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Ninello, Enrico (2017) Caratterizzazione geochimica ed isotopica del MIS 21 e al limite Brunhes-Matuyama (MIS 19) nella sezione di Valle di Manche (Calabria). [Magistrali biennali]

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Aims of this Thesis are the stable oxygen and carbon isotope analysis of the foraminifer tests of the benthic species Uvigerina peregrina collected from the MIS 21 sediments of the Valle di Manche section (Calabria, Southern Italy), as well as addressing critical isssues concerning the positioning of the Matuyama-Brunhes (M-B) paleomagnetic reversal (MIS 19) based on XRD and 10Be analyses. Geochemical analyses were performed at a 10-cm resolution, which confirmed the trend shown by previous low-resolution investigations and improved the available dataset. X-ray diffraction analyses and the 10Be data suggest that the stratigraphic position of the M-B reversal revealed by conventional paleomagnetic studies (mid-MIS 19) should be confirmed.

Item Type:Magistrali biennali
Uncontrolled Keywords:Isotopi, Paleomagnetismo, Berillio 10
Subjects:Area 04 - Scienze della terra > GEO/02 Geologia stratigrafica e sedimentologica
Area 04 - Scienze della terra > GEO/01 Paleontologia e paleoecologia
Codice ID:56891
Relatore:Capraro , Luca
Correlatore:Ferretti, Patrizia
Data della tesi:10 March 2017
Biblioteca:Polo di Scienze > Dip. Geoscienze - Biblioteca
Tipo di fruizione per il documento:on-line per i full-text
Tesi sperimentale (Si) o compilativa (No)?:Yes


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ALTENBACH, A., SARNTHEIN, M., 1989. Productivity record in benthic foraminifera. In: Bergher, W. H., Smetacek, V. S.,Wefer, G. (eds). Productivity in the ocean: present and past, Danelm Konferenzen, Chichester. Wiley and Sons Ltd., Bath, pp. 255-259. Cerca con Google

BASSINOT, F.C., LABEYRIE, L.D., VINCENT, E., QUIDELLEUR, X., SHACKLETON, N.J., LANCELOT, Y., 1994. The astronomical theory of climate and the age of the Brunhes–Matuyama magnetic reversal. Earth Planet. Sci. Lett. 126, 91–108. Cerca con Google

BEER, J., MCCRACKEN, K., VON STEIGER, R., 2012. Cosmogenic Radionuclides: Theory and Applications in the Terrestrial and Space Environments. Springer, Berlin, doi: 10.1007/978-3-642-14651-0. Cerca con Google

BERGER, W.H., BICKERT, T., WEFER, G., & YASUDA, M. K. 1995. Brunhes–Matuyama boundary: 790 k.y. date consistent with ODP Leg 130 oxygen isotope records based on fit to Milankovitch template. Geophysical Research Letters,22,1525–1528. Cerca con Google

BOURLES, D., RAISBECK, M., YIOU, F, 1988. 10Be and 9Be in marine sediments and their potential for dating. Geochimica et Cosmochimica Acta Vol.53, pp. 443-452. Cerca con Google

BOURLES, D.L., RAISBECK, G.M., YIOU, F., 1989. 10Be and 9Be in Marine sediments and their potential for dating. Geochim. Cosmochim. Acta 53 (2), 443–452. Cerca con Google

CAPRARO, L., ASIOLI, A., BACKMAN, J., BERTOLDI, R., CHANNEL, J.E.T., MASSARI, F., RIO, D., 2005. Climatic patterns revealed by pollen and oxygen isotope records across the Brunhes-Matuyama boundary in the central Mediterranean (Southern Italy). Geological Society, London, Special Publications 247, pp. 159-182. Cerca con Google

CAPRARO, L., MASSARI, F., RIO, D., FORNACIARI, E., BACKMAN, J., CHANNEL, J.E.T., MACRÌ, P., PROSSER, G., SPERANZA, F., 2011. Chronology of the Lower-Middle Pleistocene succession of the south-western part of the Crotone Cerca con Google

Basin (Calabria, Southern Italy). Quaternary Science Reviews 30 (2011) pp. 1185-1200. Cerca con Google

CAPRARO, L., MACRÍ, P., SCARPONI, D., RIO, D., 2015. The Lower to Middle Pleistocene Valle di Manche section (Calabria, Southern Italy): state of the art and current advances. Quaternary International 383 (2015), pp. 36-46. Cerca con Google

CAPRARO, L., FERRETTI, P., MACRÍ, P., SCARPONI, D., TATEO, F., FORNACIARI, E., BELLINI, G., DALAN, G., 2016. The Valle di Manche section (Calabria, Southern Italy): a high resolution record of the Early-Middle Pleistocene transition (MIS 21-MIS 19) in the Central Mediterranean (submitted). Cerca con Google

CHANNELL, J.E.T. & KLEIVEN, H., 2000. Geomagnetic palaeointensities and astrochronological ages for the Matuyama–Brunhes boundary and the Jaramillo Subchron: Palaeomagnetic and oxygen isotope records from ODP Site 983. Philosophical Transactions of the Royal Society,358,1027–1047. Cerca con Google

CLARK, P.U., ARCHER, D., POLLARD, D., BLUM, J.D., RIAL, J.A., BROVKIN, V., MIX, A.C., PISIASG, N.G., ROYET, M., 2006. The Middle Pleistocene Transition: characteristics, mechanisms, and implications for long-term changes in atmospheric pCO2. Quaternary Science Reviews 25, 3150-3184, 2006. Cerca con Google

COOKE, S., ROHLING, E.J., 2003. Stable Isotopes in Foraminiferal Carbonate. School of Ocean and Earth Science. University of Southampton, Southampton Oceanography Centre, Southampton SO14 3ZH, UK. Cerca con Google

COPLEN, T.B., 1995. New IUPAC guidelines for the reporting of stable hydrogen, carbon and oxygen isotope-ratio data. J. Res. Nat. Inst. Stand. Technol. 100, p. 285. Cerca con Google

CORLISS, B. H., 1991. Morphology and microhabitat preferences of benthic foraminifera from the northwest Atlantic Ocean. Mar. Micropaleontol. 17: 195-236. Cerca con Google

DREYFUS, G.B., RAISBECK, G.M., PARRENIN, F., JOUZEL, J., GUYODO, Y., NOMADE, S., MAZAUD, A., 2008. An ice core perspective on the age of the Matuyama-Brunhes boundary. Earth and Planetary Science Letters 274, 151-156. Cerca con Google

DUHR, A., HILKERT, A.W., Thermo Fisher Scientific, Bremen, Germany. δ18O and δ13C. Determination of Carbonates Using Thermo Scientific GasBench II, 2008. Thermo Fischer Scientific Inc. Cerca con Google

FERRETTI, P., CROWHURST, S. J., HALL, M. A., CACHO, I., 2010. North Atlantic millennial-scale climate variability 910 to 790 ka and the role of the equatorial insolation forcing. Earth and Planetary Science Letters 293 (2010), pp. 28-41. Cerca con Google

FERRETTI, P., CROWHURST, S.J., NAAFS, B.D.A., BARBANTE, C., 2015. The Marine Isotope Stage 19 in the mid-latitude North Atlantic Ocean: astronomical signature and intra-interglacial variability. Quaternary Science Reviews 108, 95-110. Cerca con Google

GATTUSO, J. P., HANSSON, L., Ocean Acidification, 2011, p. 2. Cerca con Google

GREW, E. S., 2012. Beryllium: mineralogy, petrology and geochemistry. Reviews in mineralogy & geochemistry. Cerca con Google

HEAD, M.J., GIBBARD, P.L., 2005. Early–Middle Pleistocene transitions: an overview and recommendation for the defining boundary. Geological Society, London, Special Publications 247. Cerca con Google

HEAD, M.J., PILLANS, B., FARQUHAR, S., 2008. The Early-Middle Pleistocene Transition: characterization and proposed guide for the defining boundary. Episodes 31, 255-259. Cerca con Google

HEAD, M. J., GIBBARD, P. L., 2015. Early-Middle Pleistocene transitions: Linking terrestrial and marine realms. Quaternary International 389 (2015), pp. 7-46. Cerca con Google

HILGEN, F.J., 1991. Astronomical calibration of Gauss to Matuyama sapropels in the Mediterranean and implication for the geomagnetic polarity timescale. Earth Planet. Sci. Lett. 104, 226–244. Cerca con Google

HORNG, C.-S., LEE, M.-Y., PALIKE, H., WEI, K.-Y., LIANG, W.-T., IIZUKA, Y., TORII, M., 2002. Astronomically calibrated ages for geomagnetic reversals within the Matuyama chron. Earth Planets Space 54, 679-690. Cerca con Google

LISIECKI, L. E., RAYMO, M. E., 2005. A Pliocene-Pleistocene stack of 57 globally distributed benthic D18O records. Paleoceanography, Vol. 20, PA1003, doi:10.1029/2004PA001071, 2005. Cerca con Google

MASSARI, F., RIO, D., SGAVETTI, M., PROSSER, G., D’ALESSANDRO, A., ASIOLI, A., CAPRARO, L., FORNACIARI, E., TATEO, F., 2002. Interplay between tectonics and glacio-eustasy: Pleistocene succession of the Crotone Basin, Cerca con Google

Calabria (southern Italy). Geological Society of American Bulletin 114 no.10 (2002), pp.1183-1209. Cerca con Google

MASSARI, F., CAPRARO, L., RIO, D., 2007. Climatic modulation of timing of systems tract development with respect to sea level changes (Middle Pleistocene of Crotone, Calabria, Southern Italy). Journal of Sedimentary Research 77, pp. 461–468. Cerca con Google

MELIÈRES, M.A., MARÉCHAL, C., 2010. Climate Change: Past, Present and Future, p. 50. Cerca con Google

PRETO, N., BREDA, A., DAL CORSO, J., FRANCESCHI, M., ROCCA, F., SPADA, C., ROGHI, G., 2016. The Loppio Oolitic Limestone (Early Jurassic, Southern Alps): A prograding oolitic body with high original porosity originated by a carbonate platform crisis and recovery. Marine and Petroleum Geology xxx (2016), pp. 1-18. Cerca con Google

RAILSBACK, L.B., GIBBARD, P.L., HEAD, M.J., VOARINTSOA, N.R.G., TOUCANNE, S., 2015. An optimized scheme of lettered marine isotope substages for the last 1.0 million years, and the climatostratigraphic nature of isotope stages and substages. Quaternary Science Reviews 111, 94-106. Cerca con Google

RAISBECK, G. M., YIOU, F., ZHOU, S. Z., 1994. Paleointensity puzzle. Nature, 371, 207. Cerca con Google

RAVELO, C., HILLAIRE-MARCEL, C., 2007. The use of Oxygen and Carbon Isotopes Foraminifera in Paleoceanography. Devolopments in Marine Geology, Vol.1 (2007), pp. 735-764. Cerca con Google

RICHMOND, G.M., 1996. The INQUA-approved provisional Lower-Middle Pleistocene boundary. In: TURNER, C. (Ed.), The Early-Middle Pleistocene in Europe. Balkema, Rotterdam, pp. 319-326. Cerca con Google

RIO, D., CHANNEL, J.E.T., MASSARI, F., POLI, M.S., SGAVETTI, M., D’ALESSANDRO, A., PROSSER, G., 1996. Reading Pleistocene eustasy in a tectonically active siliciclastic shelf setting (Crotone peninsula, Southern Italy). Geology 24, pp. 743-746. Cerca con Google

ROBERTS, A.P., CHANG, L., ROWAN, C. J., HORNG, C-S., FLORINDO, F., 2011. Magnetic properties of sedimentary Greigite (Fe3S4): an update. Rev. Geophys., 49, RG1002, doi:10.1029/2010RG000336. Cerca con Google

ROBERTS, A. P., 2015. Magnetic mineral diagenesis. Earth-Science Reviews 151 (2015) 1–47. Cerca con Google

RODA, C., 1964. Distribuzione e facies dei sedimenti Neogenici del Bacino Crotonese. Geol. Romana 3, pp. 319-366. Cerca con Google

RUDDIMAN, W.F., RAYMO, M., MCINTYRE, A., 1986. Matuyama 41,000-year cycles: North Atlantic Ocean and Northern Hemisphere ice sheets. Earth Planet. Sci. Lett. 80, 117–129. Cerca con Google

RUDDIMAN, W. F., 2008. Earth’s climate. Past and future. Second Edition by W.H. Freeman and Company, New York. Chapter 3, pp. 44-58. Cerca con Google

SAGNOTTI, L., CASCELLA, A., CIARANFI, N., MACRÌ, P., MAIORANO, P., MARINO, M., TADDEUCCI, J., 2010. Rock magnetism and palaeomagnetism of the Montalbano Jonico section (Italy): evidence for late diagenetic growth of greigite and implications for magnetostratigraphy. Geophysical Journal International 180, pp 1049-1066. Cerca con Google

SAGNOTTI, L., GIACCIO, B., LIDDICOAT, J. C., NOMADE, S., RENNE, P. R., SCARDIA, G., SPRAIN, C. J., 2016. How fast was the Matuyama-Brunhes geomagnetic reversal? A new subcentennial record for the Sulmona Basin, central Italy. Geophysical Journal International 204 (2016), pp. 798-812. Cerca con Google

SCARPONI, D., HUNTLEY, W.H., CAPRARO, L., RAFFI, S., 2014. Stratigraphic paleoecology of the Valle di Manche section (Crotone Basin, Italy): A candidate GSSP of the Middle Pleistocene. Palaeogeography, Palaeoclimatology, Palaeoecology 402, pp. 30–43. Cerca con Google

SHACKLETON, N.J. & OPDYKE, N.D. 1973. Oxygen-isotope and paleomagnetic stratigraphy of Pacific core V28–239, late Pliocene to latest Pleistocene. Memoirs of the Geological Society of America, 145, 449–464. Cerca con Google

SHACKLETON, N.J., BERGER, A., PELTIER, W.R., 1990. An alternative astronomical calibration of the lower Pleistocene timescale based on ODP Site 677. Transactions of the Royal Society of Edinburgh. Earth Sciences 81, 251-261. Cerca con Google

SHEEPERS, P.J.J., 1994. Tectonic rotations in the Tyrrhenian arc system during the Quaternary and Late Tertiary. Geol. Ultraiect. a pp. 112, 350. Cerca con Google

SIMON, Q., THOUVENY, N., BOURLES, D. L., VALET, J-P., BASSINOT, F., MENABREAZ, L., GUILLOU, V., CHOY, S., BEAUFORT, L., 2016. Authigenic 10Be/9Be ratio signatures of the cosmogenic nuclide production linked to geomagnetic dipole moment variation since the Brunhes/Matuyama boundary. Journal of Geophysical Research: Solid Earth 121 (2016), pp. 7716-7741. Cerca con Google

SIMON, Q., THOUVENY, N., BOURLES, D.L., NUTTIN, L., HILLAIRE-MARCEL, C., ST-ONGE, G., 2016b. Authigenic 10Be/9Be ratios and 10Be-fluxes (230Thxs-normalized) in central Baffin Bay sediments during the last glacial cycle: paleoenvironmental implications. Quat. Sci. Rev. 140, 142–162. Cerca con Google

SIMON, Q., BOURLES, D. L., BASSINOT, F., NOMADE, S., MARINO, M., CIARANFI, N., GIRONE, A., MAIORANO, P., THOUVENY, N., CHOY, S., DEWILDE, F., SCAO, V., ISGUDER, G., BLAMART, D., ASTER TEAM. 2016. Authigenic 10Be/9Be ratio signature of the Matuyama-Brunhes boundary in the Montalbano Jonico marine succession. Earth Planet. Sci. let., Vai! Cerca con Google

SUGANUMA, Y., YOKOHAMA, Y., YAMAZAKI, T., KAWAMURA, K., HORNG, C.-S., MATSUZAKI, H., 2010. 10Be evidence for delayed acquisition of remanent magnetization in marine sediments: Implication for a new age for the MatuyamaeBrunhes boundary. Earth and Planetary Science Letters 296, 443-450. Cerca con Google

SWART, P.K., 1983. Carbon and oxygen isotope fractionation in scleractinian corals: a review. Earth-Science Reviews 19, 51-80. Cerca con Google

TESSIER, A., CAMPBELL, P.G.C., BISSON, M., 1979. Sequential Extraction Procedure for the Speciation of Particulate Trace Metals. Analytical Chemistry, vol. 51 n°7. Cerca con Google

VALET, J-P., FOURNIER, A., 2016. Deciphering records of geomagnetic reversals. Reviews of Geophysycs 54 (2016), pp. 410-446. Cerca con Google

VAN DER ZWAAN, G.J., JORISSEN, F.J., DE STIGTER, H. C., 1990. The depth depency of planktonic/benthic foraminiferal ratio: Constrains and applications. Mar. Geol., 95: pp. 1-16. Cerca con Google

VAN DIJK, J.P., OKKES, M., 1991. Neogene tectonostratigraphy and kinematics of Calabrian basin; implications for the geodynamics of the Central Mediterranean. Tectonophysics 196, pp. 23-60. Cerca con Google

VAN DIJK, J.P.,1992. Late Neogene fore-arc basin evolution in the Calabrian Arc (Central Mediterranean); tectonic sequence stratigraphy and dynamic geohistory. With special reference to the geology of Central Calabria. Geol. Ultraiect. 92, p. 288. Cerca con Google

VAN DIJK, J. P., 1993. Three-dimensional quantitative restoration of central Mediterranean Neogene Basin: In: Spencer A. M. (Ed.) Generation, accumulation and production of Europe’s hydrocarbons III. Spec. Publ., European Assoc. Petrol. Geol. 3: p.267-280. Cerca con Google

VAN DIJK, J.P., 1994. Late Neogene kinematics of intra-arc oblique shear zone: The Petilia-Rizzuto Fault zone (Calabrian Arc, Central Mediterranean). Tectonics 13 (5), pp. 1201-1230. Cerca con Google

VAN DIJK, J.P., SHEEPERS, P.J.J., 1995. Neotectonic rotations in the Calabrian Arc; implications for a Pliocene-Recent geodynamic scenario for the Central Mediterranean. Earth Science Reviews 39, pp. 207-246. Cerca con Google

VERGNAUD-GRAZZINI, C., RYAN, W.B.F., CITA, M.B., 1977. Stable isotopic fractionation, climate change and episodic stagnation in the eastern Mediterranean during the late Quaternary. Marine Micropaleontology 2, pp. 353-370. Cerca con Google

ZHOU, W.J., PRILLER, A., BECK, J.W., WU, Z.K., CHEN, M.B., AN, Z.S., KUTSCHERA, W., XIAN, F., YU, H.G., LIU, L., 2007. Disentangling geomagnetic and precipitation signals in an 80-kyr Chinese loess record of 10Be. Radiocarbon, v. 49, p. 139–160. Cerca con Google

ZHOU, W., BECK, J.W., KONG, X., AN, Z., QIANG, X., WU, Z., XIAN, F. and AO, H., 2014. Timing of the Brunhes-Matuyama magnetic polarity reversal in Chinese loess using 10Be. Geological Society of America. Cerca con Google

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