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potential of elephant heads in Paleolithic sites (2016) Quat. Int., 406, pp. 218-226; \n\nAgenbroad, L.D., North American proboscideans: mammoths - the state of knowledge, 2003 (2005) Quat. Int., 126-28, pp. 73-92; \n\nAiello, L.C., Five years of Homo floresiensis (2010) Am. J. Phys. Anthropol., 142, pp. 167-179; \n\nAmbrose, S.H., Norr, L., Experimental evidence for the relationship of the carbon isotope ratios of whole diet and dietary protein to those of bone collagen and carbonate (1993) Prehistoric Human Bone: Archaeology at the Molecular Level, pp. 1-37. , J.B. Lambert G. Grupe Springer-Verlag Berlin; \n\nArppe, L., Aaris-Sorensen, K., Daugnora, L., Lougas, L., Wojtal, P., Zupins, I., The palaeoenvironmental δ13C record in European woolly mammoth tooth enamel (2011) Quat. Int., 245, pp. 285-290; \n\nArppe, L., Karhu, J.A., Implications for the Late Pleistocene climate in Finland and adjacent areas from the isotopic composition of mammoth skeletal remains (2006) Palaeogeogr. Palaeoclimatol. Palaeoecol., 231, pp. 322-330; \n\nArppe, L., Karhu, J.A., Oxygen isotope values of precipitation and the thermal climate in Europe during the middle to late Weichselian ice age (2010) Quat. Sci. Rev., 29, pp. 1263-1275; \n\nArppe, L., Karhu, J.A., Vartanyan, S.L., Bioapatite 87Sr/86Sr of the last woolly mammoths: implications for the isolation of Wrangel Island (2009) Geology, 37, pp. 347-350; \n\nAyliffe, L.K., Chivas, A.R., Leakey, M.G., The retention of primary oxygen isotope compositions of fossil elephant skeletal phosphate (1994) Geochim. Cosmochim. Acta, 58, pp. 5291-5298; \n\nAyliffe, L.K., Lister, A.M., Chivas, A.R., The preservation of glacial-interglacial climatic signatures in the oxygen isotopes of elephant skeletal phosphate (1992) Palaeogeogr. Palaeoclimatol. Palaeoecol., 99, pp. 179-191; \n\nBarbieri, M., Kuznetsova, T.V., Nikolaev, V.I., Palombo, M.R., Strontium isotopic composition in late Pleistocene mammal bones from the Yakutian region (North-Eastern Siberia) (2008) Quat. Int., 179, pp. 72-78; \n\nBaumann, E.J., Jr., Crowley, B.E., Stable isotopes reveal ecological differences amongst now-extinct proboscideans from the Cincinnati region, USA (2015) Boreas, 44, pp. 240-254; \n\nBentley, R.A., Strontium isotopes from the earth to the archaeological skeleton: a review (2006) J. Archaeol. Method Theory, 13, pp. 135-187; \n\nBocherens, H., Isotopic biogeochemistry and the paleoecology of the mammoth steppe fauna (2003) Deinsea, 9, pp. 57-71; \n\nBocherens, H., Neanderthal dietary habits: review of the isotopic evidence (2009) The Evolution of Hominin Diets: Integrating Approaches to the Study of Palaeolithic Subsistence, pp. 241-250. , J.-J. Hublin M.P. Richards Springer Dordrecht; London; \n\nBocherens, H., Possible freshwater resource consumption by the earliest directly dated European modern humans: implications for direct radiometric dating (2009) Proc. Natl. Acad. Sci., 106, p. E117; \n\nBocherens, H., Diet and ecology of Neanderthals: implications from C and N isotopes (2011) Neanderthal Lifeways, Subsistence and Technology: One Hundred Fifty Years of Neanderthal Study, pp. 73-85. , N.J. Conard J. Richter; \n\nBocherens, H., Billiou, D., Mariotti, A., Toussaint, M., Patou-Mathis, M., Bonjean, D., Otte, M., New isotopic evidence for dietary habits of Neandertals from Belgium (2001) J. Hum. Evol., 40, pp. 497-505; \n\nBocherens, H., Billiou, D., Patou-Mathis, M., Bonjean, D., Otte, M., Mariotti, A., Paleobiological implications of the isotopic signatures (13C, 15N) of fossil mammal collagen in Scladina cave (Sclayn, Belgium) (1997) Quat. Res., 48, pp. 370-380; \n\nBocherens, H., Drucker, D.G., Billiou, D., Patou-Mathis, M., Vandermeersch, B., Isotopic evidence for diet and subsistence pattern of the Saint-Cesaire I Neanderthal: review and use of a multi-source mixing model (2005) J. Hum. Evol., 49, pp. 71-87; \n\nBocherens, H., Drucker, D.G., Germonpré, M., Laznickova-Galetova, M., Naito, Y.I., Wissing, C., Brůžek, J., Oliva, M., Reconstruction of the Gravettian food-web at Předmostí I using multi-isotopic tracking (13C, 15N, 34S) of bone collagen (2015) Quat. Int., 359, pp. 211-228; \n\nBocherens, H., Drucker, D.G., Madelaine, S., Evidence for a 15N positive excursion in terrestrial foodwebs at the Middle to Upper Palaeolithic transition in south-western France: implications for early modern human palaeodiet and palaeoenvironment (2014) J. Hum. Evol., 69, pp. 31-43; \n\nBocherens, H., Fizet, M., Mariotti, A., Gangloff, R.A., Burns, J.A., Contribution of isotopic biogeochemistry (13C, 15N, 18O) to the paleoecology of mammoths (Mammuthus primigenius) (1994) Hist. Biol., 7, pp. 187-202; \n\nBocherens, H., Fizet, M., Mariotti, A., Lange-Badre, B., Vandermeersch, B., Borel, J.P., Bellon, G., Isotopic biogeochemistry (13C,15N) of fossil vertebrate collagen: application to the study of a past food web including Neandertal man (1991) J. Hum. Evol., 20, pp. 481-492; \n\nBocherens, H., Pacaud, G., Lazarev, P.A., Mariotti, A., Stable isotope abundances (13C, 15N) in collagen and soft tissues from Pleistocene mammals from Yakutia: implications for the palaeobiology of the Mammoth Steppe (1996) Palaeogeogr. Palaeoclimatol. Palaeoecol., 126, pp. 31-44; \n\nBoschian, G., Sacca, D., Ambiguities in human and elephant interactions? Stories of bones, sand and water from Castel di Guido (Italy) (2010) Quat. Int., 214, pp. 3-16; \n\nBoschian, G., Saccà, D., In the elephant, everything is good: carcass use and re-use at Castel di Guido (Italy) (2015) Quat. Int., 361, pp. 288-296; \n\nBouché, P., Douglas-Hamilton, I., Wittemyer, G., Nianogo, A.J., Doucet, J.L., Lejeune, P., Vermeulen, C., Will elephants soon disappear from West African savannahs? (2011) PLoS One, 6, p. e20619; \n\nBowen, G.J., Isoscapes: spatial pattern in isotopic biogeochemistry (2010) Annu. Rev. Earth Planet. Sci., 38, pp. 161-187; \n\nBraun, I.M., Palombo, M.R., Mammuthus primigenius in the cave and portable art: an overview with a short account on the elephant fossil record in Southern Europe during the last glacial (2012) Quat. Int., 276, pp. 61-76; \n\nBrumm, A., Jensen, G.M., van den Bergh, G.D., Morwood, M.J., Kurniawan, I., Aziz, F., Storey, M., Hominins on Flores, Indonesia, by one million years ago (2010) Nature, 464, pp. 748-753; \n\nBryant, J.D., Froelich, P.N., A model of oxygen-isotope fractionation in body-water of large mammals (1995) Geochim. Cosmochim. Acta, 59, pp. 4523-4537; \n\nBryant, J.D., Koch, P., Froelich, P.N., Showers, W.J., Genna, B.J., Oxygen isotope partitioning between phosphate and carbonate in mammalian apatite (1996) Geochim. Cosmochim. Acta, 60, pp. 5145-5148; \n\nByers, D.A., Ugan, A., Should we expect large game specialization in the late Pleistocene An optimal foraging perspective on early Paleoindian prey choice (2005) J. Archaeol. Sci., 32, pp. 1624-1640; \n\nCerling, Ormondi, P., Macharia, A.N., Diets of Kenyan elephants from stable isotopes and the origin of confiscated ivory in Kenya (2007) Afr. J. Ecol., 45, pp. 614-623; \n\nCerling, T.E., Harris, J.M., Leakey, M.G., Browsing and grazing in elephants: the isotope record of modern and fossil proboscideans (1999) Oecologia, 120, pp. 364-374; \n\nCerling, T.E., Harris, J.M., MacFadden, B.J., Leakey, M.G., Quade, J., Eisenmann, V., Ehleringer, J.R., Global vegetation change through the Miocene/Pliocene boundary (1997) Nature, 389, pp. 153-158; \n\nCerling, T.E., Passey, B.H., Ayliffe, L.K., Cook, C.S., Ehleringer, J.R., Harris, J.M., Dhidha, M.B., Kasiki, S.M., Orphans' tales: seasonal dietary changes in elephants from Tsavo National Park, Kenya (2004) Palaeogeogr. Palaeoclimatol. Palaeoecol., 206, pp. 367-376; \n\nCerling, T.E., Wang, Y., Quade, J., Expansion of C4 ecosystems as an indicator of global ecological change in the Late Miocene (1993) Nature, 361, pp. 344-345; \n\nCerling, T.E., Wittemyer, G., Ehleringer, J.R., Remien, C.H., Douglas-Hamilton, I., History of Animals using Isotope Records (HAIR): a 6-year dietary history of one family of African elephants (2009) Proc. Natl. Acad. Sci., 106, pp. 8093-8100; \n\nCerling, T.E., Wittemyer, G., Rasmussen, H.B., Vollrath, F., Cerling, C.E., Robinson, T.J., Douglas-Hamilton, I., Stable isotopes in elephant hair document migration patterns and diet changes (2006) Proc. Natl. Acad. Sci., 103, pp. 371-373; \n\nClementz, M.T., Fox-Dobbs, K., Wheatley, P.V., Koch, P.L., Doak, D.F., Revisiting old bones: coupled carbon isotope analysis of bioapatite and collagen as an ecological and palaeoecological tool (2009) Geol. J., 44, pp. 605-620; \n\nCodron, J., Codron, D., Sponheimer, M., Kirkman, K., Duffy, K.J., Raubenheimer, E.J., Melice, J.-L., Lee-Thorp, J.A., Stable isotope series from elephant ivory reveal lifetime histories of a true dietary generalist (2012) Proc. R. Soc. B-Biol. Sci., 279, pp. 2433-2441; \n\nCodron, J., Kirkman, K., Duffy, K.J., Sponheimer, M., Lee-Thorp, J.A., Ganswindt, A., Clauss, M., Codron, D., Stable isotope turnover and variability in tail hairs of captive and free-ranging African elephants (Loxodonta africana) reveal dietary niche differences within populations (2013) Can. J. Zool., 91, pp. 124-134; \n\nColtrain, J.B., Harris, J.M., Cerling, T.E., Ehleringer, J.R., Dearing, M.D., Ward, J., Allen, J., Rancho La Brea stable isotope biogeochemistry and its implications for the palaeoecology of late Pleistocene, coastal southern California (2004) Palaeogeogr. Palaeoclimatol. Palaeoecol., 205, pp. 199-219; \n\nConard, N.J., Palaeolithic ivory sculptures from southwestern Germany and the origins of figurative art (2003) Nature, 426, pp. 830-832; \n\nConnin, S.L., Betancourt, J., Quade, J., Late Pleistocene C4 plant dominance and summer rainfall in the southwestern United States from isotopic study of herbivore teeth (1998) Quat. Res., 50, pp. 179-193; \n\nDansgaard, W., Stable isotopes in precipitation (1964) Tellus, 16, pp. 436-468; \n\nDemay, L., Pean, S., Patou-Mathis, M., Mammoths used as food and building resources by Neanderthals: zooarchaeological study applied to layer 4, Molodova I (Ukraine) (2012) Quat. Int., 276, pp. 212-226; \n\nDeSantis, L.R.G., Feranec, R.S., MacFadden, B.J., Effects of global warming on ancient mammalian communities and their environments (2009) PLoS One, 4, p. e5750; \n\nDomínguez-Rodrigo, M., Bunn, H.T., Mabulla, A.Z.P., Baquedano, E., Uribelarrea, D., Pérez-González, A., Gidna, A., Ansón, M., On meat eating and human evolution: a taphonomic analysis of BK4b (Upper Bed II, Olduvai Gorge, Tanzania), and its bearing on hominin megafaunal consumption (2014) Quat. Int., 322-323, pp. 129-152; \n\nDrucker, D., Bocherens, H., Carbon and nitrogen stable isotopes as tracers of change in diet breadth during Middle and Upper Palaeolithic in Europe (2004) Int. J. Osteoarchaeol., 14, pp. 162-177; \n\nDrucker, D.G., Bocherens, H., Péan, S., Stable carbon (13C) and nitrogen (15N) isotope abundances in collagen of the mammoth of Mezhyrich (Epigravettian, Ukraine): palaeoecological implications (2014) Anthropol. Fr., 118, pp. 504-517; \n\nDrucker, D.G., Bridault, A., Hobson, K.A., Szuma, E., Bocherens, H., Can carbon-13 in large herbivores reflect the canopy effect in temperate and boreal ecosystems? Evidence from modern and ancient ungulates (2008) Palaeogeogr. Palaeoclimatol. Palaeoecol., 266, pp. 69-82; \n\nDrucker, D.G., Hobson, K.A., Ouellet, J.P., Courtois, R., Influence of forage preferences and habitat use on 13C and 15N abundance in wild caribou (Rangifer tarandus caribou) and moose (Alces alces) from Canada (2010) Isotopes Environ. Health Stud., 46, pp. 107-121; \n\nDrucker, D.G., Vercoutère, C., Chiotti, L., Nespoulet, R., Crépin, L., Conard, N.J., Münzel, S.C., Bocherens, H., Tracking possible decline of woolly mammoth during the Gravettian in Dordogne (France) and the Ach Valley (Germany) using multi-isotope tracking (13C, 14C, 15N, 34S, 18O (2015) Quat. Int., 359, pp. 304-317; \n\nEl Zaatari, S., Grine, F.E., Ungar, P.S., Hublin, J.J., Ecogeographic variation in Neandertal dietary habits: evidence from occlusal molar microwear texture analysis (2011) J. Hum. Evol., 61, pp. 411-424; \n\nEllis, C.J., Carr, D.H., Loebel, T.J., The Younger Dryas and late Pleistocene peoples of the great lakes region (2011) Quat. Int., 242, pp. 534-545; \n\nEspinoza, E.O., Mann, M.-J., The history and significance of the Schreger pattern in proboscidean ivory characterization (1993) J. Am. Inst. Conserv., 32, pp. 241-248; \n\nFeller, L., Yasman, Y., Bulatov, V., Raubenheimer, E.J., Schechter, I., Nondestructive fingerprinting of ivories using Fourier transform imaging fluorescence and Raman spectral imaging (2004) Instrum. Sci. Technol., 32, pp. 467-478; \n\nFeranec, R.S., Geographic variation in the diet of hypsodont herbivores from the Rancholabrean of Florida (2004) Palaeogeogr. Palaeoclimatol. Palaeoecol., 207, pp. 359-369; \n\nFeranec, R.S., MacFadden, B.J., Isotopic discrimination of resource partitioning among ungulates in C3-dominated communities from the Miocene of Florida and California (2006) Paleobiology, 32, pp. 191-205; \n\nFeranec, R.S., MacFadden, K.B.J., Evolution of the grazing niche in Pleistocene mammals from Florida: evidence from stable isotopes (2000) Palaeogeogr. Palaeoclimatol. Palaeoecol., 162, pp. 155-169; \n\nFerretti, M.P., Structure and evolution of mammoth molar enamel (2003) Acta Palaeontol. Pol., 48, pp. 383-396; \n\nFisher, D.C., Mastodont procurement by Paleoindians of the Great Lakes region: hunting or scavenging? (1987) The Evolution of Human Hunting, , M.H. Nitecki D.V. Nitecki Plenum Press New York; \n\nFisher, D.C., Season of death of the Hiscock mastodonts (1988) Late Pleistocene and Early Holocene Paleoecology and Archeology of the Eastern Great Lakes Region: Proceedings of the Smith Symposium, pp. 115-125. , R.S. Laub N.G. Miller D.W. Steadman Buffalo Society of Natural Sciences Buffalo; \n\nFisher, D.C., Extinction of proboscideans in north America (1996) The Proboscidea: Evolution and Palaeoecology of Elephants and Their Relatives, pp. 296-315. , J. Shoshani P. Tassy Oxford University Press Oxford; \n\nFisher, D.C., Paleobiology and extinction of proboscideans in the great lakes region of north America (2009) American Megafaunal Extinctions at the End of the Pleistocene, pp. 55-75. , G. Haynes Springer Netherlands; \n\nFisher, D.C., Cherney, M.D., Newton, C., Rountrey, A.N., Calamari, Z.T., Stucky, R.K., Lucking, C., Petrie, L., Taxonomic overview and tusk growth analyses of Ziegler Reservoir proboscideans (2014) Quat. Res., 82, pp. 518-532; \n\nFisher, D.C., Fox, D.L., Season of death and terminal growth histories of Hiscock mastodons (2003) The Hiscock Site: Late Pleistocene and Holocene Paleoecology and Archaeology of Western New York State: Proceedings of the Second Smith Symposium, Held at the Buffalo Museum of Science, October 14-15, 2001, pp. 83-101. , R.S. Laub Buffalo Society of Natural Sciences Buffalo; \n\nFisher, D.C., Fox, D.L., Five years in the life of an Aucilla River mastodon (2006) First Floridians and Last Mastodons: the Page-Ladson Site in the Auscilla River, pp. 343-377. , S.D. Webb Springer Netherlands; \n\nFisher, D.C., Fox, D.L., Season of death of the Dent mammoths: distinguishing single from multiple mortality events (2007) Frontiers in Colorado Paleoindian Archaeology: from the Dent Site to the Rocky Mountains, pp. 123-153. , R.H. Brunswig B.L. Pitblado University Press of Colorado Boulder; \n\nFisher, D.C., Fox, D.L., Agenbroad, L.D., Tusk growth rate and season of death of Mammuthus columbi from Hot Springs, South Dakota, USA (2003) Deinsea, 9, pp. 117-133; \n\nFizet, M., Mariotti, A., Bocherens, H., Langebadre, B., Vandermeersch, B., Borel, J.P., Bellon, G., Effect of diet, physiology and climate on carbon and nitrogen stable isotopes of collagen in a Late Pleistocene anthropic palaeoecosystem: Marillac, Charente, France (1995) J. Archaeol. Sci., 22, pp. 67-79; \n\nFox-Dobbs, K., Leonard, J.A., Koch, P.L., Pleistocene megafauna from eastern Beringia: paleoecological and paleoenvironmental interpretations of stable carbon and nitrogen isotope and radiocarbon records (2008) Palaeogeogr. Palaeoclimatol. Palaeoecol., 261, pp. 30-46; \n\nFox, D.L., Fisher, D.C., Stable isotope ecology of a late Miocene population of Gomphotherium productus (Mammalia, proboscidea) from port of entry pit, Oklahoma, USA (2001) Palaios, 16, pp. 279-293; \n\nFox, D.L., Fisher, D.C., Dietary reconstruction of Miocene Gomphotherium (Mammalia, Proboscidea) from the Great Plains region, USA, based on the carbon isotope composition of tusk and molar enamel (2004) Palaeogeogr. Palaeoclimatol. Palaeoecol., 206, pp. 311-335; \n\nFox, D.L., Fisher, D.C., Vartanyan, S., Tikhonov, A.N., Mol, D., Buigues, B., Paleoclimatic implications of oxygen isotopic variation in late Pleistocene and Holocene tusks of Mammuthus primigenius from northern Eurasia (2007) Quat. Int., 169, pp. 154-165; \n\nFrance, C.A.M., Zelanko, P.M., Kaufman, A.J., Holtz, T.R., Carbon and nitrogen isotopic analysis of Pleistocene mammals from the Saltville Quarry (Virginia, USA): implications for trophic relationships (2007) Palaeogeogr. Palaeoclimatol. Palaeoecol., 249, pp. 271-282; \n\nGarcia-Alix, A., Delgado Huertas, A., Martin Suarez, E., Unravelling the Late Pleistocene habitat of the southernmost woolly mammoths in Europe (2012) Quat. Sci. Rev., 32, pp. 75-85; \n\nGaudzinski, S., Turner, E., Anzidei, A.P., Àlvarez-Fernández, E., Arroyo-Cabrales, J., Cinq-Mars, J., Dobosi, V.T., Villa, P., The use of Proboscidean remains in every-day Palaeolithic life (2005) Quat. Int., 126-128, pp. 179-194; \n\nGenoni, L., Iacumin, P., Nikolaev, V., Gribchenko, Y., Longinelli, A., Oxygen isotope measurements of mammoth and reindeer skeletal remains: an archive of Late Pleistocene environmental conditions in Eurasian Arctic (1998) Earth Planet. Sci. Lett., 160, pp. 587-592; \n\nGermonpre, M., Sablin, M., Khlopachev, G.A., Grigorieva, G.V., Possible evidence of mammoth hunting during the epigravettian at Yudinovo, Russian plain (2008) J. Anthropol. Archaeol., 27, pp. 475-492; \n\nGraham, R.W., Belmecheri, S., Choy, K., Culleton, B.J., Davies, L.J., Froese, D., Heintzman, P.D., Wooller, M.J., Timing and causes of mid-Holocene mammoth extinction on St. Paul Island, Alaska (2016) Proc. Natl. Acad. Sci., 113, pp. 9310-9314; \n\nGrayson, D.K., Deciphering north american Pleistocene extinctions (2007) J. Anthropol. Res., 63, pp. 185-213; \n\nGrayson, D.K., Meltzer, D.J., Clovis hunting and large mammal extinction: a critical review of the evidence (2002) J. World Prehistr., 16, pp. 313-359; \n\nGrayson, D.K., Meltzer, D.J., Revisiting paleoindian exploitation of extinct north american mammals (2015) J. Archaeol. Sci., 56, pp. 177-193; \n\nHatch, K.A., The use and application of stable isotope analysis to the study of starvation, fasting, and nutritional stress in animals (2012) Comparative Physiology of Fasting, Starvation, and Food Limitation, pp. 337-364. , M.D. McCue Springer Berlin Heidelberg; \n\nHaury, E.W., Antevs, E., Lance, J.F., Artifacts with mammoth remains, Naco, Arizona (1953) Am. Antiq., 19, pp. 1-24; \n\nHaury, E.W., Sayles, E.B., Wasley, W.W., The lehner mammoth site, southeastern Arizona (1959) Am. Antiq., 25, pp. 2-30; \n\nHaynes, C.V., Geoarchaeological and paleohydrological evidence for a Clovis-age drought in North America and its bearing on extinction (1991) Quat. Res., 35, pp. 438-450; \n\nHaynes, C.V., Hemmings, E.T., Mammoth-bone shaft wrench from Murray springs, Arizona (1968) Science, 159, pp. 186-187; \n\nHaynes, C.V., Huckell, B.B., Murray Springs: a Clovis Site with Multiple Activity Areas in the San Pedro Valley, Arizona (2007), Anthropological papers of the University of Arizona, No. 71 The University of Arizona Press Tucson; Haynes, G., The catastrophic extinction of North American mammoths and mastodonts (2002) World Archaeol., 33, pp. 391-416; \n\nHaynes, G., The Early Settlement of North America: the Clovis Era (2002), Cambridge University Press Cambridge; Haynes, G., American Megafaunal Extinctions at the End of the Pleistocene (2009) Vertebrate Paleobiology and Paleoanthropology Series, , Springer Dordrecht; \n\nHaynes, G., Extinctions in north America's late glacial landscapes (2013) Quat. Int., 285, pp. 89-98; \n\nHeaton, T.H.E., Vogel, J.C., Vonlachevallerie, G., Collett, G., Climatic influence on the isotopic composition of bone nitrogen (1986) Nature, 322, pp. 822-823; \n\nHedges, R.E.M., Stevens, R.E., Richards, M.P., Bone as a stable isotope archive for local climatic information (2004) Quat. Sci. Rev., 23, pp. 959-965; \n\nHenry, A.G., Brooks, A.S., Piperno, D.R., Microfossils in calculus demonstrate consumption of plants and cooked foods in Neanderthal diets (Shanidar III, Iraq; Spy I and II, Belgium) (2011) Proc. Natl. Acad. Sci. U. S. A., 108, pp. 486-491; \n\nHoare, R., African elephants and humans in conflict: the outlook for co-existence (2000) Oryx, 34, pp. 34-38; \n\nHoffecker, J.F., Neanderthal and modern human diet in Eastern Europe (2009) The Evolution of Hominin Diets: Integrating Approaches to the Study of Palaeolithic Subsistence, pp. 87-98. , J.J. Hublin M.P. Richard Springer New York; \n\nHoppe, K.A., Late Pleistocene mammoth herd structure, migration patterns, and Clovis hunting strategies inferred from isotopic analyses of multiple death assemblages (2004) Paleobiology, 30, pp. 129-145; \n\nHoppe, K.A., Koch, P.L., The biogeochemistry of the Aucilla River fauna (2006) First Floridians and Last Mastodons: the Page-Ladson Site in the Auscilla River, pp. 379-401. , S.D. Webb Springer Netherlands; \n\nHoppe, K.A., Koch, P.L., Reconstructing the migration patterns of late Pleistocene mammals from northern Florida, USA (2007) Quat. Res., 68, pp. 347-352; \n\nHoppe, K.A., Koch, P.L., Carlson, R.W., Webb, S.D., Tracking mammoths and mastodons: reconstruction of migratory behavior using strontium isotope ratios (1999) Geology, 27, pp. 439-442; \n\nHoyle, B.G., Fisher, D.C., Borns, H.W., Churchill-Dickson, L.L., Dorion, C.C., Weddle, T.K., Late Pleistocene mammoth remains from coastal Maine, USA (2004) Quat. Res., 61, pp. 277-288; \n\nHublin, J.J., Weston, D., Gunz, P., Richards, M., Roebroeks, W., Glimmerveen, J., Anthonis, L., Out of the north sea: the zeeland Ridges neandertal (2009) J. Hum. Evol., 57, pp. 777-785; \n\nIacumin, P., Bocherens, H., Mariotti, A., Longinelli, A., Oxygen isotope analyses of co-existing carbonate and phosphate in biogenic apatite: a way to monitor diagenetic alteration of bone phosphate (1996) Earth Planet. Sci. Lett., 142, pp. 1-6; \n\nIacumin, P., Davanzo, S., Nikolaev, V., Short-term climatic changes recorded by mammoth hair in the Arctic environment (2005) Palaeogeogr. Palaeoclimatol. Palaeoecol., 218, pp. 317-324; \n\nIacumin, P., Davanzo, S., Nikolaev, V., Spatial and temporal variations in the 13C/12C and 15N/14N ratios of mammoth hairs: palaeodiet and palaeoclimatic implications (2006) Chem. Geol., 231, pp. 16-25; \n\nIacumin, P., Di Matteo, A., Nikolaev, V., Kuznetsova, T.V., Climate information from C, N and O stable isotope analyses of mammoth bones from northern Siberia (2010) Quat. Int., 212, pp. 206-212; \n\nIacumin, P., Nikolaev, V., Ramigni, M., C and N stable isotope measurements on Eurasian fossil mammals, 40 000 to 10 000 years BP: herbivore physiologies and palaeoenvironmental reconstruction (2000) Palaeogeogr. Palaeoclimatol. Palaeoecol., 163, pp. 33-47; \n\nKoch, P., Paleobiology of Late Pleistocene Mastodonts and Mammoths from Southern Michigan and Western New York (1989), Unpublished PhD thesis The University of Michigan; Koch, P.L., The isotopic ecology of Pleistocene proboscideans (1991) J. Vertebrate Paleontol., 11, p. 40A; \n\nKoch, P.L., Isotopic reconstruction of past continental environments (1998) Annu. Rev. Earth Planet. Sci., 26, pp. 573-613; \n\nKoch, P.L., Barnosky, A.D., Late quaternary extinctions: state of the debate (2006) Annu. Rev. Ecol. Evol. Syst., 37, pp. 215-250; \n\nKoch, P.L., Diffenbaugh, N.S., Hoppe, K.A., The effects of late Quaternary climate and pCO2 change on C4 plant abundance in the south-central United States (2004) Palaeogeogr. Palaeoclimatol. Palaeoecol., 207, pp. 331-357; \n\nKoch, P.L., Fisher, D.C., Dettman, D., Oxygen isotope variation in the tusks of extinct proboscideans: a measure of season of death and seasonality (1989) Geology, 17, pp. 515-519; \n\nKoch, P.L., Fogel, M.L., Tuross, N., Tracing the diets of fossil animals using stable isotopes (1994) Stable Isotopes in Ecology and Environmental Science, pp. 63-92. , K. Lathja R.H. Michener Blackwell Scientific Publications Oxford; \n\nKoch, P.L., Heisinger, J., Moss, C., Carlson, R.W., Fogel, M.L., Behrensmeyer, A.K., Isotopic tracking of change in diet and habitat use in African elephants (1995) Science, 267, pp. 1340-1343; \n\nKoch, P.L., Hoppe, K.A., Webb, S.D., The isotopic ecology of late Pleistocene mammals in North America - Part 1. Florida (1998) Chem. Geol., 152, pp. 119-138; \n\nKohn, M.J., Carbon isotope compositions of terrestrial C3 plants as indicators of (paleo)ecology and (paleo)climate (2010) Proc. Natl. Acad. Sci., 107, pp. 19691-19695; \n\nKohn, M.J., Cerling, T.E., Stable isotope compositions of biological apatite (2002) Phosphates: Geochemical, Geobiological, and Materials Importance, pp. 455-488. , M.J. Kohn J. Rakovan J.M. Hughes Mineralogical Society of America Washington, D.C; \n\nKohn, M.J., McKay, M., Stable isotopes of fossil teeth corroborate key general circulation model predictions for the Last Glacial Maximum in North America (2010) Geophys. Res. Lett., 37, p. L22702; \n\nKovacs, J., Moravcova, M., Ujvari, G., Pinter, A.G., Reconstructing the paleoenvironment of East Central Europe in the Late Pleistocene using the oxygen and carbon isotopic signal of tooth in large mammal remains (2012) Quat. Int., 276, pp. 145-154; \n\nKovács, J., Szabó, P., Kocsis, L., Vennemann, T., Sabol, M., Gasparik, M., Virág, A., Pliocene and Early Pleistocene paleoenvironmental conditions in the Pannonian Basin (Hungary, Slovakia): stable isotope analyses of fossil proboscidean and perissodactyl teeth (2015) Palaeogeogr. Palaeoclimatol. Palaeoecol., 440, pp. 455-466; \n\nKuitems, M., Kolfschoten, T., Plicht, J., Elevated δ15N values in mammoths: a comparison with modern elephants (2012) Archaeol. Anthropol. Sci., pp. 1-7; \n\nKuzmin, Y.V., Extinction of the woolly mammoth (Mammuthus primigenius) and woolly rhinoceros (Coelodonta antiquitatis) in Eurasia: review of chronological and environmental issues (2010) Boreas, 39, pp. 247-261; \n\nLeavitt, S.W., Follett, R.F., Kimble, J.M., Pruessner, E.G., Radiocarbon and δ13C depth profiles of soil organic carbon in the US Great Plains: a possible spatial record of paleoenvironment and paleovegetation (2007) Quat. Int., 162, pp. 21-34; \n\nLee-Thorp, J.A., Sealy, J.C., van der Merwe, N.J., Stable carbon isotope ratio differences between bone collagen and bone apatite, and their relationship to diet (1989) J. Archaeol. Sci., 16, pp. 585-599; \n\nLev, M.A., Barkai, R., Elephants are people, people are elephants: human–proboscideans similarities as a case for cross cultural animal humanization in recent and Paleolithic times (2016) Quat. Int., 406, pp. 239-245; \n\nLevin, N.E., Cerling, T.E., Passey, B.H., Harris, J.M., Ehleringer, J.R., A stable isotope aridity index for terrestrial environments (2006) Proc. Natl. Acad. Sci., 103, pp. 11201-11205; \n\nLonginelli, A., Oxygen isotopes in mammal bone phosphate: a new tool for paleohydrological and paleoclimatological research? (1984) Geochim. Cosmochim. Acta, 48, pp. 385-390; \n\nLuz, B., Kolodny, Y., Horowitz, M., Fractionation of oxygen isotopes between mammalian bone phosphate and environmental drinking water (1984) Geochim. Cosmochim. Acta, 48, pp. 1689-1693; \n\nMacFadden, B.J., Cerling, T.E., Mammalian herbivore communities, ancient feeding ecology, and carbon isotopes: a 10 million-year sequence from the Neogene of Florida (1996) J. Vertebrate Paleontol., 16, pp. 103-115; \n\nMann, D.H., Groves, P., Kunz, M.L., Reanier, R.E., Gaglioti, B.V., Ice-age megafauna in Arctic Alaska: extinction, invasion, survival (2013) Quat. Sci. Rev., 70, pp. 91-108; \n\nMatheus, P., Guthrie, R.D., Kunz, M.L., Isotope ecology of late Quaternary megafauna in eastern Beringia (2003) 3rd International Mammoth Conference, Yukon Palaeontology Program, , J.E. Storer Department of Tourism and Culture Dawson City and Whitehorse, Yukon; \n\nMayte, G.-B., García-Zepeda, M.L., López-García, R., Arroyo-Cabrales, J., Marín-Leyva, A.H., Meléndez-Herrera, E., Fuentes-Farías, A.L., Diet and habitat of Mammuthus columbi (Falconer, 1857) from two Late Pleistocene localities in central western Mexico (2016) Quat. Int., 506, pp. 137-146; \n\nMcCue, M.D., Pollock, E.D., Stable isotopes may provide evidence for starvation in reptiles (2008) Rapid Commun. Mass Spectrom., 22, pp. 2307-2314; \n\nMeltzer, D.J., Pleistocene overkill and North American mammalian extinctions (2015) Annu. Rev. Anthropol., 44, pp. 33-53; \n\nMetcalfe, J.Z., Longstaffe, F.J., Mammoth tooth enamel growth rates inferred from stable isotope analysis and histology (2012) Quat. Res., 77, pp. 424-432; \n\nMetcalfe, J.Z., Longstaffe, F.J., Environmental change and seasonal behavior of mastodons in the Great Lakes region inferred from stable isotope analysis (2014) Quat. Res., 82, pp. 366-377; \n\nMetcalfe, J.Z., Longstaffe, F.J., Ballenger, J.A.M., Haynes, C.V., Isotopic paleoecology of Clovis mammoths from Arizona (2011) Proc. Natl. Acad. Sci., 108, pp. 17916-17920; \n\nMetcalfe, J.Z., Longstaffe, F.J., Hodgins, G., Proboscideans and paleoenvironments of the Pleistocene Great Lakes: landscape, vegetation, and stable isotopes (2013) Quat. Sci. Rev., 76, pp. 102-113; \n\nMetcalfe, J.Z., Longstaffe, F.J., Jass, C.N., Zazula, G.D., Keddie, G., Taxonomy, location of origin and health status of proboscideans from Western Canada investigated using stable isotope analysis (2016) J. Quat. Sci., 31, pp. 126-142; \n\nMetcalfe, J.Z., Longstaffe, F.J., Zazula, G.D., Nursing, weaning, and tooth development in woolly mammoths from Old Crow, Yukon, Canada: implications for Pleistocene extinctions (2010) Palaeogeogr. Palaeoclimatol. Palaeoecol., 298, pp. 257-270; \n\nMetcalfe, J.Z., White, C.D., Longstaffe, F.J., Wrobel, G., Cook, D.C., Pyburn, K.A., Isotopic evidence for diet at Chau Hiix, Belize: testing regional models of hierarchy and heterarchy (2009) Lat. Am. Antiq., 20, pp. 15-36; \n\nMontgomery, J., Passports from the past: investigating human dispersals using strontium isotope analysis of tooth enamel (2010) Ann. Hum. Biol., 37, pp. 325-346; \n\nMussi, M., Villa, P., Single carcass of Mammuthus primigenius with lithic artifacts in the Upper Pleistocene of northern Italy (2008) J. Archaeol. Sci., 35, pp. 2606-2613; \n\nNikolskiy, P., Pitulko, V., Evidence from the Yana Palaeolithic site, Arctic Siberia, yields clues to the riddle of mammoth hunting (2013) J. Archaeol. Sci., 40, pp. 4189-4197; \n\nNogués-Bravo, D., Rodiguez, J., Hortal, J., Batra, P., Araujo, M.B., Climate change, humans, and the extinction of the woolly mammoth (2008) PLoS Biol., 6, pp. 685-692; \n\nNunez, E.E., Macfadden, B.J., Mead, J.I., Baez, A., Ancient forests and grasslands in the desert: diet and habitat of late Pleistocene mammals from Northcentral Sonora, Mexico (2010) Palaeogeogr. Palaeoclimatol. Palaeoecol., 297, pp. 391-400; \n\nOnoratini, G., Arellano, A., Del Lucchese, A., Moulle, P.E., Serre, F., The Barma Grande cave (Grimaldi, Vintimiglia, Italy): from neandertal, hunter of “Elephas antiquus”, to Sapiens with ornaments of mammoth ivory (2012) Quat. Int., 255, pp. 141-157; \n\nPalombo, M.R., Filippi, M.L., Iacumin, P., Longinelli, A., Barbieri, M., Maras, A., Coupling tooth microwear and stable isotope analyses for palaeodiet reconstruction: the case study of late Middle Pleistocene Elephas (Palaeoloxodon) antiquus teeth from Central Italy (Rome area) (2005) Quat. Int., 126-28, pp. 153-170; \n\nPatou-Mathis, M., Neanderthal subsistence behaviours in Europe (2000) Int. J. Osteoarchaeol., 10, pp. 379-395; \n\nPerez-Crespo, V.A., Arroyo-Cabrales, J., Benammi, M., Johnson, E., Polaco, O.J., Santos-Moreno, A., Morales-Puente, P., Cienfuegos-Alvarado, E., Geographic variation of diet and habitat of the Mexican populations of Columbian Mammoth (Mammuthus columbi) (2012) Quat. Int., 276, pp. 8-16; \n\nPerez-Crespo, V.A., Arroyo-Cabrales, J., Corona, M.E., Morales-Puente, P., Cienfuegos-Alvarado, E., Otero, F.J., Diet of rinchothere (proboscidea, Gomphotheriidae, Rhynchotherium species) of taxco, Guerrero, México (2015) Southwest. Nat., 60, pp. 97-98; \n\nPettitt, P., Art and the middle-to-upper paleolithic transition in Europe: comments on the archaeological arguments for an early upper paleolithic antiquity of the Grotte Chauvet art (2008) J. Hum. Evol., 55, pp. 908-917; \n\nPitulko, V.V., Nikolskiy, P.A., The extinction of the woolly mammoth and the archaeological record in Northeastern Asia (2012) World Archaeol., 44, pp. 21-42; \n\nPrice, T.D., Burton, J.H., Bentley, R.A., The characterization of biologically available strontium isotope ratios for the study of prehistoric migration (2002) Archaeometry, 44, pp. 117-135; \n\nPryor, A.J.E., O'Connell, T.C., Wojtal, P., Krzeminska, A., Stevens, R.E., Investigating climate at the upper palaeolithic site of Krakow Spadzista Street (B), Poland, using oxygen isotopes (2013) Quat. Int., 294, pp. 108-119; \n\nPurdy, B.A., Jones, K.S., Mecholsky, J.J., Bourne, G., Hulbert, R.C., Jr., MacFadden, B.J., Church, K.L., Speakman, R.J., Earliest art in the Americas: incised image of a proboscidean on a mineralized extinct animal bone from Vero Beach, Florida (2011) J. Archaeol. Sci., 38, pp. 2908-2913; \n\nPushkina, D., Bocherens, H., Ziegler, R., Unexpected palaeoecological features of the Middle and Late Pleistocene large herbivores in southwestern Germany revealed by stable isotopic abundances in tooth enamel (2014) Quat. Int., 339-340, pp. 164-178; \n\nRichards, M.P., Stable isotope evidence for European Upper Paleolithic human diets (2009) The Evolution of Hominin Diets: Integrating Approaches to the Study of Palaeolithic Subsistence, pp. 251-257. , J.-J. Hublin M.P. Richards Springer Dordrecht; London; \n\nRichards, M.P., Hedges, R.E.M., Variations in bone collagen δ13C and δ15N values of fauna from Northwest Europe over the last 40 000 years (2003) Palaeogeogr. Palaeoclimatol. Palaeoecol., 193, pp. 261-267; \n\nRichards, M.P., Pettitt, P.B., Stiner, M.C., Trinkaus, E., Stable isotope evidence for increasing dietary breadth in the European mid-Upper Paleolithic (2001) Proc. Natl. Acad. Sci., 98, pp. 6528-6532; \n\nRichards, M.P., Pettitt, P.B., Trinkaus, E., Smith, F.H., Paunovic, M., Karavanic, I., Neanderthal diet at Vindija and Neanderthal predation: the evidence from stable isotopes (2000) Proc. Natl. Acad. Sci., 97, pp. 7663-7666; \n\nRichards, M.P., Schmitz, R.W., Isotope evidence for the diet of the Neanderthal type specimen (2008) Antiquity, 82, pp. 553-559; \n\nRichards, M.P., Taylor, G., Steele, T., McPherron, S.P., Soressi, M., Jaubert, J., Orschiedt, J., Hublin, J.J., Isotopic dietary analysis of a Neanderthal and associated fauna from the site of Jonzac (Charente-Maritime), France (2008) J. Hum. Evol., 55, pp. 179-185; \n\nRichards, M.P., Trinkaus, E., Isotopic evidence for the diets of European Neanderthals and early modern humans (2009) Proc. Natl. Acad. Sci., 106, pp. 16034-16039; \n\nRountrey, A.N., Fisher, D.C., Tikhonov, A.N., Kosintsev, P.A., Lazarev, P.A., Boeskorov, G., Buigues, B., Early tooth development, gestation, and season of birth in mammoths (2012) Quat. Int., 255, pp. 196-205; \n\nRountrey, A.N., Fisher, D.C., Vartanyan, S., Fox, D.L., Carbon and nitrogen isotope analyses of a juvenile woolly mammoth tusk: evidence of weaning (2007) Quat. Int., 169, pp. 166-173; \n\nRozanski, K., Araguas-Araguas, L., Gonfiantini, R., Isotopic patterns in modern global precipitation (1993) Climate Change in Continental Isotope Records, pp. 1-36. , P.K. Swart J. McKenzie K.C. Lohmann S. Savin American Geophysical Union Washington, DC; \n\nSánchez, B., Prado, J.L., Alberdi, M.T., Feeding ecology, dispersal, and extinction of south american Pleistocene gomphotheres (Gomphotheriidae, proboscidea) (2004) Paleobiology, 30, pp. 146-161; \n\nSánchez, G., Gaines, E.P., Holliday, V.T., Arroyo-Cabrales, J., El Fin del Mundo (2009) Archaeol. Southwest, 23, pp. 6-7; \n\nSaunders, J.J., Grimm, E.C., Widga, C.C., Campbell, G.D., Curry, B.B., Grimley, D.A., Hanson, P.R., Treworgy, J.D., Paradigms and proboscideans in the southern Great Lakes region, USA (2010) Quat. Int., 217, pp. 175-187; \n\nSaunders, J.J., Haynes, C.V., Stanford, D., Agogino, G.A., A mammoth-ivory semifabricate from Blackwater Locality No. 1, New Mexico (1990) Am. Antiq., 55, pp. 112-119; \n\nSchwartz-Narbonne, R., Longstaffe, F.J., Metcalfe, J.Z., Zazula, G., Solving the woolly mammoth conundrum: amino acid 15N-enrichment suggests a distinct forage or habitat (2015) Sci. Rep., 5; \n\nSingh, R.R., Goyal, S.P., Khanna, P.P., Mukherjee, P.K., Sukumar, R., Using morphometric and analytical techniques to characterize elephant ivory (2006) Forensic Sci. Int., 162, pp. 144-151; \n\nStevens, R.E., Hedges, R.E.M., Carbon and nitrogen stable isotope analysis of northwest European horse bone and tooth collagen, 40,000 BP-present: palaeoclimatic interpretations (2004) Quat. Sci. Rev., 23, pp. 977-991; \n\nStuart, A.J., The extinction of woolly mammoth (Mammuthus primigenius) and straight-tusked elephant (Palaeoloxodon antiquus) in Europe (2005) Quat. Int., 126-28, pp. 171-177; \n\nSukumar, R., The Asian Elephant: Ecology and Management (1989), Cambridge University Press Cambridge; Sukumar, R., Elephants in time and space: evolution and ecology (2008) Elephants and Ethics: toward a Morality of Coexistence, pp. 17-39. , C.M. Wemmer C.A. Christen Johns Hopkins University Press Baltimore, Md; \n\nSukumar, R., Ramesh, R., Stable carbon isotope ratios in Asian elephant collagen: implications for dietary studies (1992) Oecologia, 91, pp. 536-539; \n\nSurovell, T., Waguespack, N., Brantingham, P.J., Global archaeological evidence for proboscidean overkill (2005) Proc. Natl. Acad. Sci., 102, pp. 6231-6236; \n\nSurovell, T.A., Waguespack, N.M., How many elephant kills are 14? Clovis mammoth and mastodon kills in context (2008) Quat. Int., 191, pp. 82-97; \n\nSvoboda, J., Bochenski, Z.M., Culikova, V., Dohnalova, A., Hladilova, S., Hlozek, M., Horacek, I., Wojtal, P., Paleolithic hunting in a southern Moravian landscape: the case of Milovice IV, Czech Republic (2011) Geoarchaeol. Int. J., 26, pp. 838-866; \n\nSzpak, P., Complexities of nitrogen isotope biogeochemistry in plant-soil systems: implications for the study of ancient agricultural and animal management practices (2014) Front. Plant Sci., 5, pp. 1-19; \n\nSzpak, P., Grocke, D.R., Debruyne, R., MacPhee, R.D.E., Guthrie, R.D., Froese, D., Zazula, G.D., Poinar, H.N., Regional differences in bone collagen δ13C and δ15N of Pleistocene mammoths: implications for paleoecology of the mammoth steppe (2010) Palaeogeogr. Palaeoclimatol. Palaeoecol., 286, pp. 88-96; \n\nTankersley, K.B., Murari, M.K., Crowley, B.E., Owen, L.A., Storrs, G.W., Mortensen, L., Quaternary chronostratigraphy and stable isotope paleoecology of Big Bone Lick, Kentucky, USA (2015) Quat. Res., 83, pp. 479-487; \n\nTieszen, L.L., Fagre, T., Effect of diet quality and composition on the isotopic composition of respiratory CO2, bone collagen, bioapatite, and soft tissues (1993) Prehistoric Human Bone: Archaeology at the Molecular Level, pp. 121-155. , J.B. Lambert G. Grupe Springer-Verlag Berlin; \n\nTutken, T., Furrer, H., Vennemann, T.W., Stable isotope compositions of mammoth teeth from Niederweningen, Switzerland: implications for the Late Pleistocene climate, environment, and diet (2007) Quat. Int., 164-65, pp. 139-150; \n\nUgan, A., Byers, D., A global perspective on the spatiotemporal pattern of the Late Pleistocene human and woolly mammoth radiocarbon record (2008) Quat. Int., 191, pp. 69-81; \n\nUkkonen, P., Arppe, L., Houmark-Nielsen, M., Kjaer, K.H., Karhu, J.A., MIS 3 mammoth remains from Sweden: implications for faunal history, palaeoclimate and glaciation chronology (2007) Quat. Sci. Rev., 26, pp. 3081-3098; \n\nUno, K.T., Quade, J., Fisher, D.C., Wittemyer, G., Douglas-Hamilton, I., Andanje, S., Omondi, P., Cerling, T.E., Bomb-curve radiocarbon measurement of recent biologic tissues and applications to wildlife forensics and stable isotope (paleo)ecology (2013) Proc. Natl. Acad. Sci., 110, pp. 11736-11741; \n\nVan Der Merwe, N.J., Medina, E., The canopy effect, carbon isotope ratios and foodwebs in Amazonia (1991) J. Archaeol. Sci., 18, pp. 249-260; \n\nVeltre, D.W., Yesner, D.R., Crossen, K.J., Graham, R.W., Coltrain, J.B., Patterns of faunal extinction and paleoclimatic change from mid-Holocene mammoth and polar bear remains, Pribilof Islands, Alaska (2008) Quat. Res., 70, pp. 40-50; \n\nVogel, J.C., Talma, A.S., Hallmartin, A.J., Viljoen, P.J., Carbon and nitrogen isotopes in elephants (1990) South Afr. J. Sci., 86, pp. 147-150; \n\nvon Fischer, J.C., Tieszen, L.L., Schimel, D.S., Climate controls on C3 vs. C4 productivity in North American grasslands from carbon isotope composition of soil organic matter (2008) Glob. Change Biol., 14, pp. 1141-1155; \n\nWaguespack, N.M., Surovell, T.A., Clovis hunting strategies or how to make out on plentiful resources (2003) Am. Antiq., 68, pp. 333-352; \n\nWaters, M.R., Stafford, T.W., McDonald, H.G., Gustafson, C., Rasmussen, M., Cappellini, E., Olsen, J.V., Willerslev, E., Pre-Clovis mastodon hunting 13,800 years ago at the Manis Site, Washington (2011) Science, 334, pp. 351-353; \n\nWest, J.B., Bowen, G.J., Cerling, T.E., Ehleringer, J.R., Stable isotopes as one of nature's ecological recorders (2006) Trends Ecol. Evol., 21, pp. 408-414; \n\nWiβing, C., Rougier, H., Crevecoeur, I., Germonpré, M., Naito, Y.I., Semal, P., Bocherens, H., Isotopic evidence for dietary ecology of late Neandertals in North-Western Europe (2016) Quat. Int., 114, pp. 327-345; \n\nWittemyer, G., Cerling, T.E., Douglas-Hamilton, I., Establishing chronologies from isotopic profiles in serially collected animal tissues: an example using tail hairs from African elephants (2009) Chem. Geol., 267, pp. 3-11; \n\nWittemyer, G., Daballen, D., Douglas-Hamilton, I., Poaching policy: rising ivory prices threaten elephants (2011) Nature, 476, pp. 282-283; \n\nYann, L.T., DeSantis, L.R.G., Haupt, R.J., Romer, J.L., Corapi, S.E., Ettenson, D.J., The application of an oxygen isotope aridity index to terrestrial paleoenvironmental reconstructions in Pleistocene North America (2013) Paleobiology, 39, pp. 576-590; \n\nYravedra, J., Panera, J., Rubio-Jara, S., Manzano, I., Expósito, A., Pérez-González, A., Soto, E., López-Recio, M., Neanderthal and Mammuthus interactions at EDAR Culebro 1 (Madrid, Spain) (2014) J. Archaeol. Sci., 42, pp. 500-508; \n\nZazula, G.D., MacPhee, R.D.E., Metcalfe, J.Z., Reyes, A.V., Brock, F., Druckenmiller, P.S., Groves, P., Southon, J.R., American mastodon extirpation in the Arctic and Subarctic predates human colonization and terminal Pleistocene climate change (2014) Proc. Natl. Acad. Sci., 111, pp. 18460-18465; \n\nZhang, Y., Stiner, M.C., Dennell, R., Wang, C., Zhang, S., Gao, X., Zooarchaeological perspectives on the Chinese early and late paleolithic from the Ma'anshan site (Guizhou, south China) (2010) J. Archaeol. Sci., 37, pp. 2066-2077; \n\nZutovski, K., Barkai, R., The use of elephant bones for making Acheulian handaxes: a fresh look at old bones (2016) Quat. Int., 406, pp. 227-238", "hasCitationDuplums" : false, "userChangeableUntil" : "2017-08-22T12:41:07.000+0000", "publishDate" : "2017-08-06T20:44:59.000+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 6, "ownerInstituteCount" : 28, "directInstituteCount" : 0, "authorCount" : 1, "contributorCount" : 0, "hasQualityFactor" : true, "link" : "/api/publication/26772393", "label" : "Metcalfe JZ. Proboscidean isotopic compositions provide insight into ancient humans and their environments. (2017) QUATERNARY INTERNATIONAL 1040-6182 1873-4553 443 PartA2 147-159", "template" : "