Европа. Естественная история. От возникновения до настоящего и немного дальше — страница 60 из 62

Science, Vol. 352, Issue 6290, pp. 1228–1231, 2016.

Botigué, L. R. et al., ‘Ancient European dog genomes reveal continuity since the Early Neolithic’, Nature Communications, Vol. 8, Article No. 16082, 2017.

Глава 28

220. Callaway, E., ‘Elephant history rewritten by ancient genomes’, Nature, News, 16 September 2016.

221. Palkopoulou, E. et al., ‘A comprehensive genomic history of extinct and living elephants’, PNAS, Vol. 115, No. 11, 26 February 2018.

222. Thieme, H. and Veil, S., ‘Neue Untersuchungen zum eemzeitlichen Elefanten-Jagdplatz Lengingen’, Ldkg. Verden. Die Kunde, Vol. 236, pp. 11–58, 1985.

223. Geer, A. van der, et al., Evolution of Island Mammals, Wiley Blackwell, UK, 2010.

Глава 29

224. Pushkina, D., ‘The Pleistocene easternmost distribution in Eurasia of the species associated with the Eemian Palaeoloxodon antiquus assemblage’, Mammal Reviews, Vol. 37, pp. 224–245, 2007.

225. Pulcher, E., ‘Erstnachweis des europaischen Wilkdesels (Equus hydruntius, Regalia, 1907) im Holozan Österreichs’, 1991.

226. Naito, Y. I. et al., ‘Evidence for herbivorous cave bears (Ursus spelaeus) in Goyet Cave, Belgium: implications for palaeodietary reconstruction of fossil bears using amino acid δ 15N approaches’, Journal of Quaternary Science, Vol. 31, pp. 598–606, 2016.

227. Pacher, M. and Stuart, A., ‘Extinction chronology and palaeobiology of the cave bear (Ursus spelaeus)’, Boreas, Vol. 35, Issue 2, pp. 189–206, 2008.

228. MüS, C. and Conard, N. J., ‘Cave bear hunting in Hohle Fels Cave in the Ach Valley of the Swabian Jura’, Revue de Paléobiologie, Vol. 23, Issue 2, pp. 877–885, 2004.

229. Gonzales, S. et al., ‘Survival of the Irish Elk into the Holocene’, Nature, Vol. 405, pp. 753–754, 2000.

230. Kirillova, I. V., ‘On the discovery of a cave lion from the Malyi Anyui River (Chukotka, Russia)’, Quaternary Science Reviews, Vol. 117, pp. 135–151, 2015.

231. Bocherens, H. et al., ‘Isotopic evidence for dietary ecology of cave lion (Panthera spelaea) in North-Western Europe: Prey choice, competition and implications for extinction’, Quaternary International, Vol. 245, pp. 249–261, 2011.

232. Cuerto, M. et al., ‘Under the skin of a lion: unique evidence of Upper Palaeolithic exploitation and use of cave lion (Panthera spelaea) from the Lower Gallery of La Garma (Spain)’, PLOS ONE, Vol. 11, Issue 10, Article No. e0163591, 2016.

233. Rohland, N. et al., ‘The population history of extant and extinct hyenas’, Molecular Biology and Evolution, Vol. 22, Issue 12, pp. 2435–2443, 2005.

234. Varela, S. et al., ‘Were the Late Pleistocene climatic changes responsible for the disappearance of the European spotted hyena populations? Hindcasting a species geographic distribution across time’, Quaternary Science Reviews, Vol. 29, pp. 2027–2035, 2010.

235. Diedrich, C. G., ‘Late Pleistocene leopards across Europe – northernmost European German population, highest elevated records in the Swiss Alps, complete skeletons in the Bosnia Herzegowina Dinarids and comparison to the Ice Age cave art’, Quaternary Science Reviews, Vol. 76, pp. 167–193, 2013.

Sommer, R. S. and Benecke, N., ‘Late Pleistocene and Holocene development of the felid fauna (Felidae) of Europe: a review’, Journal of Zoology, Vol. 269, pp. 7–19, 2006.

Глава 30

236. Gupta, S. et al., ‘Two-stage opening of the Dover Strait and the origin of Island Britain’, Nature Communications, Vol. 8, Article No. 15101, 2017.

237. Kahlke, R. D., ‘The origin of Eurasian mammoth faunas (Mammuthus, Coelodonta faunal complex)’, Quaternary Science Reviews, Vol. 96, pp. 32–49, 2012.

238. Todd, N. E., ‘Trends in proboscidean diversity in the African Cenozoic’, Journal of Mammalian Evolution, Vol. 13, pp. 1–10, 2006.

239. Stuart, A. J. et al., ‘The latest woolly mammoths (Mammuthus primigenius Blumenbach) in Europe and Asia: A review of the current evidence’, Quaternary Science Reviews, Vol. 21, pp. 1559–1569, 2002.

240. Palkopoulou, E. et al., ‘Holarctic genetic structure and range dynamics in the woolly mammoth’, Proceedings of the Royal Society B, Vol. 280, Issue 1770, 2013.

Lister, A. M., ‘Late-glacial mammoth skeletons (Mammuthus primigenius) from Condover (Shropshire, UK): Anatomy, pathology, taphonomy and chronological significance’, Geological Journal, Vol. 44, pp. 447–479, 2009.

241. Stuart, A. J. et al., ‘The latest woolly mammoths (Mammuthus primigenius Blumenbach) in Europe and Asia: A review of the current evidence’, Quaternary Science Reviews, Vol. 21, pp. 1559–1569, 2002.

242. Boeskorov, G. G., ‘Some specific morphological and ecological features of the fossil woolly rhinoceros (Coelodonta antiquitatis Blumenbach 1799)’, Biology Bulletin, Vol. 39, Issue 8, pp. 692–707, 2012.

243. Jacobi, R. M. et al., ‘Revised radiocarbon ages on woolly rhinoceros (Coelodonta antiquitatis) from western central Scotland: significance for timing the extinction of woolly rhinoceros in Britain and the onset of the LGM in central Scotland’, Quaternary Science Reviews, Vol. 28, pp. 2551–2556, 2009.

244. Shpansky, A. V. et al., ‘The Quaternary mammals from Kozhamzhar Locality (Pavlodar Region, Kazakhstan)’, American Journal of Applied Science, Vol. 13, pp. 189–199, 2016.

245. Reumer, J. W. F. et al., ‘Late Pleistocene survival of the saber-toothed cat Homotherium in northwestern Europe’, Journal of Vertebrate Paleontology, Vol. 23, pp. 260–262, 2003.

246. Дополнительное обсуждение упадка саблезубых можно найти в работах: Macdonald, D. and Loveridge, A., The Biology and Conservation of Wild Felids, Oxford University Press, Oxford, 2010.

Глава 31

247. Guthrie, R. D., The Nature of Paleolithic Art, University of Chicago Press, Chicago, 2005.

248. Quiles, A. et al., ‘A high-precision chronological model for the decorated Upper Paleolithic cave of Chauvet-Pont d’Arc, Ardèche, France’, PNAS, Vol. 113, pp. 4670–4675, 2016.

249. Guthrie, R. D., The Nature of Paleolithic Art, University of Chicago Press, Chicago, 2005, pp. 276–296.

250. Там же, с. 324.

251. Schmidt, I., Solutrean Points of the Iberian Peninsula: Tool Making and Using Behaviour of Hunter-Gatherers during the Last Glacial Maximum, British Archaeological Reports, Oxford, 2015.

Глава 32

252. Tallavaara, M. L. et al., ‘Human population dynamics in Europe over the Last Glacial Maximum’, PNAS, Vol. 112, Issue 27, pp. 8232–8237, 2015.

253. Sommer, R. S. and Benecke, N., ‘Late Pleistocene and Holocene development of the felid fauna (Felidae) of Europe: a review’, Journal of Zoology, Vol. 269, pp. 7–19, 2006.

254. Heptner, V. G. and Sludskii, A. A., Mammals of the Soviet Union, Vol. II, Part 2, ‘Carnivora (Hyaenas and Cats)’, Leiden, New York, 1992. Üstay, A. H., Hunting in Turkey, BBA, Istanbul, 1990.

255. Rohland, N. et al., ‘The population history of extant and extinct hyenas’, Molecular Biology and Evolution, Vol. 22, Issue 12, pp. 2435–2443, 2005.

256. Fu, Q. et al., ‘The genetic history of Ice Age Europe’, Nature, Vol. 534, pp. 200–205, 2016.

257. Schmidt, K., ‘Göbekli Tepe – Eine Beschreibung der wichtigsten Befunde erstellt nach den Arbeiten der Grabungsteams der Jahre 1995–2007’, in Erste Tempel – Frühe Siedlungen, 12000 Jahre Kunst und Kultur, Oldenburg, 2009.

Глава 33

258. Huntley, B., ‘European post-glacial forests: compositional changes in response to climatic change’, Journal of Vegetation Science, Vol. 1, pp. 507–518, 1990.

259. Zeder, M. A., ‘Domestication and early agriculture in the Mediterranean Basin: Origins, diffusion, and impact’, PNAS, Vol. 105, Issue 33, pp. 11597–11604, 2008.

260. Fagan, B., The Long Summer: How Climate Changed Civilisation, Granta Books, London, 2004.

261. Zilhao, J., ‘Radiocarbon evidence for maritime pioneer colonization at the origins of farming in west Mediterranean Europe’, PNAS, Vol. 98, pp. 14180–14185, 2001.

262. Frantz, A.C., ‘Genetic evidence for introgression between domestic pigs and wild boars (Sus scrofa) in Belgium and Luxembourg: a comparative approach with multiple marker systems’, Biological Journal of the Linnean Society, Vol. 110, pp. 104–115, 2013.

263. Park, S. D. E. et al., ‘Genome sequencing of the extinct Eurasian wild aurochs, Bos primigenius, illuminates the phylogeography and evolution of cattle’, Genome Biology, Vol. 16, p. 234, 2015.

Глава 34

264. Bramanti, B. et al., ‘Genetic discontinuity between local hunter-gatherers and central Europe’s first farmers’, Science, Vol. 326, pp. 137–140, 2009.

265. Downey, S. E. et al., ‘The neolithic demographic transition in Europe: correlation with juvenility index supports interpretation of the summed calibrated radiocarbon date probability distribution (SCDPD) as a valid demographic proxy’, PLOS ONE, 9 (8): e105730, 25 August 2014.

266. ‘Childe, Vere Gordon (1892–1957)’, Australian Dictionary of Biography, Melbourne University Publishing, Melbourne, 1979.

267. Low, J., ‘New light on the death of V. Gordon Childe’, Australian Society for the Study of Labour History, undated, www.laborhistory.org.au/hummer/no-8/gordon-childe/

268. Green, K., ‘V. Gordon Childe and the vocabulary of revolutionary change’, Antiquity, Vol. 73, pp. 97–107, 1961.

269. Stevenson, A., ‘Yours (unusually) cheerfully, Gordon: Vere Gordon Childe’s letters to RBK Stevenson’,