PALAEOCLIMATIC EVOLUTION IN LOUTRA ARIDEAS CAVE (ALMOPIA SPELEOPARK, MACEDONIA, N. GREECE) BY STABLE ISOTOPIC ANALYSIS OF FOSSIL BEAR BONES AND TEETH


Δημοσιευμένα: янв. 1, 2010
N. Zisi
E. Dotsika
E. Tsoukala
A. Giannakopoulos
D. Psomiadis
Περίληψη
Carbon and oxygen stable isotope values (δ13C, δ18O) were obtained from structural carbonate in the bioapatite of bear bones (Ursus ingressus) from Loutra Arideas cave, Almopia Speleopark, Macedonia, N. Greece. Samples of Late Pleistocene bear bones were studied for palaeoclimatic reconstruction of the area. The age range of the fossil layers is from 32ka BP to a maximum of 38ka BP. Generally, the palaeoclimatic proxy is correlated with literature data for climatic variations in the area during Late Pleistocene, whereas dietary behavior was investigated taking into account possible diagenetic processes that may have affected the carbonate matrix of the bones.
Λεπτομέρειες άρθρου
  • Ενότητα
  • Γεώτοποι
Λήψεις
Τα δεδομένα λήψης δεν είναι ακόμη διαθέσιμα.
Αναφορές
Bocherens, H., 1992. Biogeochimie isotopique (13C, 15N, 18O) et paleontologie des vertebres: applications
a l’ etude des reseaux trophiques revolus et des paleoenvironnements. Theses de Doctorat de l’
Universite Paris 6.
Bösl, C., Grupe, G., Peters, J., 2006. A late neolithic vertebrate food web based on stable isotope analyses.
International Journal of Osteoarchaeology, 16 (4), 296-315.
Bryant, J.D., Koch, P.L., Froelich, P.N., Showers, W.J., Genna, B.J., 1996. Oxygen isotope partitioning
between phosphate and carbonate in mammalian apatite. Geochimica et Cosmochimica Acta, 60,
–5148.
Dansgaard, W., Johnsen, S.J., Clausen, H.B., Dahl-Jensen, D., Gundestrup, N.S., Hammer, C.U., Hvidberg,
C.S., Steffensen, J.P., Sveinbjornsdottir, A.E., Jouzel, J., Bond, G., 1993. Evidence of general
instability of past climate from a 250 kyr ice core record. Nature, 364, 218–220.
Digerfeldt, G., Olsson, S., Sandgren, P., 2000. Reconstruction of lake-level changes in lake Xinias,
central Greece, during the last 40000 years. Palaeogeography, Palaeoclimatology, Palaeoecology,
, 65-82.
Dotsika, E., Lykoudis, S., 2009. Spatial distribution of isotopic composition of precipitation and spring
water in Greece. Global and Planetary Change, in press.
Fernández-Mosquera, D., Vila-Taboada, M., Grandal-d’Anglade, A., 2001, Stable isotopes data (δ13C,
δ15N) from the cave bear (Ursus spelaeus): A new approach to its palaeoenvironment and dormancy.
Proceedings of the Royal Society B: Biological Sciences, 268, 1472, 1159-1164.
Fricke, H.C., Clyde, W.C., O’Neil, J.R. & Gingerich, P.D., 1998. Evidence for rapid climate changes in
North America during the latest Paleocene thermal maximum: oxygen isotope compositions of biogenic
phosphate from the Bighorn Basin (Wyoming). Earth and Planetary Science Letters, 160, 1-2,
-208.
Garvie-Lok, S.J., Varney, T.L., Katzenberg, M.A., 2004. Preparation of bone carbonate for stable isotope
analysis: The effects of treatment time and acid concentration. Journal of Archaeological Science, 31,
, 763-776.
Hilderbrand, G.V., Farley, S.D., Robbins, C.T., Hanley, T.A., Titus, K., Servheen, C., 1996. Use of stable isotopes
to determine diets of living and extinct bears. Canadian Journal of Zoology, 74 (11), 2080-2088.
XLIII, No 2 – 963
Hoppe, K.A., 2006, Correlation between the oxygen isotope ratio of North American bison teeth and
local waters: Implication for paleoclimatic reconstructions. Earth and Planetary Science Letters, 244,
-2, 408-417.
Iacumin, P., Bocherens, H., Mariotti, A., Longinelli, A., 1996. Oxygen isotope analyses of co-existing carbonate
and phosphate in biogenic apatite: A way to monitor diagenetic alteration of bone phosphate?
Earth and Planetary Science Letters, 142, 1-2, 1-6.
Iacumin, P., Nikolaev, V., Ramigni, M., Longinelli, A., 2004. Oxygen isotope analyses of mammal bone
remains from Holocene sites in European Russia: Palaeoclimatic implications. Global and Planetary
Change, 40, 1-2, 169-176.
Kambouroglou E. M., Chatzitheodorou, Th., 1999. Geomorphological changes and sedimentation of the
A cave (Agiasma) of Loutraki (Pella, Macedonia, Greece). Proceedings of the 5th Congress of Greek
Geographical Society, 83-93, Athens (in Greek).
Kambouroglou E., Bassiakos, Y., Bouzas, D., 2006. Paleontological-sedimentological excavational research
in 2004 and dating results of Cave A’ Loutraki, Aridea. [In]: “The Archaeological Survey in
Macedonia and Thrace”, 18 (2004): 573-589, Thessaloniki (in Greek with English abstract).
Karkanas, P., 2001. Site formation processes in Theopetra Cave: a record of climatic change during the
Late Pleistocene and Early Holocene in Thessaly, Greece. Geoarchaeology, 16, 373-399.
Koch, P.L., Fisher, D.C., Dettman, D., 1989. Oxygen isotope variation in the tusks of extinct proboscideans:
a measure of season of death and seasonality. Geology, 17(6), 515-519.
Krueger, H.W., Sullivan, C.H., 1984. Models for carbon isotope fractionation between diet and bone. Stable
Isotopes in Nutrition, 258, 205-220.
Kurtén, B., 1976. The cave bear story, New York. Columbia University Press.
Longinelli, A., 1984. Oxygen isotopes in mammal bone phosphate: A new tool for paleohydrological and
paleoclimatological research? Geochimica et Cosmochimica Acta, 48, 2, 385-390.
Longinelli, A., Nuti, S., 1973. Revised phosphate-water isotopic temperature scale. Earth and Planetary
Science Letters, 19 (3), 373-376.
Mattson, D.J., 1998, Diet and morphology of extant and recently extinct northern bears, Ursus, 10, 479-496.
Rabeder, G., Nagel, D., Pacher, M. 2000. Der Höhlenbär, Thorbecke, Stuttgart.
Rabeder, G., Hofreiter, M., 2004. Der neu Stammbaum der Hohlenbaren. Die Hoehle, 55 (1-4), 58-77.
Rabeder, G., Tsoukala, E.& Kavcik, N., 2006, Chronological and systematic position of cave bears from
Loutra Arideas (Pella, Macedonia, Greece). Scientific Annals, School of Geology Aristotle University
of Thessaloniki (AUTH), 98, 69-73.
Richards, M.P., Pacher, M., Stiller, M., Quilès, J., Hofreiter, M., Constantin, S., Zilhão, J., Trinkaus, E.,
Isotopic evidence for omnivory among European cave bears: Late Pleistocene Ursus spelaeus
from the Peştera cu Oase, Romania. Proceedings of the National Academy of Sciences of the United
States of America, 105 (2), 600-604.
Tsoukala, E., Chatzopoulou, K., Rabeder, G., Pappa, S., Nagel, D., Withalm, G., 2006. Paleontological and
stratigraphical research in Loutra Arideas bear cave (Almopia Speleopark, Pella, Macedonia, Greece).
Scientific Annals, School of Geology Aristotle University of Thessaloniki (AUTH), 98, 41-67.
Tzedakis, P.C., Lawson, I.T., Frogley, M.R., Hewitt, G., Preece, R., 2002. Buffered tree population
changes in a Quaternary refugium: evolutionary implications. Science, 297, 2044-2047.
Zazzo, A., 2001. Validation méthodologique de l’utilisation des compositions isotopiques (13C, 18O) des
bioapatites fossiles pour les reconstitutions des paléoenvironnements continentaux. Thèse de doctorat
de l’université Pierre et Marie Curie, Paris 6.
Τα περισσότερο διαβασμένα άρθρα του ίδιου συγγραφέα(s)