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Evaluating the impact of Homo-carnivore competition in European human settlements during the early to middle Pleistocene

Published online by Cambridge University Press:  24 May 2017

Guillermo Rodríguez-Gómez*
Affiliation:
Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Paseo Sierra de Atapuerca 3, 09002 Burgos, Spain Universitat Rovira i Virgili (URV), Carrer de l’Escorxador s/n, 43003 Tarragona, Spain
Jesús Rodríguez
Affiliation:
Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Paseo Sierra de Atapuerca 3, 09002 Burgos, Spain
Jesús A. Martín-González
Affiliation:
Departamento de Matemáticas y Computación, Universidad de Burgos, Plaza Misael Bañuelos s/n, 09001 Burgos, Spain Temporary address: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Paseo Sierra de Atapuerca 3, 09002, Burgos, Spain
Ana Mateos
Affiliation:
Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Paseo Sierra de Atapuerca 3, 09002 Burgos, Spain
*
*Corresponding author at: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Paseo Sierra de Atapuerca 3, 09002 Burgos, Spain. E-mail: [email protected] (G. Rodríguez-Gómez).

Abstract

Fossil remains and the technological complexes recorded in archaeological sites suggest that the human presence in Europe late in the early and middle Pleistocene was discontinuous. Moreover, competition for meat with other secondary consumers could have delayed the human dispersal through Europe. However, evaluation of the extent competition intensity among secondary consumers suggests this influenced the discontinuity of the human settlement of Europe between 1.1 and 0.2 Ma. Using a mathematical model, we estimate the amount of biomass available in a community for secondary consumers. The amount of available biomass is subsequently distributed among the guild of secondary consumers according to their requirements and prey preferences. Indexes that quantify the competition intensity among secondary consumers to compare the conditions in different paleoecosystems show that the competition intensity late in the early Pleistocene, early in the middle Pleistocene, and late in the middle Pleistocene does not support the view that an increase in competition intensity constrained the expansion of human populations early in the middle Pleistocene. Somewhat paradoxically, the lowest competition intensity is estimated to have occurred early in the middle Pleistocene, most likely because of an increase in the number of large herbivore species and a decrease in the number of secondary consumers. The early Pleistocene paleoecosystems supported higher competition intensity than the middle Pleistocene ecosystems, likely because of the different configuration in the food webs of these two periods (the early and middle Pleistocene).

Type
Research Article
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2017 

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References

REFERENCES

Agustí, J., Blain, H.-A., Cuenca-Bescós, G., Bailon, S., 2009. Climate forcing of first hominid dispersal in western Europe. Journal of Human Evolution 57, 815821.Google Scholar
Alberdi, M.T., Prado, J.L., Ortiz-Jaureguizar, E., 1995. Patterns of body size changes in fossil and living Equini (Perissodactyla). Biological Journal of the Linnean Society 54, 349370.Google Scholar
Antón, M., Galobart, A., Turner, A., 2005. Co-existence of scimitar-toothed cats, lions and hominins in the European Pleistocene. Implications of the post-cranial anatomy of Homotherium latidens (Owen) for comparative palaeoecology. Quaternary Science Reviews 24, 12871301.Google Scholar
Antón, M., Salesa, M.J., Galobart, A., Tseng, Z.J., 2014. The Plio-Pleistocene scimitar-toothed felid genus Homotherium Fabrini, 1890 (Machairodontinae, Homotherini): diversity, palaeogeography and taxonomic implications. Quaternary Science Reviews 96, 259268.Google Scholar
Arribas, A., Jordá, J.F., 1999. Los mamíferos del Cuaternario kárstico de Guadalajara (Castilla - La Mancha, España). In: Aguirre, E., Rábano, I. (Eds.), La Huella del Pasado. Fósiles de Castilla-La Mancha. Patrimonio Histórico. Arqueología Castilla-La Mancha. Junta de Comunidades, Toledo, Spain, pp. 327353.Google Scholar
Arribas, A., Palmqvist, P., 1999. On the ecological connection between sabre-tooths and hominids: faunal dispersal events in the Lower Pleistocene and a review of the evidence for the first human arrival in Europe. Journal of Archaeological Science 26, 571585.CrossRefGoogle Scholar
Arsuaga, J.L., Carretero, J.-M., Lorenzo, C., Gómez-Olivencia, A., Pablos, A., Rodríguez, L., García-González, R., et al., 2015. Postcranial morphology of the middle Pleistocene humans from Sima de los Huesos, Spain. Proceedings of the National Academy of Sciences of the United States of America 12, 1152411529.CrossRefGoogle Scholar
Ashton, N., McNabb, J., Irving, B., Lewis, S., Parfitt, S., 1994. Contemporaneity of Clactonian and Acheulian flint industries at Barnham, Suffolk. Antiquity 68, 585589.CrossRefGoogle Scholar
Athanassiou, A., 2003. Gazellospira toriticornis (Aymard, 1854) from the Late Pliocene locality of Sésklo (Thessaly, Greece). Quaternaire Hors-Série 2, 137144.Google Scholar
Auguste, P., 2009. Évolution des peuplements mammaliens en Europe de Nord-Ouest durant le Pleistocene moyen et Supérieur. Le cas de la France Septentrionale. Quaternaire 20, 527550.Google Scholar
Azanza, B., Palombo, M.R., Alberdi, M.T., 2004. Large mammal turnover pulses and palaeoclimate changes from the Miocene to the Late Pleistocene in Italy. Rivista Italiana di Paleontologia e Stratigrafia 110, 531545.Google Scholar
Barbato, L.C., Gliozzi, E., 1995. Biochronological and palaeogeographical implications of a well-balanced late Middle Pleistocene fauna from Quisisana-Certosa (Capri, Southern Italy). Bollettino della Società Paleontologica Italiana 34, 235261.Google Scholar
Barbera, C., Petronio, C., Biblia, E., Virgili, A., Candeloro, M., Zarlenga, F., 1995. Short report on Pleistocene fauna from Grotta Lina (Marina di Maratea, southern Italy): palaeoecological and geochronological implications. Bollettino della Società Paleontologica Italiana 34, 341350.Google Scholar
Barsky, D., de Lumley, H., 2010. Early European Mode 2 and the stone industry from the Caune de l’Arago’s archeostratigraphical levels “P.” Quaternary International 223–224, 7186.Google Scholar
Barsky, D., Garcia, J., Martínez, K., Sala, R., Zaidner, Y., Carbonell, E., Toro-Moyano, I., 2013. Flake modification in European Early and Early–Middle Pleistocene stone tool assemblages. Quaternary International 316, 140154.Google Scholar
Bascompte, J., Jordano, P., Olesen, J.M., 2006. Asymmetric coevolutionary networks facilitate biodiversity maintenance. Science 312, 431433.Google Scholar
Bermúdez de Castro, J.M., Díez Fernández-Lomana, J.C., Mosquera Martínez, M., Nicolás Checa, M.E., Pérez Pérez, A., Rodríguez Méndez, J., Sánchez Marco, A. 1995. El nicho ecológico de los homínidos del Pleistoceno Medio de Atapuerca. Complutum 6, 956.Google Scholar
Bermúdez de Castro, J.M., Martinón-Torres, M., Blasco, R., Rosell, J., Carbonell, E., 2013. Continuity or discontinuity in the European Early Pleistocene human settlement: the Atapuerca evidence. Quaternary Science Reviews 76, 5365.Google Scholar
Bermúdez de Castro, J.M., Martinón-Torres, M., Rosell, J., Blasco, R., Arsuaga, J.L., Carbonell, E., 2016. Continuity versus discontinuity of the human settlement of Europe between the late Early Pleistocene and the early Middle Pleistocene. The mandibular evidence. Quaternary Science Reviews 153, 5162.Google Scholar
Binford, L.R., 1981. Bones. Ancient Men and Modern Myths. Academic Press, Orlando, FL.Google Scholar
Binford, L.R., 1985. Human ancestors: changing views of their behavior. Journal of Anthropological Archaeology 4, 292327.Google Scholar
Binford, L.R., 2001. Constructing Frames of Reference: An Analytical Method for Archaeological Theory Building Using Ethnographic and Environmental Data Sets. University of California Press, Berkeley.Google Scholar
Blasco, R., Rosell, J., Fernández Peris, J., Arsuaga, J.L., Bermúdez de Castro, J.M., Carbonell, E., 2013. Environmental availability, behavioural diversity and diet: a zooarchaeological approach from the TD10-1 sublevel of Gran Dolina (Sierra de Atapuerca, Burgos, Spain) and Bolomor Cave (Valencia, Spain). Quaternary Science Reviews 70, 124144.Google Scholar
Breda, M., Marchetti, M., 2005. Systematical and biochronological review of Plio-Pleistocene Alceini (Cervidae; Mammalia) from Eurasia. Quaternary Science Reviews 24, 775805.Google Scholar
Brugal, J.-P., Fosse, P., 2004. Carnivores et Hommes au Quaternaire en Europe de l´Ouest. Revue de Paléobiologie, Genève 23, 575595.Google Scholar
Bunn, H.T., Ezzo, J.A., 1993. Hunting and scavenging by Plio-Pleistocene hominids: nutritional constraints, archaeological patterns, and behavioural implications. Journal of Archaeological Science 20, 365398.Google Scholar
Bunn, H.T., Pickering, T.R., 2010. Bovid mortality profiles in paleoecological context falsify hypotheses of endurance running-hunting and passive scavenging by early Pleistocene hominins. Quaternary Research 74, 395404.Google Scholar
Carbone, C., Mace, G.M., Roberts, S.C., Macdonald, D.W., 1999. Energetic constraints on the diet of terrestrial carnivores. Nature 402, 286288.Google Scholar
Carbonell, E., Bermúdez de Castro, J.M., Parés, J.M., Pérez-González, A., Cuenca-Bescós, G., Ollé, A., Mosquera, M., et al., 2008. The first hominin of Europe. Nature 452, 465469.Google Scholar
Carbonell, E., Mosquera, M., Rodríguez, X.P., Sala, R., Made, J.v.d., 1999. Out of Africa: the dispersal of the earliest technical systems reconsidered. Journal of Anthropological Archaeology 18, 119136.CrossRefGoogle Scholar
Carbonell, E., Sala Ramos, R., Rodríguez, X.P., Mosquera, M., Ollé, A., Vergès, J.M., Martínez-Navarro, B., Bermúdez de Castro, J.M., 2010. Early hominid dispersals: a technological hypothesis for “out of Africa.” Quaternary International 223–224, 3644.Google Scholar
Carotenuto, F., 2009. The Plio-Holocene Large Mammals of the Western Eurasia: Macroecological and Evolutionary Analyses of the Faunas. PhD dissertation, Università degli studi di Napoli Federico II, Naples, Italy.Google Scholar
Carotenuto, F., Tsikaridze, N., Rook, L., Lordkipanidze, D., Longo, L., Condemi, S., Raia, P., 2016. Venturing out safely: the biogeography of Homo erectus dispersal out of Africa. Journal of Human Evolution 95, 112.Google Scholar
Carrión, J.S., Rose, J., Stringer, C.B., 2011. Early human evolution in the western Palaearctic: ecological scenarios. Quaternary Science Reviews 30, 12811295.Google Scholar
Collinge, S.E., 2001. Body Size and Community Structure in British Pleistocene Mammals. University of London, London.Google Scholar
Coltorti, M., Feraud, G., Marzoli, A., Peretto, C., Ton-That, T., Voinchet, P., Bahain, J.-J., Minelli, A., Thun-Hohenstein, U., 2005. New 40Ar/39Ar, stratigraphic and palaeoclimatic data on the Isernia La Pineta Lower Palaeolithicsite, Molise, Italy. Quaternary International 131, 1122.Google Scholar
Cordain, L., Miller, J.B., Eaton, S.B., Mann, N., Holt, S.H., Speth, J.D., 2000. Plant-animal subsistence ratios and macronutrient energy estimations in worldwide hunter-gatherer diets. American Journal of Clinical Nutrition 71, 682692.Google Scholar
Crégut-Bonnoure, E., Dimitrijevic, V., 2006. Megalovis balcanicus sp. nov. and Soergelia intermedia sp. nov. (Mammalia, Bovidae, Caprinae), new Ovibovini from the Early Pleistocene of Europe. Revue de Paléobiologie, Genève 25, 723773.Google Scholar
Crégut-Bonnoure, E., Spassov, N., 2002. Hemitragus orientalis nov. sp. (Mammalia, Bovidae, Caprinae), un nouveau taxon d´Europe orientale. Revue de Paléobiologie, Genève 21, 553573.Google Scholar
Crégut-Bonnoure, E., Tsoukala, E., 2005. The Pleistocene bovids from the Petralona Cave (Macedonia, Greece): new interpretations and biogeographical implications. In: Crégut-Bonnoure, E. (Ed.), Les ongulés holarctiques du Pliocène et du Pléistocène. Maison de la géologie, Paris, pp. 161178.Google Scholar
Croitor, R., Brugal, J.-P., 2007. New insights concerning Early Pleistocene cervids and bovids in Europe: dispersal and correlation. In: Kahlke, R.-D., Maul, L.C., Mazza, P.P.A. (Eds.), Late Neogene and Quaternary Biodiversity and Evolution: Regional Developments and Interregional Correlations. Courier Forschungsinstitut Senckenberg, 259. E. Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, Germany, pp. 4759.Google Scholar
Croitor, R., Brugal, J.-P., 2010. Ecological and evolutionary dynamics of the carnivore community in Europe during the last 3 million years. Quaternary International 212, 98108.Google Scholar
Cuenca-Bescós, G., Rofes, J., García-Pimienta, J.C., 2005. Early Europeans and environmental change across the Early–Middle Pleistocene transition: small mammalian evidence from Trinchera Dolina cave, Atapuerca, Spain. In: Head, M.J., Gibbard, P.L. (Eds.), Early–Middle Pleistocene Transitions: The Land–Ocean Evidence. Geological Society, London, pp. 277286.Google Scholar
Damuth, J., 1981. Population density and body size in mammals. Nature 290, 699700.CrossRefGoogle Scholar
Damuth, J., 1993. Cope’s rule, the island rule and the scaling of mammalian population density. Nature 365, 748750.CrossRefGoogle ScholarPubMed
Daujeard, C., Moncel, M.-H., 2010. On Neanderthal subsistence strategies and land use: a regional focus on the Rhone Valley area in southeastern France. Journal of Anthropological Archaeology 29, 368391.Google Scholar
de Lumley, H., Kahlke, H.-D., Moigne, A.-M., Moulle, P.-E., 1988. Les faunes de grands mammifères de la grotte du Vallonnet, Roquebrune-Cap-Martin, Alpes-Maritimes. L’ Anthropologie 92, 465495.Google Scholar
Díez, J.C., Fernández-Jalvo, Y., Rosell, J., Cáceres, I., 1999. Zooarchaeology and taphonomy of Aurora Stratum (Gran Dolina, Sierra de Atapuerca, Spain). Journal of Human Evolution 37, 623652.Google Scholar
Domínguez-Rodrigo, M., Bunn, H.T., Mabulla, A.Z.P., Baquedano, E., Uribelarrea, D., Pérez-González, A., Gidna, A., et al., 2014. On meat eating and human evolution: a taphonomic analysis of BK4b (Upper Bed II, Olduvai Gorge, Tanzania), and its bearing on hominin megafaunal consumption. Quaternary International 322–323, 129152.Google Scholar
Doronichev, V., Golovanova, L., 2010. Beyond the Acheulean: a view on the Lower Paleolithic occupation of western Eurasia. Quaternary International 223–224, 327344.Google Scholar
Espigares, M.P., Martínez-Navarro, B., Palmqvist, P., Ros-Montoya, S., Toro, I., Agustí, J., Sala, R., 2013. Homo vs. Pachycrocuta: earliest evidence of competition for an elephant carcass between scavengers at Fuente Nueva-3 (Orce, Spain). Quaternary International 295, 113125.Google Scholar
Fariña, R.A., 1996. Trophic relationships among Lujanian mammals. Evolutionary Theory 11, 125134.Google Scholar
Farlow, J.O., 1976. A consideration of the trophic dynamics of a Late Cretaceous large-dinosaur community (Oldman Formation). Ecology 57, 841857.Google Scholar
Feranec, R., García, N., Díez, J.C., Arsuaga, J.L., 2010. Understanding the ecology of mammalian carnivorans and herbivores from Valdegoba cave (Burgos, northern Spain) through stable isotope analysis. Palaeogeography, Palaeoclimatology, Palaeoecology 297, 263272.Google Scholar
Fostowicz-Frelik, Ł., 2008. First record of Trogontherium cuvieri (Mammalia, Rodentia) from the middle Pleistocene of Poland and review of the species. Geodiversitas 30, 765778.Google Scholar
Frank, C., Rabeder, G., 1998. Hundsheim. In: Döppes, D., Rabeder, G. (Eds.), Pliozäne und pleistozäne Faunen Österreichs. Mitteilungen der Kommission für Quartärforschung. Verlag der Österreichischen Akademie der Wissenschaften, Vienna, pp. 270274.Google Scholar
Garcia, J., Landeck, G., Martínez, K., Carbonell, E., 2013. Hominin dispersals from the Jaramillo subchron in central and south-western Europe: Untermassfeld (Germany) and Vallparadís (Spain). Quaternary International 316, 7393.Google Scholar
Garcia, J., Martínez, K., Carbonell, E., 2011. Continuity of the first human occupation in the Iberian Peninsula: closing the archaeological gap. Comptes Rendus Palevol 10, 279284.Google Scholar
Gaudzinski, S., Roebroeks, W., 2000. Adults only. Reindeer hunting at the Middle Palaeolithic site Salzgitter Lebenstedt, northern Germany. Journal of Human Evolution 38, 497521.Google Scholar
Guadelli, J.L., Sirakov, N., Ivanova, S.T., Sirakova, S.V., Anastassova, E., Courtaud, P., Dimitrova, I., et al., 2005. Une séquence du paléolithique inférieur au paléolithique récent dans les Balkans: la grotte Kozarnika à Orechets (Nord-Ouest de la Bulgarie). In: Molines, N., Moncel, M.H., Monnier, J.L. (Eds.), Les premiers peuplements en Europe. British Archaeological Reports International Series, 1364. John and Erica Hedges, Oxford, UK, pp. 87103.Google Scholar
Hardy, K., Radini, A., Buckley, S., Blasco, R., Copeland, L., Burjachs, F., Girbal, J., Yll, R., Carbonell, E., Bermúdez de Castro, J.M., 2017. Diet and environment 1.2 million years ago revealed through analysis of dental calculus from Europe’s oldest hominin at Sima del Elefante, Spain. Science of Nature 104, 2. http://dx.doi.org/10.1007/s00114-016-1420-x.Google Scholar
Huguet, R., Saladié, P., Cáceres, I., Díez, C., Rosell, J., Bennàsar, M., Blasco, R., et al., 2013. Successful subsistence strategies of the first humans in south-western Europe. Quaternary International 295, 168182.Google Scholar
Jenike, M.R., 2001. Nutritional ecology: diet, physical activity and body size. In: Panter-Brick, C., Layton, R.H., Rowley-Conwy, P. (Eds.), Hunter-Gatherers: An Interdisciplinary Perspective. Cambridge University Press, Cambridge, pp. 205238.Google Scholar
Jiménez-Arenas, J.M., Pérez-Claros, J.A., Aledo, J.C., Palmqvist, P., 2014. On the relationships of postcanine tooth size with dietary quality and brain volume in primates: implications for hominin evolution. BioMed Research International 2014, 406507. http://dx.doi.org/10.1155/2014/406507.Google Scholar
Jiménez-Arenas, J.M., Santonja, M., Botella, M., Palmqvist, P., 2011. The oldest handaxes in Europe: fact or artefact? Journal of Archaeological Science 38, 33403349.Google Scholar
Jones, K.E., Bielby, J., Cardillo, M., Fritz, S.A., O’Dell, J., Orme, C.D.L., Safi, K., et al., 2009. PanTHERIA: a species-level database of life history, ecology, and geography of extant and recently extinct mammals. Ecology 90, 2648.Google Scholar
Kahlke, R.-D., García, N., Kostopoulos, D.S., Lacombat, F., Lister, A.M., Mazza, P.P.A., Spassov, N., Titov, V.V., 2011. Western Palaearctic palaeoenvironmental conditions during the Early and early Middle Pleistocene inferred from large mammal communities, and implications for hominin dispersal in Europe. Quaternary Science Reviews 30, 13681395.Google Scholar
Kahlke, R.-D., Gaudzinski, S., 2005. The blessing of a great flood: differentiation of mortality patterns in the large mammal record of the Lower Pleistocene fluvial site of Untermassfeld (Germany) and its relevance for the interpretation of faunal assemblages from archaeological sites. Journal of Archaeological Science 32, 12021222.CrossRefGoogle Scholar
Koenigswald, W.V., Heinrich, W.-D., 1999. Mittelpleistozäne Säugetierfaunen Mitteleurope - der Versuch einer bioestratigraphischen Zuornung. Kaupia 9, 53112.Google Scholar
Koufos, G.D., Kostopoulos, D.S., Sylvestrou, I.A., 1997. Equus apolloniensis n. sp. (Mammalia, Equidae) from the latest Villafranchian locality of Apollonia, Macedonia, Greece. Paleontolgica i evolució 30–31, 4976.Google Scholar
Laurenson, M.K., Wielebnowski, N., Caro, T.M., 1995. Extrinsic factors and juvenile mortality in cheetahs. Conservation Biology 9, 13291331.Google Scholar
Leonard, W.R., Robertson, M.L., Snodgrass, J.J., 2007. Energetic models of human nutritional evolution. In: Ungar, P.S. (Ed.), Evolution of the Human Diet. The Known, the Unknown, and the Unknowable. Human Evolution Series. Oxford University Press, Oxford , pp. 344359.Google Scholar
Leslie, P.H., 1945. On the use of matrices in certain population mathematics. Biometrika 33, 183212.Google Scholar
Leslie, P.H., 1948. Some further notes on the use of matrices in population mathematics. Biometrika 35, 213245.Google Scholar
Lister, A.M., Stuart, A.J., 2010. The West Runton mammoth (Mammuthus trogontherii) and its evolutionary significance. Quaternary International 228, 180209.Google Scholar
Lordkipanidze, D., Jashashvili, T., Vekua, A., Ponce de León, M.S., Zollikofer, C.P.E., Rightmire, G.P., Pontzer, H., et al., 2007. Postcranial evidence from early Homo from Dmanisi, Georgia. Nature 449, 305310.Google Scholar
Lozano, S., Mateos, A., Rodríguez, J., 2016. Exploring paleo food-webs in the European Early and Middle Pleistocene: a network analysis. Quaternary International 413, 4454.Google Scholar
Made, J.v.d., 1998. A preliminary note on the cervids from Bilzingsleben. Praehistoria Thuringica 2, 108122.Google Scholar
Made, J.v.d., Mateos, A., 2010. Longstanding biogeographic patterns and the dispersal of early Homo out of Africa and into Europe. Quaternary International 223–224, 195200.Google Scholar
Made, J.v.d., Stefaniak, K., Marciszak, A., 2014. The Polish fossil record of the wolf Canis and the deer Alces, Capreolus, Megaloceros, Dama and Cervus in an evolutionary perspective. Quaternary International 326–327, 406430.Google Scholar
Madurell-Malapeira, J., Alba, D.M., Minwer-Barakat, R., Aurell-Garrido, J., Moyà-Solà, S., 2012. Early human dispersals into the Iberian Peninsula: a comment on Martínez et al. (2010) and Garcia et al. (2011). Journal of Human Evolution 62, 169173.Google Scholar
Madurell-Malapeira, J., Alba, D.M., Moyà-Solà, S., Aurell-Garrido, J., 2010a. The Iberian record of the puma-like cat Puma pardoides (Owen, 1846) (Carnivora, Felidae). Comptes Rendus Palevol 9, 5562.Google Scholar
Madurell-Malapeira, J., Minwer-Barakat, R., Alba, D.M., Garcés, M., Gómez, M., Aurell-Garrido, J., Ros-Montoya, S., Moyà-Solà, S., Berástegui, X., 2010b. The Vallparadís section (Terrassa, Iberian Peninsula) and the latest Villafranchian faunas of Europe. Quaternary Science Reviews 29, 39723982.Google Scholar
Madurell-Malapeira, J., Ros-Montoya, S., Espigares, M.P., Alba, D.M., Aurell-Garrido, J., 2014. Villafranchian large mammals from the Iberian Peninsula: paleobiogeography, paleoecology and dispersal events. Journal of Iberian Geology 40, 167178.Google Scholar
Mania, D., Vlcek, E., 1999. The Bilzingsleben site: Homo erectus, his culture and his ecosphere. In: Ullrich, H. (Ed.), Hominid Evolution: Lifestyles and Survival Strategies. Archaea, Gelsenkirchen, Germany, pp. 293314.Google Scholar
Mann, N.J., 2000. Dietary red meat and human evolution. European Journal of Nutrition 39, 7179.Google Scholar
Manzi, G., Magri, D., Palombo, M.R., 2011. Early–Middle Pleistocene environmental changes and human evolution in the Italian peninsula. Quaternary Science Reviews 30, 14201438.Google Scholar
Marean, C.W., 1989. Sabertooth cats and their relevance for early hominid diet and evolution. Journal of Human Evolution 18, 559582.Google Scholar
Martínez, K., Garcia, J., Carbonell, E., Agustí, J., Bahain, J.-J., Blain, H.-A., Burjachs, F., et al., 2010. A new Lower Pleistocene archeological site in Europe (Vallparadís, Barcelona, Spain). Proceedings of the National Academy of Sciences of the United States of America 107, 57625767.Google Scholar
Martínez Navarro, B., 1992. Estudio cuantitativo y consideraciones paleoecológicas de la comunidad de mamíferos del yacimiento de Venta Micena (Orce, Granada). In: Giber, J. (Ed.), Presencia humana en el Pleistoceno inferior de Granada y Murcia. Museo de Prehistoria José Gibert, Orce, Granada, Spain, pp. 155188.Google Scholar
Martínez-Navarro, B., Palmqvist, P., 1995. Presence of the African Machairodont Megantereon whitei (Broom, 1937) (Felidae, Carnivora, Mammalia) in the Lower Pleistocene site of Venta Micena (Orce, Granada, Spain), with some considerations on the origin, evolution and dispersal of the genus. Journal of Archaeological Science 22, 569582.Google Scholar
Martínez-Navarro, B., Palmqvist, P., 1996. Presence of the African saber-toothed felid Megantereon whitei (Broom, 1937) (Mammalia, Carnivora, Machairodontinae) in Apollonia-1 (Mygdonia Basin, Macedonia, Greece). Journal of Archaeological Science 23, 869872.Google Scholar
Maslin, M.A., Ridgwell, P.L., 2005. Mid-Pleistocene revolution and the “eccentricity myth.” In: Head, M.J., Gibbard, E.L. (Eds.), Early–Middle Pleistocene Transitions: The Land–Ocean Evidence. Geological Society, London, pp. 1934.Google Scholar
McNabb, J., 2007. 1.9 MYR-300,000 years ago in Europe. In: Elias, S.A., (Ed.), Encyclopedia of Quaternary Science. Elsevier, Amsterdam, pp. 8998.Google Scholar
Meloro, C., 2011a. Locomotor adaptations in Plio-Pleistocene large carnivores from the Italian peninsula: palaeoecological implications. Current Zoology 57, 269283.Google Scholar
Meloro, C., 2011b. Morphological disparity in Plio-Pleistocene large carnivore guilds from Italian peninsula. Acta Palaeontologica Polonica 56, 3344.Google Scholar
Meloro, C., Clauss, M., 2012. Predator-prey biomass fluctuations in the Plio-Pleistocene. Society for Sedimentary Geology 27, 9096.Google Scholar
Meloro, C., Kovarovic, K., 2013. Spatial and ecometric analyses of the Plio-Pleistocene large mammal communities of the Italian peninsula. Journal of Biogeography 40, 14511462.Google Scholar
Meloro, C., Raia, P., Barbera, C., 2007. Effect of predation on prey abundance and survival in Plio-Pleistocene mammalian communities. Evolutionary Ecology Research 9, 505525.Google Scholar
Mills, M.G.L., Gorman, M.L., 1997. Factors affecting the density and distribution of wild dogs in the Kruger National Park. Conservation Biology 11, 13971406.CrossRefGoogle Scholar
Moncel, M.-H., 2010. Oldest human expansions in Eurasia: favouring and limiting factors. Quaternary International 223–224, 19.Google Scholar
Moncel, M.-H., Arzarello, M., Boëda, É., Bonilauri, S., Chevrier, B., Gaillard, C., Forestier, H., Yinghua, L., Sémah, F., Zeitoun, V., 2016a. The assemblages with bifacial tools in Eurasia (first part). What is going on in the West? Data on western and southern Europe and the Levant. Comptes Rendus Palevol (in press). http://dx.doi.org/10.1016/j.crpv.2015.09.009.Google Scholar
Moncel, M.-H., Arzarello, M., Boëda, É., Bonilauri, S., Chevrier, B., Gaillard, C., Forestier, H., Yinghua, L., Sémah, F., Zeitoun, V., 2016b. Assemblages with bifacial tools in Eurasia (third part). Considerations on the bifacial phenomenon throughout Eurasia. Comptes Rendus Palevol (in press). http://dx.doi.org/10.1016/j.crpv.2015.11.007.Google Scholar
Moncel, M.-H., Despriée, J., Voinchet, P., Courcimault, G., Hardy, B., Bahain, J.-J., Puaud, S., Gallet, X., Falguères, C., 2016c. The Acheulean workshop of la Noira (France, 700 ka) in the European technological context. Quaternary International 393, 112136.Google Scholar
Moncel, M.-H., Despriée, J., Voinchet, P., Tissoux, H., Moreno, D., Bahain, J.-J., Courcimault, G., Falguères, C., 2013. Early evidence of Acheulean settlement in northwestern Europe - La Noira Site, a 700 000 year-old occupation in the center of France. PLoS ONE 8, e75529. https://doi.org/10.1371/journal.pone.0075529.CrossRefGoogle Scholar
Moncel, M.-H., Moigne, A.-M., Combier, J., 2005. Pre-Neandertal behaviour during isotopic stage 9 and the beginning of stage 8. New data concerning fauna and lithics in the different occupation levels of Orgnac 3 (Ardèche, south-east France): occupation types. Journal of Archaeological Science 32, 12831301.Google Scholar
Montuire, S., Marcolini, F., 2002. Palaeoenvironmental significance of the mammalian faunas of Italy since the Pliocene. Journal of Quaternary Science 17, 8796.CrossRefGoogle Scholar
Mosquera, M., Ollé, A., Rodríguez, X.P., 2013. From Atapuerca to Europe: tracing the earliest peopling of Europe. Quaternary International 295, 130137.Google Scholar
Mosquera, M., Ollé, A., Saladié, P., Cáceres, I., Huguet, R., Rosas, A., Villalaín, J., et al., 2016. The Early Acheulean technology of Barranc de la Boella (Catalonia, Spain). Quaternary International 393, 95111.Google Scholar
Muttoni, G., Kent, D.V., Scardia, G., Martin, R.A., 2015. Bottleneck at Jaramillo for human migration to Iberia and the rest of Europe? Journal of Human Evolution 80, 7190.Google Scholar
Muttoni, G., Scardia, G., Kent, D.V., 2010. Human migration into Europe during the late Early Pleistocene climate transition. Palaeogeography, Palaeoclimatology, Palaeoecology 296, 7993.Google Scholar
Nowak, R.M., 1999. Walker’s Mammals of the World. Johns Hopkins University Press, Baltimore, MD.Google Scholar
Ollé, A., Mosquera, M., Rodríguez, X.P., Lombera-Hermida, A., de, García-Antón, M.D., García-Medrano, P., Peña, L., et al., 2013. The Early and Middle Pleistocene technological record from Sierra de Atapuerca (Burgos, Spain). Quaternary International 295, 138167.CrossRefGoogle Scholar
O’Regan, H.J., 2008. The Iberian Peninsula – corridor or cul-de-sac? Mammalian faunal change and possible routes of dispersal in the last 2 million years. Quaternary Science Reviews 27, 21362144.Google Scholar
O’Regan, H.J., Turner, A., Bishop, L.C., Lamb, A.L., 2011. Hominins without fellow travellers? First appearances and inferred dispersals of Afro-Eurasian large-mammals in the Plio-Pleistocene. Quaternary Science Reviews 30, 13431352.Google Scholar
Owen-Smith, N., 2010. Dynamics of Large Herbivore Populations in Changing Environments: Towards Appropriate Models. Blackwell, Chichester, West Sussex, UK.Google Scholar
Palmqvist, P., Gröcke, D.R., Arribas, A., Fariña, R.A., 2003. Paleoecological reconstruction of a lower Pleistocene large mammal community using biogeochemical (δ13C, δ15N, δ18O, Sr: Zn) and ecomorphological approaches. Paleobiology 29, 205229.2.0.CO;2>CrossRefGoogle Scholar
Palmqvist, P., Martínez-Navarro, B., Arribas, A., 1996. Prey selection by terrestrial carnivores in a Lower Pleistocene paleocommunity. Paleobiology 22, 514534.Google Scholar
Palmqvist, P., Martínez-Navarro, B., Pérez-Claros, J.A., Torregrosa, V., Figueirido, B., Jiménez-Arenas, J.M., Espigares, M.P., Ros-Montoya, S., De Renzi, M., 2011. The giant hyena Pachycrocuta brevirostris: modelling the bone-cracking behavior of an extinct carnivore. Quaternary International 243, 6179.Google Scholar
Palmqvist, P., Martínez-Navarro, B., Toro, I., Espigares, M.P., Ros-Montoya, S., Torregrosa, V., Pérez-Claros, J.A., 2005. Réévaluation de la présence humaine au Pléistocène inférieur dans le Sud de l’Espagne [A re-evaluation of the evidence of human presence during Early Pleistocene times in southeastern Spain]. L’Anthropologie 109, 411450.CrossRefGoogle Scholar
Palmqvist, P., Pérez-Claros, J.A., Janis, C.M., Gröcke, D.R., 2008. Tracing the ecophysiology of ungulates and predator–prey relationships in an early Pleistocene large mammal community. Palaeogeography, Palaeoclimatology, Palaeoecology 266, 95111.Google Scholar
Palmqvist, P., Torregrosa, V., Pérez-Claros, J.A., Martínez Navarro, B., Turner, A., 2007. A re-evaluation of the diversity of Megantereon (Mammalia, Carnivora, Machairodontinae) and the problem of species identification in extinct carnivores. Journal of Vertebrate Paleontology 27, 160175.Google Scholar
Palombo, M.R., 2007. What is the boundary for the Quaternary period and Pleistocene epoch? The contribution of turnover patterns in large mammalian complexes from north-western Mediterranean to the debate. Quaternaire 18, 3553.Google Scholar
Palombo, M.R., 2010. A scenario of human dispersal in the northwestern Mediterranean throughout the Early to Middle Pleistocene. Quaternary International 223–224, 179194.Google Scholar
Palombo, M.R., 2013. What about causal mechanisms promoting early hominin dispersal in Eurasia? A research agenda for answering a hotly debated question. Quaternary International 295, 1327.Google Scholar
Palombo, M.R., 2014. Deconstructing mammal dispersals and faunal dynamics in SW Europe during the Quaternary. Quaternary Science Reviews 96, 5071.Google Scholar
Palombo, M.R., 2016. To what extent could functional diversity be a useful tool in inferring ecosystem responses to past climate changes? Quaternary International 413, 1531.Google Scholar
Palombo, M.R., Azanza, B., Alberdi, M.T., 2000–2002. Italian mammal biochronology from the latest Miocene to the Middle Pleistocene: a multivariate approach. Geologica Romana 36, 335368.Google Scholar
Palombo, M.R., Milli, S., Rosa, C., 2003–2004. Remarks on the biochronology of the late Middle Pleistocene mammalian faunal complexes of the Campagna Romana (Latium, Italy). Geologica Romana 37, 135143.Google Scholar
Palombo, M.R., Mussi, M., 2006. Large mammal guilds at the time of the first human colonization of Europe: the case of the Italian Pleistocene record. Quaternary International 149, 94103.Google Scholar
Palombo, M.R., Valli, A.M.F., Kostopoulos, D.S., Alberdi, M.T., Spassov, N., Vislobokova, I., 2006. Similarity relationships between the Pliocene to middle Pleistocene large mammal faunas of southern Europe from Spain to the Balkans and the north Pontic region. In: Kahlke, R.-D., Maul, L.C., Mazza, P.P.A. (Eds.), Late Neogene and Quaternary Biodiversity and Evolution: Regional Developments and Interregional Correlations. Courier Forschungsinstitut Senckenberg, 256. E. Schweizerbartgsinstitut Senckenberg, M, Stuttgart, Germany, pp. 392–347.Google Scholar
Peretto, C., 2006. The first peopling of southern Europe: the Italian case. Comptes Rendus Palevol 5, 283290.Google Scholar
Pérez-Claros, J.A., Jiménez-Arenas, J.M., Palmqvist, P., 2015. Neurocranium versus face: a morphometric approach with classical anthropometric variables for characterizing patterns of cranial integration in extant hominoids and extinct hominins. PLoS ONE 10, e0131055. https://doi.org/10.1371/journal.pone.0131055.Google Scholar
Prado, J.L., Alberdi, M.T., Azanza, B., Rodríguez, J., 2004. Patterns of body-size change in large mammals during the Late Cenozoic in the northwestern Mediterranean. Paleontología: Miscelánea en homenaje a Emiliano Aguirre 2, 467479.Google Scholar
Prado-Nóvoa, O., Mateos, A., Zorrilla-Revilla, G., Vidal-Cordasco, M., Rodríguez, J., 2017. Efficiency of gathering and its archaeological implications for an European Early Paleolithic population. Journal of Anthropological Archaeology 45, 131141.Google Scholar
Prevosti, F.J., Vizcaíno, S.F., 2006. Paleoecology of the large carnivore guild from the late Pleistocene of Argentina. Acta Palaeontologica Polonica 51, 407422.Google Scholar
Raia, P., Carotenuto, F., Meloro, C., Piras, P., Barbera, C., Kotsakis, T., 2009. More than three million years of community evolution. The temporal and geographical resolution of the Plio-Pleistocene western Eurasia mammal faunas. Palaeogeography, Palaeoclimatology, Palaeoecology 276, 1523.Google Scholar
Raia, P., Meloro, C., Barbera, C., 2007. Inconstancy in predator/prey ratios in Quaternary large mammal communities of Italy, with an appraisal of mechanisms. Quaternary Research 67, 255263.CrossRefGoogle Scholar
Raia, P., Piras, P., Kotsakis, T., 2005. Turnover pulse or Red Queen? Evidence from the large mammal communities during the Plio-Pleistocene of Italy. Palaeogeography, Palaeoclimatology, Palaeoecology 221, 293312.Google Scholar
Ricklefs, R.E., 2010. Evolutionary diversification, coevolution between populations and their antagonists, and the filling of niche space. Proceedings of the National Academy of Sciences of the United States of America 107, 12651272.Google Scholar
Roberts, M.B., Parfitt, S.A., 2000. Boxgrove: a Middle Pleistocene hominid site at Eartham Quarry, Boxgrove, West Sussex. Geoarchaeology 15, 819822.Google Scholar
Rodríguez, J., 1997. Análisis de la estructura de las comunidades de mamíferos del Pleistoceno de la Sierra de Atapuerca. Revisión de metodologías. PhD dissertation, Universidad Autónoma de Madrid, Madrid.Google Scholar
Rodríguez, J., Alberdi, M.T., Azanza, B., Prado, J.L., 2004. Body size structure in north-western Mediterranean Plio-Pleistocene mammalian faunas. Global Ecology and Biogeography 13, 163176.Google Scholar
Rodríguez, J., Burjachs, F., Cuenca-Bescós, G., García, N., Made, J.v.d., Pérez González, A., Blain, H.-A., et al., 2011. One million years of cultural evolution in a stable environment at Atapuerca (Burgos, Spain). Quaternary Science Reviews 30, 13961412.Google Scholar
Rodríguez, J., Mateos, A., Martín-González, J.A., Rodríguez-Gómez, G., 2015. How rare was the human presence in Europe during the Early Pleistocene? Quaternary International 389, 119130.Google Scholar
Rodríguez, J., Rodríguez-Gómez, G., Martín-González, J.A., Goikoetxea, I., Mateo, A., 2012. Predator–prey relationships and the role of Homo in Early Pleistocene food webs in Southern Europe. Palaeogeography, Palaeoclimatology, Palaeoecology 365–366, 99114.Google Scholar
Rodríguez-Gómez, G., Martín-González, J.A., Goikoetxea, I., Mateos, A., Rodríguez, J., 2014a. A new mathematical approach to model trophic dynamics of mammalian palaeocommunities. The case of Atapuerca-TD6. In: Pardo-Igúzquiza, E., Guardiola-Albert, C., Heredia, J., Moreno-Merino, L., Durán, J.J., Vargas-Guzmán, J.A. (Eds.), Mathematics of Planet Earth: 15th Annual Conference of the International Association for Mathematical Geosciences. Lectures Notes in Earth System Sciences. Springer, Madrid, pp. 739745.Google Scholar
Rodríguez-Gómez, G., Mateos, A., Martín-González, J.A., Blasco, R., Rosell, J., Rodríguez, J., 2014b. Discontinuity of human presence at Atapuerca during the early Middle Pleistocene: a matter of ecological competition? PLoS ONE 9, e101938. https://doi.org/10.1371/journal.pone.0101938.Google Scholar
Rodríguez-Gómez, G., Mateos, A., Martín-González, J.A., Rodríguez, J., 2016a. Measuring intraguild competition from faunal assemblages to compare environmental conditions among paleocommunities. Quaternary International 413, 5568.Google Scholar
Rodríguez-Gómez, G., Palmqvist, P., Rodríguez, J., Mateos, A., Martín-González, J.A., Espigares, M.-P., Ros-Montoya, S., Martínez-Navarro, B., 2016b. On the ecological context of the earliest human settlements in Europe: resource availability and competition intensity in the carnivore guild of Barranco León-D and Fuente Nueva-3 (Orce, Baza Basin, SE Spain). Quaternary Science Reviews 143, 6983.Google Scholar
Rodríguez-Gómez, G., Palmqvist, P., Ros-Montoya, S., Espigares, M. P. and Martínez-Navarro, B. (2017). Resource availability and competition intensity in the carnivore guild of the Early Pleistocene site of Venta Micena (Orce, Baza Basin, SE Spain). Quaternary Science Reviews 164, 154167.Google Scholar
Rodríguez-Gómez, G., Rodríguez, J., Martín-González, J.A., Goikoetxea, I., Mateos, A., 2013. Modeling trophic resource availability for the first human settlers of Europe: the case of Atapuerca-TD6. Journal of Human Evolution 64, 645657.Google Scholar
Rodríguez-Gómez, G., Rodríguez, J., Martín-González, J.A., Mateos, A., 2017. Carnivores and humans during the Early and Middle Pleistocene at Sierra de Atapuerca. Quaternary International 433, 402414.Google Scholar
Rodríguez-Gómez, G., Rodríguez, J., Mateos, A., Martín-González, J.A., Goikoetxea, I., 2012. Food web structure in the European Pleistocene. Journal of Taphonomy 10, 165184.Google Scholar
Roebroeks, W., 2001. Hominid behaviour and the earliest occupation of Europe: an exploration. Journal of Human Evolution 41, 437461.Google Scholar
Saladié, P., Huguet, R., Díez, C., Rodríguez-Hidalgo, A., Cáceres, I., Vallverdú, J., Rosell, J., Bermúdez de Castro, J.M., Carbonell, E., 2011. Carcass transport decisions in Homo antecessor subsistence strategies. Journal of Human Evolution 61, 425446.Google Scholar
Santonja, M., Pérez-González, A., 2010. Mid-Pleistocene Acheulean industrial complex in the Iberian Peninsula. Quaternary International 223–224, 154161.CrossRefGoogle Scholar
Schneider, S.H., Root, T.L., 1998. Impacts of climate changes on biological resources. In: Mac, M.J., Opler, P.A., Puckett Haecker, C.E., Doran, P.D. (Eds.), Status and Trends of the Nations Biological Resources. U.S. Department of the Interior, Reston, VA, pp. 89116.Google Scholar
Scott, G.R., Gibert, L., 2009. The oldest hand-axes in Europe. Nature 461, 8285.Google Scholar
Seebeck, J.H., 1978. Diet of the fox Vulpes vulpes in a western Victorian forest. Austral Ecology 3, 105108.Google Scholar
Serangeli, J., Böhner, U., Van Kolfschoten, T., Conard, N.J., 2015. Overview and new results from large-scale excavations in Schöningen. Journal of Human Evolution 89, 2745.Google Scholar
Shackleton, N.J., 1995. New data on the evolution of Pliocene climatic variability. In: Vrba, E.S., Denton, G.H., Partridge, T.C., Burckle, L.H. (Eds.), Paleoclimate and Evolution, with Emphasis on Human Origins. Yale University Press, New Haven, CT, pp. 311318.Google Scholar
Silva, M., Downing, J.A., 1995. The allometric scaling of density and body mass: a nonlinear relationship for terrestrial mammals. American Naturalist 145, 704727.Google Scholar
Sirakov, N., Guadelli, J.-L., Ivanova, S., Sirakova, S., Boudadi-Maligne, M., Dimitrova, I., Fernandez, P., et al., 2010. An ancient continuous human presence in the Balkans and the beginnings of human settlement in western Eurasia: a Lower Pleistocene example of the Lower Palaeolithic levels in Kozarnika cave (north-western Bulgaria). Quaternary International 223–224, 94106.Google Scholar
Speth, J.D., 2010. The Paleoanthropology and Archaeology of Big-Game Hunting. Springer, New York.Google Scholar
Stiner, M.C., 1992. Overlapping species “choice” by Italian Upper Pleistocene predators. Current Anthropology 33, 433451.Google Scholar
Stuart, A J., Lister, A.M., 2001. The mammalian faunas of Pakefield/Kessingland and Corton, Suffolk, UK: evidence for a new temperate episode in the British early Middle Pleistocene. Quaternary Science Reviews 20, 16771692.Google Scholar
Thieme, H., 1997. Lower Palaeolithic hunting spears from Schöningen, Germany. Nature 358, 807810.Google Scholar
Toro-Moyano, I., Martínez-Navarro, B., Agustí, J., Souday, C., Bermúdez de Castro, J.M., Martinón-Torres, M., Fajardo, B., et al., 2013. The oldest human fossil in Europe, from Orce (Spain). Journal of Human Evolution 65, 19.Google Scholar
Turner, A., 1992. Large carnivores and earliest European hominids: changing determinants of resource availability during the Lower and Middle Pleistocene. Journal of Human Evolution 22, 109126.Google Scholar
Valensi, P., 2009. Évolution des peuplements de grands mammifères en Europe Méditerranéene Occidentale durant le Pléistocène moyen et supérieur. Un exemple régional: Les Alpes du sud Françaises et italiennes. Quaternaire 20, 551567.Google Scholar
Vallverdú, J., Saladié, P., Rosas, A., Huguet, R., Cáceres, I., Mosquera, M., Garcia-Tabernero, A., et al., 2014. Age and date for early arrival of the Acheulian in Europe (Barranc de la Boella, la Canonja, Spain). PLoS ONE 9, e103634. https://doi.org/10.1371/journal.pone.0103634.Google Scholar
Viljoen, P.C., 1993. The effects of changes in prey availability on lion predation in a natural ecosystem in northern Botswana. Symposia of the Zoological Society of London 65, 193213.Google Scholar
Vizcaíno, S.F., Bargo, M.S., Kay, R.F., Fariña, R.A., Giacomo, M.D., Perry, J.M.G., Prevosti, F.J., Toledo, N., Cassini, G.H., Fernicola, J.C., 2010. A baseline paleoecological study for the Santa Cruz Formation (late–early Miocene) at the Atlantic coast of Patagonia, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology 292, 507519.Google Scholar
Vizcaíno, S.F., Fariña, R.A., Zárate, M.A., Bargo, M.S., Schultz, P., 2004. Palaeoecological implications of the mid-Pliocene faunal turnover in the Pampean Region (Argentina). Palaeogeography, Palaeoclimatology, Palaeoecology 213, 101113.Google Scholar
Volmer, R., Hertler, C., 2016. The effect of competition on shared food resources in carnivore guilds. Quaternary International 413, 3243.Google Scholar
Walker, M.J., López-Martínez, M., Carrión-García, J.S., Rodríguez-Estrella, T., San-Nicolás del-Toro, M., Schwenninger, J.-L., López-Jiménez, A., et al., 2013. Cueva Negra del Estrecho del Río Quípar (Murcia, Spain): a late Early Pleistocene hominin site with an “Acheulo-Levalloiso-Mousteroid” Palaeolithic assemblage. Quaternary International 294, 135159.Google Scholar
Weers, D.J. van, 1994. The porcupine Hystrix refossa Gervais, 1852 from the Plio-Pleistocene of Europe, with notes on other fossil and extant species of the genus Hystrix. Scripta Geologica 106, 3552.Google Scholar
White, E.P., Ernest, S.K.M., Kerkhoff, A.J., Enquist, B., 2007. Relationships between body size and abundance in ecology. Trends in Ecology and Evolution 22, 323330.Google Scholar
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