631 (2007).
Google Scholar
Kalinowski, S. T., Taper, M. L. & Marshall, T. C. Revising how the computer program CERVUS accommodates genotyping error increases success in paternity assignment. Mol. Ecol. 16, 1099–1106 (2007).
Google Scholar
Belkhir K, Borsa P, Goudet, J., Chikhi, L. & Bonhomme, F. Genetix 4.05, logiciel sous Windows TM pour la genetique des populations. Available at: http://www.genetix.univ-montp2.fr/genetix/genetix.htm (2004)
Weir, B. S. & Cockerham, C. C. Estimating F-statistics for the analysis of population structure. Evolution 38, 1358–1370 (1984).
Google Scholar
Rousset, F. GENEPOP’007: A complete re-implementation of the GENEPOP software for Windows and Linux. Mol. Ecol. Resour. 8, 103–106 (2008).
Google Scholar
Kalinowski, S. T. Counting alleles with rarefaction: Private alleles and hierarchical sampling designs. Conserv. Genet. 5, 539–543 (2004).
Google Scholar
Waples, R. S. A bias correction for estimates of effective population size based on linkage disequilibrium at unlinked gene loci. Conserv. Genet. 7, 167–184 (2006).
Google Scholar
Do, C. et al. NeEstimator v2: Re-implementation of software for the estimation of contemporary effective population size (Ne) from genetic data. Mol. Ecol. Resour. 14, 209–214 (2014).
Google Scholar
Waples, R. S. & Do, C. Linkage disequilibrium estimates of contemporary Ne using highly variable genetic markers: A largely untapped resource for applied conservation and evolution. Evol. Appl. 3, 244–262 (2010).
Google Scholar
Pritchard, J. K., Stephens, M. & Donnelly, P. Inference of population structure using multilocus genotype data. Genetics 155, 945–959 (2000).
Google Scholar
Earl, D. A. & vonHoldt, B. M. STRUCTURE HARVESTER: A website and program for visualizing STRUCTURE output and implementing the Evanno method. Conserv. Genet. Resour. 4, 359–361 (2012).
Google Scholar
Jakobsson, M. & Rosenberg, N. A. CLUMPP: A cluster matching and permutation program for dealing with label switching and multimodality in analysis of population structure. Bioinformatics 23, 1801–1806 (2007).
Google Scholar
Rosenberg, N. A. DISTRUCT: A program for the graphical display of population structure. Mol. Ecol. Notes 4, 137–138 (2004).
Google Scholar
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