Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-19T10:19:57.677Z Has data issue: false hasContentIssue false

Tectonics, sea-level changes and palaeoenvironments in the early Pleistocene of Rome (Italy)

Published online by Cambridge University Press:  20 January 2017

Domenico Cosentino*
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Paola Cipollari
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Letizia Di Bella
Affiliation:
Dipartimento di Scienze della Terra – Università degli Studi di Roma “La Sapienza”, P.le Aldo Moro, 5, I-00185 Roma, Italy
Alessandra Esposito
Affiliation:
Istituto Nazionale di Geofisica e Vulcanologia, Via di Vigna Murata, 605, I-00143 Roma, Italy
Costanza Faranda
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Guido Giordano
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Elsa Gliozzi
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy IGAG CNR, Via Bolognola, 7, I-00138 Roma, Italy
Massimo Mattei
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Ilaria Mazzini
Affiliation:
IGAG CNR, Via Bolognola, 7, I-00138 Roma, Italy
Massimiliano Porreca
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
Renato Funiciello
Affiliation:
Dipartimento di Scienze Geologiche – Università degli Studi Roma Tre,L.go S. Leonardo Murialdo, 1, I-00146 Roma, Italy
*
Corresponding author. Fax: +39 0654888201.

E-mail address: [email protected] (D. Cosentino).

Abstract

The historical site of the Monte Mario lower Pleistocene succession (Rome, Italy) is an important marker of the Pliocene/Pleistocene boundary. Recently, the Monte Mario site was excavated and restudied. A spectacular angular unconformity characterizes the contact between the Monte Vaticano and the Monte Mario formations, which marks the Pliocene/Pleistocene boundary. Biostratigraphical analyses carried out on ostracod, foraminifer, and calcareous nannofossil assemblages indicate an Early Pliocene age (topmost Zanclean, 3.81–3.70 Ma) for the underlying Monte Vaticano Formation, whereas the Monte Mario Formation has been dated as early Pleistocene (Santernian, 1.66–1.59 Ma). Palaeomagnetic analyses point to C2Ar and C1r2r polarity chrons for the Monte Vaticano and the Monte Mario formations, respectively. The Monte Mario Formation consists of two obliquity-forced depositional sequences (MM1 and MM2) characterized by transgressive systems tracts of littoral marine environments at depths, respectively, of 40–80 m and 15–20 m. The data obtained from foraminifer and ostracod assemblages allow us to reconstruct early Pleistocene relative sea-level changes near Rome. At the Plio/Pleistocene transition, a relative sea-level drop of at least 260 m occurred, as a result of both tectonic uplift of the central Tyrrhenian margin and glacio-eustatic changes linked to early Pleistocene glaciation (Marine Isotope Stage 58).

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ambrosetti, P., and Bonadonna, F.P. Revisione dei dati sul Plio-Pleistocene di Roma. Atti della Accademia Gioenia di Scienze Naturali in Catania 18, (1967). 3381.Google Scholar
Ambrosetti, P., Carboni, M.G., Conti, M.A., Costantini, A., Esu, D., Gandin, A., Girotti, O., Lazzaretto, A., Mozzanti, R., Nicosia, U., Parisi, G., and Sandrelli, F. Evoluzione paleogeografia e tettonica dei bacini tosco-umbro-laziali nel Pliocene e nel Pleistocene inferiore. Memorie della Società Geologica Italiana 19, (1978). 573580.Google Scholar
Ambrosetti, P., Carboni, M.G., Conti, M.A., Esu, D., Girotti, O., La Monica, G.B., Landini, B., and Parisi, G. Il Pliocene ed il Pleistocene inferiore del Bacino del Fiume Tevere nell'Umbria meridionale. Geografia Fisica e Dinamica Quaternaria 10, (1987). 1033.Google Scholar
Barberi, F., Buonasorte, G., Cioni, R., Fiordelisi, A., Foresi, L., Iaccarino, S., Laurenzi, M.A., Sbrana, A., Vernia, L., and Villa, I.M. Plio-Pleistocene geological evolution of the geothermal area of Tuscany and Latium. Memorie Descrittive della Carta Geologica d'Italia 49, (1994). 77134.Google Scholar
Basset, M.G. Towards a “common language in stratigraphy”. Episodes 8, (1985). 8792.Google Scholar
Bassinot, F.C., Beaufort, L., Vincent, E., Labeyrie, L., Rostek, F., Muüller, P.J., Quidelleur, X., and Lancelot, Y. Coarse fraction fluctuations in pelagic carbonate sediments from the tropical Indian ocean: a 1500-kyr record of carbonate dissolution. Paleoceanography 9, (1994). 579600.CrossRefGoogle Scholar
Bergamin, L., Carboni, M.G., Di Bella, L., Marra, F., and Palagi, I. Stratigraphical and paleoenvironmental features of the Pleistocene sediments of M. Mario (Rome). Eclogae Geologicae Helvetiae 93, (2000). 265275.Google Scholar
Blanc, A.C. Variazioni climatiche ed oscillazioni della linea di riva nel Mediterraneo centrale durante l'Era Glaciale. Geologie d. Meere u. Binnengewässer 5, (1942). 137219.Google Scholar
Blanc, A.C. Ricerche sul Quaternario Laziale. III — Avifauna artica, crioturbazioni e testimonianze di soliflussi nel Pleistocene medio-superiore di Roma e di Torre in Pietra. Il periodo glaciale Nomentano nel quadro della serie di glaciazioni riconosciute nel Lazio. Quaternaria 2, (1955). 187200.Google Scholar
Blanc, A.C., Tongiorgi, E., and Trevisan, L. Le Pliocène et le Quaternarie aux alentours de Rome. INQUA IVe Congrès International — Roma Pisa, 1953. Programme des ecxursions aux alentours de Rome (1953). 135.Google Scholar
Blanc, A.C., Tongiorgi, E., and Trevisan, L. La limite Plio-Pléistocène dans la coupe de Monte Mario (environs de Rome). Congrés Géologique International, Comptes Rendus de XIX Session, Alger 1952 15, (1954). 218228.Google Scholar
Bonadonna, F.P. Studi sul Pleistocene del Lazio. V — La biostratigrafia di Monte Mario e la “Fauna Malacologica Mariana” di Cerulli Irelli. Memorie della Società Geologica Italiana 7, (1968). 261321.Google Scholar
Brocchi, G., (1820). Dello stato fisico del suolo di Roma ed illustrazione della carta geognostica di questa città. Stamperia de Romanis, 281 pp., 1 carta geologica.Google Scholar
Butler, R.F. Paleomagnetism: Magnetic Domains to Geologic Terranes. (1992). Blackwell Scientific Publications, Boston, MA. 319 Google Scholar
Carboni, M.G., and Di Bella, L. The Plio-Pleistocene of the Anzio coast (Rome). Bollettino della Società Paleontologica Italiana 36, 1–2 (1997). 135159.Google Scholar
Carboni, M.G., and Iorio, D. Nuovi dati sul Plio-Pleistocene marino del sottosuolo di Roma. Bollettino della Società Geologica Italiana 116, (1997). 435451.Google Scholar
Carboni, M.G., Di Bella, L., and Girotti, O. Nuovi dati sul Pleistocene di Valle Ricca (Monterotondo, Roma). Il Quaternario 6, (1993). 3948.Google Scholar
Cavinato, G.P., Cosentino, D., De Rita, D., Funiciello, R., and Parotto, M. Tectonic-sedimentary evolution of intrapenninic basins and correlation with the volcano-tectonic activity in Central Italy. Memorie Descrittive della Carta Geologica d'Italia XLIX, (1994). 6376.Google Scholar
Cerulli Irelli, S. Sopra i molluschi fossili del Monte Mario presso Roma. Bollettino della Società Geologica Italiana 24, (1905). 191194.Google Scholar
Cerulli Irelli, S. Fauna malacologica mariana. Parte seconda — Leptonidae, Galeommidae, Cardidae, Chamidae, Cyprinidae, Veneridae . Paleontografia Italica 14, (1908). 164.Google Scholar
Cipollari, P., Cosentino, D., and Gliozzi, E. Extension- and compression-related basins in central Italy during the Messinian Lago-Mare event. Tectonophysics 315, (1999). 163185.Google Scholar
Cita, M.B. Studi sul Pliocene e sugli strati di passaggio dal Miocene al Pliocene VIII. Planktonic foraminiferal biozonation of the Mediterranean Pliocene deep sea record. A revision. Rivista Italiana di Paleontologia 81, (1975). 527544.Google Scholar
Cita, M.B., Rio, D., Hilgen, F., Castradori, D., Lourens, L., Vergerio, P.P., (1996). Proposal of the Global Boundary Stratotype Section and Point of the Piacenzian stage (middle Pliocene). Inter. Comm. On Stratigr., Subcomm. On Neogene Stratigraphy.Google Scholar
Conato, V., Esu, D., Malatesta, A, and Zarlenga, F. New data on the Pleistocene of Rome. Quaternaria 22, (1980). 131176.Google Scholar
Cosentino, D., and Fubelli, G. Comment on: “Geomorphological, paleontological and 87Sr/86Sr isotope analyses of early Pleistocene paleoshorelines to define the uplift of Central Apennines (Italy)”. Quaternary Research 69, (2008). 163164.CrossRefGoogle Scholar
Cosentino, D., Federici, I., Cipollari, P., and Gliozzi, E. Environments and tectonic instability in central Italy (Garigliano Basin) during the late Messinian Lago-Mare episode: new data from the onshore Mondragone 1 well. Sedimentary Geology 188–189, (2006). 297317.Google Scholar
Cosentino, D., Castorina, F., Cipollari, P., Fubelli, G., (2008). Pliocene paleoshorelines and uplift rates at the Tyrrhenian margin of central Apennines (Italy). GEOSED 2008, Bari 23–27 settembre 2008 . Abstracts: 3941.Google Scholar
De Rita, D., Faccenna, C., Funiciello, R., Rosa, C., (1995). Stratigraphy and volcano-tectonics. In: Trigila, R., (Ed.), The Volcano of the Alban Hills. Università degli Studi di Roma “La Sapienza�, �, Rome., 3371.Google Scholar
Di Napoli, E., (1954). La limite Plio-Pléistocène dans la coupe de Castell'Arquato (Plaisance). Congrés Géologique International, Comptes Rendus de XIX Session, Alger 1952. Volume 15, : 229234.Google Scholar
Faranda, C., Gliozzi, E., (2008). The ostracod fauna of the Plio-Pleistocene Monte Mario succession (Roma, Italy). Bollettino della Società Paleontologica Italiana, 43, (3), (in press), Modena.Google Scholar
Faranda, C., Gliozzi, E., and Mazzini, I. Palaeoenvironmental evolution of the Plio-Pleistocene Monte Mario succession (Rome, Italy) inferred from ostracod assemblages. Rivista Italiana di Paleontologia e Stratigrafia 113, 3 (2007). 473485.Google Scholar
Fiorini, F., and Vaiani, S.C. Benthic foraminifer and transgressive-regressive cycles in the Late Quaternary subsurface sediments of the Po Plain near Ravenna (Northern Italy). Bollettino della Società Paleontologica Italiana 40, 3 (2001). 357403.Google Scholar
Florindo, F., Karner, D.B., Marra, F., Renne, P., Roberts, A., and Weaver, R. Radiometric age constraints for glacial terminations IX and VII from aggradational sections of the Tiber River delta in Rome, Italy. Earth and Planetary Science Letters 256, (2007). 6180.Google Scholar
Funiciello, R., Giordano, G., (2008). Note illustrative della Carta Geologica d'Italia alla scala 1:50.000. foglio 374 – Roma. APAT - Servizio Geologico d'Italia, pp. 158.Google Scholar
Iaccarino, S. Mediterranean Miocene and Pliocene planktic foraminifera. Bolli, H.H., Sanders, J.B., and Perck-Nielsen, K. Plankton Stratigraphy. (1985). 283314.Google Scholar
Iaccarino, S.M., Premoli Silva, I., Biolzi, M., Foresi, L.M., Lirer, F., Turco, E., Petrizzo, M.R., (2007). Practical Manual of Neogene Planktonic Foraminifera. International School on Planktonic Foraminifera, 6th course, Perugia 19–23 February 2007, University of Perugia, 1181.Google Scholar
Jorissen, F.J. Benthic foraminifera from the Adriatic Sea; principles of phenotypic variations. Utrecht Micropaleontological Bulletin 37, (1988). 1174.Google Scholar
Kirschvink, J.L. The least-square line and plane and the analysis of paleomagnetic data. Geophysical Journal of Royal Astronomical Society 62, (1980). 699718.Google Scholar
Lachenal, A.-M. Ecologie des ostracodes du domaine Mediterraneen: application au Golfe de Gabes (Tunisie orientale). Documents Laboratoire Geologie de Lyon 108, (1989). 1239.Google Scholar
Locardi, E., Lombardi, G., Funiciello, R., and Parotto, M. The main volcanic groups of Latium (Italy): relations between structural evolution and petrogenesis. Geologica Romana 15, (1977). 279300.Google Scholar
Lourens, L.J., Hilgen, F.J., Raffi, I., and Vergnaud-Grazzini, C. Early Pleistocene chronology of the Vrica section (Calabria, Italia). Paleoceanography 11, (1996). 797812.Google Scholar
Lourens, L.J., Hilgen, F.J., and Raffi, I. Base of large Gephyrocapsa and astronomical calibration of Early Pleistocene sapropels in Site 967 and Hole 969D: solving the chronology of the Vrica section (Calabria, Italy). Robertson, A.H.F., Emeis, K.-C., Richter, C., Camerlenghi, A. Proceedings of the Ocean Drilling Program, Scientific Results 160, (1998). 191197.Google Scholar
Lourens, L.J., Hilgen, F.J., Shackleton, N.J., Laskar, J., and Wilson, D. The Neogene Period. Gradstein, F.M., Ogg, J.G., and Smith, A.G. A Geological Time Scale 2004. (2004). Cambridge University Press, Cambridge. 409440.Google Scholar
Malatesta, A., (Ed.) (1978). Torre in Pietra – Roma. Quaternaria 20, 203577.Google Scholar
Malatesta, A., and Zarlenga, F. Nothern guests in the Pleistocene Mediterranean Sea. Geologica Romana 25, (1986). 5491.Google Scholar
Marra, F. Stratigrafia e assetto geologico-strutturale dell'area romana tra il Tevere e il Rio Galeria. Geologica Romana 29, (1993). 515535.Google Scholar
Marra, F., Carboni, M.G., Di Bella, L., Faccenna, C., Funiciello, R., and Rosa, C. Il substrato plio-pleistocenico nell'area romana. Bollettino della Società Geologica Italiana 114, (1995). 195214.Google Scholar
Marra, F., Rosa, C., De Rita, D., and Funiciello, R. Stratigraphic and tectonic features of the Middle Pleistocene sedimentary and volcanic deposits in the area of Rome (Italy). Quaternary International 47/48, (1998). 5163.Google Scholar
Mattei, M., Cipollari, P., Cosentino, D., Argentieri, A., Rossetti, F., Speranza, F., and Di Bella, L. The Miocene tectono-sedimentary evolution of the southern Tyrrhenian Sea: stratigraphy, structural and palaeomagnetic data from the on-shore Amantea basin (Calabrian Arc, Italy). Basin Research 14, (2002). 147168.Google Scholar
McFadden, P.L. A new fold test for paleomagnetic studies. Geophysical Journal International 103, (1990). 163169.Google Scholar
Meisch, C. Freshwater Ostracoda of Western and Central Europe. (2000). Spektrum Aakademischer Verlag, Berlin. 1522.Google Scholar
Milli, S. Depositional setting and high-frequency sequence stratigraphy of the Middle-Upper Pleistocene to Holocene deposits of the Roman Basin. Geologica Romana 33, (1997). 99136.Google Scholar
Montone, P., Amato, A., Chiarabba, C., Buonasorte, G., and Fiordelisi, A. Evidence of active extension in Quaternary volcanoes of Central Italy from breakout analysis and seismicity. Geophysical Research Letters 22, (1995). 19091912.Google Scholar
Murray, J.W., (1991). Ecology and Paleoecology of Benthic Foraminifera. 397 pp., Longman Scientific & Technical, .Google Scholar
Neale, J.W. Ostracods and Palaeosalinity reconstruction. De Deckker, P., Colin, J.P., and Peypouquet, J.P. Ostracoda in the Earth Science. (1988). Elsevier, Amsterdam. 125155.Google Scholar
Pérès, J.M. Zonation. Kinne, O. Marine Ecology, Ocean Managment 5, (1982). John Wiley & Sons, 945.Google Scholar
Pillans, B., and Naish, T. Defining the Quaternary. Quaternary Science Review 23, (2004). 22712282.Google Scholar
Ponzi, G., (1872). Del bacino di Roma e sua natura. Regia Tipografia, 51 pp., 1 carta geologica.Google Scholar
Ponzi, G. Sui Monti Mario e Vaticano e del loro sollevamento. Atti della Regia Accademia dei Lincei 2, (1875). 545556.Google Scholar
Raffi, I. Revision of the early-middle Pleistocene calcareous nannofossil biochronology (1.75–0.85 Ma). Marine Micropaleontology 45, (2002). 2555.CrossRefGoogle Scholar
Raffi, I., Backman, J., Rio, D., and Shackleton, N.J. Plio-Pleistocene nannofossil biostratigraphy and calibration to oxygen isotope stratigraphies from Deep Sea Drilling Project Site 607 and Ocean Drilling Program Site 677. Paleoceanography 8, (1993). 387408.Google Scholar
Raffi, I., Backman, J., Fornaciari, E., Pälike, H., Rio, D., Lourens, L., and Hilgen, F. A review of calcareous nannofossil astrobiochronology encompassing the past 25 million years. Quaternary Science Reviews 25, (2006). 31133137.Google Scholar
Rio, D., Raffi, I., and Villa, G. Pliocene-Pleistocene calcareous nannofossil distribution in the western Mediterranean. Kastens, K.A., Mascle, J., et, al. Proceedings of the Ocean Drilling Program, Scientific Results 107, (1990). 513533.Google Scholar
Ruddiman, W.F., Raymo, M., and McIntyre, A. Matuyama 41,000-year cycles: North Atlantic Ocean and Northern Hemisphere ice sheets. Earth and Planetary Science Letters 80, (1986). 117129.Google Scholar
Ruggieri, G., (1954). La limite entre Pliocène et Quaternaire dans la série Plio-Pléistocène du Santerno. Congrés Géologique International, Comptes Rendus de XIX Session, Alger 1952. Volume 15, : 235240.Google Scholar
Ruggieri, G. Sulla distribuzione stratigrafica di alcuni Ostracodi nel Pleistocene italiano. Bollettino della Società Paleontologica Italiana 19, 1 (1980). 127135.Google Scholar
Salvini, F., (2004). Structural data integrated system analyzer software (DAISY 3.0). Dipartimento di Scienze Geologiche, Università degli Studi Roma Tre, Rome, Italy.Google Scholar
Sartori, R. The main results of ODP Leg 107 in the frame of Neogene to Recent geology of Perityrrhenian areas. Kastens, K.A., Mascle, J. et al. Proceedings ODP, Scientific Results 107, (1990). 715730.Google Scholar
Sartori, R., Torelli, L., Zitellini, N., Carrara, G., Magaldi, M., and Mussoni, P. Crustal features along a W-E Tyrrhenian transect from Sardinia to Campania margins (Central Mediterranean). Tectonophysics 383, (2004). 171192.Google Scholar
Selli, R., (1954). La limite Plio-Pléistocène dans les environs d'Ancona (Marche). Congrés Géologique International, Comptes Rendus de XIX Session, Alger 1952. Volume 15, : 241247.Google Scholar
Selli, R., Accorsi, C.A., Bandini Mazzanti, M., Bertolani Marchetti, D., Bigazzi, G., Bonadonna, F.G., Borsetti, A.M., Cati, F., Colalongo, M.L., D'Onofrio, S., Landini, W., Menesini, E., Mezzetti, R., Pasini, G., Savelli, C., and Tampieri, R. The Vrica section (Calabria-Italy). A potential Neogene-Quaternary Boundary Stratotype. Giornale di Geologia 41, (1977). 181204.Google Scholar
Serri, G., Innocenti, F., and Manetti, P. Geochemical and petrological evidence of the subduction of delaminated Adriatic continental lithosphere in the genesis of the Neogene-Quaternary magmatism of central Italy. Tectonophysics 223, (1993). 117147.Google Scholar
Shackleton, N.J. New Data on the Evolution of Pliocene Climatic Variability. Vrba, E.S., Denton, G.H., Partridge, T.C., and Burckle, L.H. Paleoclimate and Evolution, with Emphasis on Human Origins. (1995). Yale University Press, 242248.Google Scholar
Shackleton, N.J., Berger, A., and Peltier, W.R. An alternative astronomical calibration of the lower Pleistocene timescale based on ODP Site 677. Transactions of the Royal Society of Edinburgh Earth Sciences 81, (1990). 251261.Google Scholar
Sgarrella, F., and Moncharmont-Zei, M. Benthic Foraminifera of the Gulf of Naples (Italy): systematics and autoecology. Bollettino Società Paleontologica Italiana 32, 2 (1993). 145264.Google Scholar
Sprovieri, R. Mediterranean Pliocene biochronology: an high resolution record based on quantitative planktonic foraminifera distribution. Rivista Italiana di Paleontologia e Stratigrafia 98, (1992). 61100.Google Scholar
Sprovieri, R. Pliocene-Early Pleistocene astronomically forced planktonic foraminifera abundance fluctuations and chronology of Mediterranean calcareous plankton bioevents. Rivista Italiana di Paleontologia e Stratigrafia 99, (1993). 371414.Google Scholar
Tellini, A., (1893). Carta geologica dei dintorni di Roma. Regione alla destra del Tevere. Cromolit. Danesi, Roma.Google Scholar
Verri, A., (1915). Cenni spiegativi della Carta Geologica di Roma pubblicata dal Regio Ufficio Geologico su rilevamento del generale A. Verri. Novara, Istituto Geografico De Agostini, Novara., pp 156.Google Scholar
Wei, W. Calibration of upper Pliocene-lower Pleistocene nannofossil events with oxygen isotope stratigraphy. Paleoceanography 8, (1993). 8599.Google Scholar
Williams, M., Dunkerley, D., De Deckker, P., Kershaw, P., Chappell, J., (1998). Quaternary Environments. 329 pp. Arnold, London.Google Scholar