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Age of the Corsica–Sardinia rotation and Liguro–Provençal Basin spreading: new paleomagnetic and Ar/Ar evidence
Author(s)
Language
English
Obiettivo Specifico
2.2. Laboratorio di paleomagnetismo
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Title of the book
Issue/vol(year)
4 / 347 (2002)
Publisher
Elsevier
Pages (printed)
231-251
Issued date
April 1, 2002
Abstract
The age of spreading of the Liguro–Provençal Basin is still poorly constrained due to the lack of boreholes penetrating the whole sedimentary sequence above the oceanic crust and the lack of a clear magnetic anomaly pattern. In the past, a consensus developed over a fast (20.5–19 Ma) spreading event, relying on old paleomagnetic data from Oligo–Miocene Sardinian volcanics showing a drift-related 30° counterclockwise (CCW) rotation. Here we report new paleomagnetic data from a 10-mthick lower–middle Miocene marine sedimentary sequence from southwestern Sardinia. Ar/Ar dating of two volcanoclastic
levels in the lower part of the sequence yields ages of 18.94±0.13 and 19.20±0.12 Ma (lower–mid Burdigalian). Sedimentary strata below the upper volcanic level document a 23.3±4.6° CCW rotation with respect to Europe, while younger strata rapidly evolve to null rotation values. A recent magnetic overprint can be excluded by several lines of evidence, particularly by the significant difference between the in situ paleomagnetic and geocentric axial dipole (GAD) field directions. In both the rotated and unrotated part of the section, only normal polarity directions were obtained. As the global magnetic polarity time scale (MPTS) documents several geomagnetic reversals in the Burdigalian, a continuous sedimentary record
would imply that (unrealistically) the whole documented rotation occurred in few thousands years only. We conclude that the section contains one (or more) hiatus(es), and that the minimum age of the unrotated sediments above the volcanic levels is unconstrained. Typical back-arc basin spreading rates translate to a duration ≥3 Ma for the opening of the Liguro–Provençal Basin. Thus, spreading and rotation of Corsica–Sardinia ended no earlier than 16 Ma (early Langhian). A 16–19 Ma, spreading is corroborated by other evidences, such as the age of the breakup unconformity in Sardinia, the age of igneous rocks dredged west of Corsica, the heat flow in the Liguro–Provençal Basin, and recent paleomagnetic data from Sardinian sediments and volcanics. Since Corsica was still rotating/drifting eastward at 16 Ma, it presumably induced significant shortening to the east, in the Apennine belt. Therefore, the lower Miocene extensional basins in the northern Tyrrhenian Sea and margins can be
interpreted as synorogenic "intra-wedge" basins due to the thickening and collapse of the northern Apennine wedge.
levels in the lower part of the sequence yields ages of 18.94±0.13 and 19.20±0.12 Ma (lower–mid Burdigalian). Sedimentary strata below the upper volcanic level document a 23.3±4.6° CCW rotation with respect to Europe, while younger strata rapidly evolve to null rotation values. A recent magnetic overprint can be excluded by several lines of evidence, particularly by the significant difference between the in situ paleomagnetic and geocentric axial dipole (GAD) field directions. In both the rotated and unrotated part of the section, only normal polarity directions were obtained. As the global magnetic polarity time scale (MPTS) documents several geomagnetic reversals in the Burdigalian, a continuous sedimentary record
would imply that (unrealistically) the whole documented rotation occurred in few thousands years only. We conclude that the section contains one (or more) hiatus(es), and that the minimum age of the unrotated sediments above the volcanic levels is unconstrained. Typical back-arc basin spreading rates translate to a duration ≥3 Ma for the opening of the Liguro–Provençal Basin. Thus, spreading and rotation of Corsica–Sardinia ended no earlier than 16 Ma (early Langhian). A 16–19 Ma, spreading is corroborated by other evidences, such as the age of the breakup unconformity in Sardinia, the age of igneous rocks dredged west of Corsica, the heat flow in the Liguro–Provençal Basin, and recent paleomagnetic data from Sardinian sediments and volcanics. Since Corsica was still rotating/drifting eastward at 16 Ma, it presumably induced significant shortening to the east, in the Apennine belt. Therefore, the lower Miocene extensional basins in the northern Tyrrhenian Sea and margins can be
interpreted as synorogenic "intra-wedge" basins due to the thickening and collapse of the northern Apennine wedge.
References
Assorgia, A., Barca, S., Casula, G., Spano, C., 1988. Le successioni
sedimentarie e vulcaniche del Miocene nei dintorni di Giave e
Cossoine (Logudoro, Sardegna NW). Boll. Soc. Sarda Sci. Nat.
26, 75– 107.
Assorgia, A., Barca, S., Rizzo, R., Spano, C., 1992a. The beginning
of the Lower Miocene marine sedimentation in western Sardinia
(Italy) and its implications with the Oligocene –Miocene rift
system. IXth Congress R.C.M.N.S. ‘‘Global Events and Neogene
Evolution of the Mediterranean’’ (Barcelona, 1990). Paleontol.
Evol. 24–25, 295– 305.
Assorgia, A., Barca, S., Spano, C., 1992b. Upper Oligocene–Lower
Miocene sequences of the Arbus –Funtanazza Coast (South-
Western Sardinia, Italy), IGCP N. 276, Newsletter, 5, 21–31.
Assorgia, A., Barca, S., Spano, C., 1997. A synthesis on the Cenozoic
stratigraphic, tectonic and volcanic evolution in Sardinia
(Italy). Boll. Soc. Geol. Ital. 116, 407– 420.
Baksi, A., 1993. A geomagnetic polarity time scale for the period
0 –17 Ma, based on 40Ar/39Ar plateau ages for selected field
reversals. Geophys. Res. Lett. 20, 1607–1610.
Barca, S., Carmignani, L., Oggiano, G., Pertusati, P.C., Salvadori, I.,
1996. Geologic Map of Sardinia, Scale 1:200,000, 2 sheets,
Servizio Geologico Nazionale-Regione Autonoma della Sardegna.
Bartole, R., 1995. The north Tyrrhenian–northern Apennines postcollisional
system: constraints for a geodynamic model. Terra
Nova 7, 7 – 30.
Bayer, R., Le Mouel, J.-L., Le Pichon, X., 1973. Magnetic anomaly
pattern in the western Mediterranean. Earth Planet. Sci. Lett. 49,
168– 176.
Beccaluva, L., Civetta, L., Maciotta, G., Ricci, C.A., 1985. Geochronology
in Sardinia: results and problems. Rend. Soc. Ital.
Mineral. Petrol. 40, 57–72.
Belluso, E., Ruffini, R., Schaller, M., Villa, I.M., 2000. Electronmicroscope
and Ar isotope characterization of chemically heterogeneous
amphiboles from the Palala Shear Zone, Limpopo
Belt, South Africa. Eur. J. Mineral. 12, 45– 62.
Besse, J., Courtillot, V., in press. Apparent and true polar wander
and the geometry of the geomagnetic field in the last 200 million
years, J. Geophys. Res.
Bevis, M., Taylor, F.W., Schultz, B.E., et al., 1995. Geodetic observations
of very rapid convergence and back-arc extension at
the Tonga arc. Nature 374, 249– 251.
Blow, W.H., 1967. Late Middle Eocene to Recent planktonic foraminiferal
biostratigraphy. Proc. 1st. Intern. Conf. Plankt. Microfossils,
Geneve, 1 –422.
Burrus, J., 1984. Contribution to a geodynamic synthesis of the
Provenc al Basin (North-Western Mediterranean). Mar. Geol.
55, 247–269.
Burrus, J., Foucher, J.P., 1986. Contribution to the thermal regime
of the Provenc al Basin based on flumed heat flow surveys and
previous investigations. Tectonophysics 128, 303– 334.
Cande, S.C., Kent, D.V., 1995. Revised calibration of the geomagnetic
polarity time scale for the Late Cretaceous and Cenozoic.
J. Geophys. Res. 100, 6093– 6095.
Carmignani, L., Decandia, F.A., Disperati, L., Fantozzi, P.L., Lazzarotto,
A., Liotta, D., Oggiano, G., 1995. Relationships between
the Tertiary structural evolution of the Corsica – Sardinia –
Provenc al Domain and the northern Apennines. Terra Nova 7,
128–137.
Chamot-Rooke, N., Gaulier, J.-M., Jestin, F., 1999. Constraints on
Moho depth and crustal thickness in the Liguro– Provenc al basin
from a 3D gravity inversion: geodynamic implications. In: Durand,
B., Jolivet, L., Horvath, F., Seranne, M. (Eds.), The Mediterranean
Basins: Tertiary Extension Within the Alpine Orogen.
Geological Society of London, Special Publications, vol. 156,
pp. 37–61.
Cherchi, A., Corradini, D., D’Onofrio, S., Iaccarino, S., Martini, E.,
Murru, M., Russo, A., 1985. Sardara–Villanovaforru section.
In: Cherchi, A. (Ed.), Micropaleontological Researches in Sardinia,
19th European Micropaleontological Colloquium Guidebook,
Sardinia October, vol. 1– 10, pp. 234– 249.
Cornamusini, G., Lazzarotto, A., Merlini, S., Pascucci, V., 2000.
Eocene– Quaternary evolution of the Corsica basin-Tuscan shelf
area (north Tyrrhenian Sea) through CROP-MARE seismic
analysis paper presented at the meeting. Evoluzione geologica
e geodinamica dell’Appennino, Foligno (Italy) February 16– 18,
108–110 (abstract).
Coulon, C., Demant, A., Bobier, C., 1974. Contribution du pale´omagne
´tisme a l’e´tude des se´ries volcaniques ce´nozoiques et
quaternaires de Sardaigne nord-occidentale. Tectonophysics
22, 59–82.
Deino, A., Gattacceca, J., Rizzo, R., Montanari, A., 2001. 40Ar/39Ar
dating and paleomagnetism of the Miocene volcanic succession
of Monte Furru (western Sardinia): implications for the rotation
history of the Corsica– Sardinia microplate. Geophys. Res. Lett.
28 (17), 3373– 3376.
De Jong, K.A., Manzoni, M., Zijderveld, J.D.A., 1969. Paleomagnetism
of the Alghero Trachyandesites. Nature 224, 67– 69.
De Jong, K.A., Manzoni, M., Stavenga, T., Van Dijk, F., Van der
Voo, R., Zijderveld, J.D.A., 1973. Palaeomagnetic evidence for
rotation of Sardinia during the early Miocene. Nature 243, 281–
283.
Deverche`re, J., et al., 1996. Geodynamics of the Ligurian Basin and
Margins, Abstract of the meeting ‘‘The Mediterranean Basins’’,
Cergy–Pontoise (Paris, France), December 11 – 13.
Di Nocera, S., Ortolani, F., Torre, M., Russo, B., 1979. Caratteristiche
stratigrafiche e paleoambientali dei depositi altomiocenici
nella zona di Falconara Albanese (Catena Costiera Calabra).
Boll. Soc. Nat. Napoli 83, 1– 29.
Edel, J.B., 1979. Paleomagnetic study of the Tertiary volcanics of
Sardinia. J. Geophys. 45, 259– 280.
Edel, J.B., Lortscher, A., 1977. Pale´omagne´tisme du volcanisme
tertiaire de Sardaigne. Nouveaux re´sultats et synthe`se. Bull.
Soc. Geol. Fr. 19, 815– 824.
Farris, M., 1990. Studio geo-vulcanologico e stratigrafico del settore
di Monastir – Ussana –Nuraminis, Univ. Cagliari, unpublished
thesis, 1– 217.
Foresi, L.M., Cornamusini, G., Bossio, A., Ferrandini, M., Mazzei,
R., Salvatorini, G., Argenti, P., 2000. The Miocene sedimentary
succession of the Pianosa island, northern Tyrrhenian Sea paper
presented at the meeting. Evoluzione geologica e geodinamica
dell’Appennino, Foligno (Italy) February 16–18, 155– 157 (abstract).
Fornaciari, E., Rio, D., 1996. Latest Oligocene to early middle
Miocene quantitative calcareous nannofossil biostratigraphy in
the Mediterranean region. Micropaleontology 42, 1– 36.
Gattacceca, J., 2001. Cine´matique du bassin liguro– provencal entre
30 et 12 Ma. Implications ge´odynamiques, PhD thesis, Ecole
des mines de Paris, 299 pp.
Gialanella, P.R., Heller, F., Incoronato, A., 1994. Rock magnetism
of deformed upper Triassic limestones from the Lagonegro Basin
(southern Apennines Italy). Geophys. Res. Lett. 21, 2665–
2668.
Horner, F., Lowrie, W., 1981. Paleomagnetic evidence from Mesozoic
carbonate rocks for the rotation of Sardinia. J. Geophys. 49,
11 –19.
Huestis, S.P., Acton, G.D., 1997. On the construction of geomagnetic
timescales from non-prejudicial treatment of magnetic
anomaly data from multiple ridges. Geophys. J. Int. 129, 176–
182.
Iaccarino, S., D’Onofrio, S., Murru, M., 1985. Miocene foraminifera
of several sections of the Marmilla area (central western
Sardinia). Boll. Soc. Paleontol. Ital. 23, 395–412.
Jelinek, V., 1978. Statistical processing of anisotropy of magnetic
susceptibility measured on a group of specimens and its applications.
Stud. Geophys. Geod. 22, 50– 62.
Jolivet, L., Dubois, R., Fournier, M., Goffe´, B., Michard, A., Jourdan,
C., 1990. Ductile extension in Alpine Corsica. Geology 18,
1007– 1010.
Jolivet, L., Faccenna, C., Goffe´, B., Mattei, M., Rossetti, F., Brunet,
C., Storti, F., Funiciello, R., Cadet, J.-P., D’Agostino, N., Parra,
T., 1998. Midcrustal shear zones in postorogenic extension:
example from the northern Tyrrhenian Sea. J. Geophys. Res.
103, 12123–12160.
Kastens, K., Mascle, J., Auroux, C., et al., 1986. A microcosm of
ocean basin evolution in the Mediterranean. Nature 321, 383–
384.
Kirschvink, J.L., 1980. The least-square line and plane and the
analysis of paleomagnetic data. Geophys. J. R. Astron. Soc.
62, 699– 718.
Lehman, B., Sagnotti, L., Winkler, A., Lo Cascio, C., 1996. Magnetic
mineralogy changes in the Pleistocene marine sequence of
Montalto di Castro (central Italy) and influences on the magnetic
anisotropy. Geophys. J. Int. 127, 529– 541.
Lonergan, L., White, N., 1997. Origin of the Betic-Rif mountain
belt. Tectonics 16 (3), 504– 522.
Lowrie, W., 1990. Identification of ferromagnetic minerals in a rock
by coercivity and unblocking temperature properties. Geophys.
Res. Lett. 17, 159– 162.
Lucente, F.P., Chiarabba, C., Cimini, G.B., Giardini, D., 1999. Tomographic
constraints on the geodynamic evolution of the Italian
region. J. Geophys. Res. 104, 20307–20327.
Ludwig, K.R., 1999. User’s Manual for Isoplot/Ex Version 2.2, A
Geochronological Toolkit for Microsoft Excel: Berkeley Geochronology
Center Special Publication No. 1a, 53 pp.
Maillard, A., Mauffret, A., Watts, A.B., Torne´, M., Pascal, G., Buhl,
P., Pinet, B., 1992. Tertiary sedimentary history and structure of
the Valencia trough (western Mediterranean). Tectonophysics
203, 57–75.
Malinverno, A., Ryan, W.B.F., 1986. Extension in the Tyrrhenian
Sea and shortening in the Apennines as result of arc migration
driven by sinking of the lithosphere. Tectonics 5, 227–245.
Manzoni, M., 1974. Un’interpretazione dei dati paleomagnetici del
terziario della Sardegna ed alcuni nuovi esempi. Rend. Semin.
Fac. Sci. Univ. Cagliari 43, 163– 167.
Martini, I.P., Sagri, M., 1993. Tectono-sedimentary characteristics
of Late Miocene–Quaternary extensional basins of the northern
Apennines, Italy. Earth Sci. Rev. 34, 197–233.
Mascle, J., Kastens, K., Auroux, C., et al., 1988. A land-locked
back-arc basin: preliminary results from ODP Leg 107 in the
Tyrrhenian Sea. Tectonophysics 146, 149– 162.
Mauffret, A., Maillard, A., Pascal, G., Torne´, M., Buhl, P., Pinet, B.,
1992. Long-listening multichannel seismic profiles in the Valencia
trough (Valsis 2) and the Gulf of Lions (ECORS): a comparison.
Tectonophysics 203, 285– 304.
Mauffret, A., Contrucci, I., Brunet, C., 1999. Structural evolution of
the Northern Tyrrhenian Sea from new seismic data. Mar. Pet.
Geol. 16, 381–407.
May, S.R., Butler, R.F., Shafiqullah, M., Damon, P.E., 1986. Paleomagnetism
of Jurassic rocks in the Patagonia Mountains,
southeastern Arizona: implications for the North American
170 Ma reference pole. J. Geophys. Res. 91, 11545–11555.
McFadden, P.L., 1990. A new fold test for paleomagnetic studies.
Geophys. J. Int. 103, 163– 169.
McIntosh, W.C., Geismann, J.W., Chapin, C.E., Kunk, M.J., Henry,
C.D., 1992. Calibration of the latest Eocene – Oligocene geomagnetic
polarity time scale using 40Ar/39Ar dated ignimbrites.
Geology 20, 459–463.
Montigny, R., Edel, J.B., Thuizat, R., 1981. Oligo–Miocene rotation
of Sardinia: K–Ar ages and paleomagnetic data of Tertiary
volcanics. Earth Planet. Sci. Lett. 54, 261– 271.
Muttoni, G., Argnani, A., Kent, D.V., Abrahamsen, N., Cibin, U.,
1998. Paleomagnetic evidence for Neogene tectonic rotations in
the northern Apennines, Italy. Earth Planet. Sci. Lett. 154, 25–
40.
Naish, T.R., Woolfe, K.J., Barrett, P.J., Wilson, G.S., Atkins, C.,
Bohaty, S.M., Bu¨cker, C.J., Claps, M., Davey, F.J., Dunbar, G.,
Dunn, A.G., Fielding, C.R., Florindo, F., Hannah, M.J., Harwood,
D.M., Watkins, D.K., Henrys, S.A., Krissek, L.A., Lavelle,
M., van der Meer, J., McIntosh, W.C., Niessen, F.,
Passchier, S., Powell, R.D., Roberts, A.P., Sagnotti, L., Scherer,
R.P., Strong, C.P., Talarico, F., Verosub, K.L., Villa, G., Wonik,
T., 2001. Orbitally induced oscillations in the East Antarctic Ice
Sheet at the Oligocene– Miocene boundary. Nature 413, 719–
723.
Patacca, E., Sartori, R., Scandone, P., 1990. Tyrrhenian basin and
Apenninic arcs: kinematic relations since late Tortonian times.
Mem. Soc. Geol. Ital. 45, 425–451.
Pecorini, G., Pomesano Cherchi, A., 1969. Ricerche geologiche e
biostratigrafiche sul Campidano meridionale (Sardegna). Mem.
Soc. Geol. Ital. 8, 421– 451.
Platt, J.P., 1986. Dynamic of orogenic wedges and the uplift of highpressure
metamorphic rocks. Geol. Soc. Am. Bull. 97, 1037–
1053.
Re´hault, J.-P., Boillot, G., Mauffret, A., 1984. The western Mediterranean
basin geological evolution. Mar. Geol. 55, 447– 477.
Renne, P.R., Swisher, C.C., Deino, A.L., Karner, D.B., Owens, T.L.,
DePaolo, D.J., 1998. Intercalibration of standards, absolute ages
and uncertainties in 40Ar/39Ar dating. Chem. Geol. 145, 117–
152.
Sagnotti, L., Speranza, F., Winkler, A., Mattei, M., Funiciello, R.,
1998. Magnetic fabric of clay sediments from the external northern
Apennines (Italy). Phys. Earth Planet. Inter. 105, 73– 93.
Sartori, R., 1989. Evoluzione neogenico– recente del bacino tirrenico
e suoi rapporti con la geologia delle aree circostanti. G.
Geol. 3 (51/2), 1– 39.
Serri, G., Innocenti, F., Manetti, P., 1993. 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, 117– 147.
Smith, J.V., 1974. Feldspar Minerals, vol. 2. Springer, Berlin, 690
pp.
Sowerbutts, A.A., Underhill, J.R., 1998. Sedimentary response to
intra-arc extension: controls on Oligo– Miocene deposition, Sarcidano
sub-basin, Sardinia. J. Geol. Soc. (London) 155, 491–
508.
Taylor, B. (Ed.), 1995. Backarc Basins, Tectonics and Magmatism.
Plenum, New York, 524 pp.
Taylor, B., Zellmer, K., Martinez, F., Goodliffe, A., 1996. Sea-floor
spreading in the Lau back-arc basin. Earth Planet. Sci. Lett. 144,
35– 40.
Todesco, M., Vigliotti, L., 1993. When did Sardinia rotate? Statistical
evaluation of the paleomagnetic data. Ann. Geofis. 36,
119–134.
Van der Voo, R., 1993. Paleomagnetism of the Atlantic, Thethys,
and Iapetus Oceans. Cambridge Univ. Press, Cambridge, 411
pp.
Vigliotti, L., Langenheim, V.E., 1995. When did Sardinia stop rotating?
New paleomagnetic results. Terra Nova 7, 424– 435.
Vigliotti, L., Alvarez, W., Mc Williams, M., 1990. No relative motion
detected between Corsica and Sardinia. Earth Planet. Sci.
Lett. 98, 313– 318.
Villa, I.M., Hermann, J., Mu¨ntener, O., Trommsdorff, V., 2000.
39Ar – 40Ar dating of multiply zoned amphibole generations (Malenco, Italian Alps). Contrib. Mineral. Petrol. 140, 363–
381.
Wei, W., 1995. Revised age calibration points for the geomagnetic
polarity time scale. Geophys. Res. Lett. 22 (8), 957– 960.
Westphal, M., Orsini, J., Vellutini, P., 1976. Le microcontinent corso-
sarde, sa position initiale: donne´es pale´omagne´tiques et raccords
ge´ologiques. Tectonophysics 30, 141– 157.
Zijderveld, J.D.A., De Jong, K.A., Van der Voo, R., 1970. Rotation
of Sardinia: palaeomagnetic evidence from Permian rocks. Nature
226, 933– 934.
sedimentarie e vulcaniche del Miocene nei dintorni di Giave e
Cossoine (Logudoro, Sardegna NW). Boll. Soc. Sarda Sci. Nat.
26, 75– 107.
Assorgia, A., Barca, S., Rizzo, R., Spano, C., 1992a. The beginning
of the Lower Miocene marine sedimentation in western Sardinia
(Italy) and its implications with the Oligocene –Miocene rift
system. IXth Congress R.C.M.N.S. ‘‘Global Events and Neogene
Evolution of the Mediterranean’’ (Barcelona, 1990). Paleontol.
Evol. 24–25, 295– 305.
Assorgia, A., Barca, S., Spano, C., 1992b. Upper Oligocene–Lower
Miocene sequences of the Arbus –Funtanazza Coast (South-
Western Sardinia, Italy), IGCP N. 276, Newsletter, 5, 21–31.
Assorgia, A., Barca, S., Spano, C., 1997. A synthesis on the Cenozoic
stratigraphic, tectonic and volcanic evolution in Sardinia
(Italy). Boll. Soc. Geol. Ital. 116, 407– 420.
Baksi, A., 1993. A geomagnetic polarity time scale for the period
0 –17 Ma, based on 40Ar/39Ar plateau ages for selected field
reversals. Geophys. Res. Lett. 20, 1607–1610.
Barca, S., Carmignani, L., Oggiano, G., Pertusati, P.C., Salvadori, I.,
1996. Geologic Map of Sardinia, Scale 1:200,000, 2 sheets,
Servizio Geologico Nazionale-Regione Autonoma della Sardegna.
Bartole, R., 1995. The north Tyrrhenian–northern Apennines postcollisional
system: constraints for a geodynamic model. Terra
Nova 7, 7 – 30.
Bayer, R., Le Mouel, J.-L., Le Pichon, X., 1973. Magnetic anomaly
pattern in the western Mediterranean. Earth Planet. Sci. Lett. 49,
168– 176.
Beccaluva, L., Civetta, L., Maciotta, G., Ricci, C.A., 1985. Geochronology
in Sardinia: results and problems. Rend. Soc. Ital.
Mineral. Petrol. 40, 57–72.
Belluso, E., Ruffini, R., Schaller, M., Villa, I.M., 2000. Electronmicroscope
and Ar isotope characterization of chemically heterogeneous
amphiboles from the Palala Shear Zone, Limpopo
Belt, South Africa. Eur. J. Mineral. 12, 45– 62.
Besse, J., Courtillot, V., in press. Apparent and true polar wander
and the geometry of the geomagnetic field in the last 200 million
years, J. Geophys. Res.
Bevis, M., Taylor, F.W., Schultz, B.E., et al., 1995. Geodetic observations
of very rapid convergence and back-arc extension at
the Tonga arc. Nature 374, 249– 251.
Blow, W.H., 1967. Late Middle Eocene to Recent planktonic foraminiferal
biostratigraphy. Proc. 1st. Intern. Conf. Plankt. Microfossils,
Geneve, 1 –422.
Burrus, J., 1984. Contribution to a geodynamic synthesis of the
Provenc al Basin (North-Western Mediterranean). Mar. Geol.
55, 247–269.
Burrus, J., Foucher, J.P., 1986. Contribution to the thermal regime
of the Provenc al Basin based on flumed heat flow surveys and
previous investigations. Tectonophysics 128, 303– 334.
Cande, S.C., Kent, D.V., 1995. Revised calibration of the geomagnetic
polarity time scale for the Late Cretaceous and Cenozoic.
J. Geophys. Res. 100, 6093– 6095.
Carmignani, L., Decandia, F.A., Disperati, L., Fantozzi, P.L., Lazzarotto,
A., Liotta, D., Oggiano, G., 1995. Relationships between
the Tertiary structural evolution of the Corsica – Sardinia –
Provenc al Domain and the northern Apennines. Terra Nova 7,
128–137.
Chamot-Rooke, N., Gaulier, J.-M., Jestin, F., 1999. Constraints on
Moho depth and crustal thickness in the Liguro– Provenc al basin
from a 3D gravity inversion: geodynamic implications. In: Durand,
B., Jolivet, L., Horvath, F., Seranne, M. (Eds.), The Mediterranean
Basins: Tertiary Extension Within the Alpine Orogen.
Geological Society of London, Special Publications, vol. 156,
pp. 37–61.
Cherchi, A., Corradini, D., D’Onofrio, S., Iaccarino, S., Martini, E.,
Murru, M., Russo, A., 1985. Sardara–Villanovaforru section.
In: Cherchi, A. (Ed.), Micropaleontological Researches in Sardinia,
19th European Micropaleontological Colloquium Guidebook,
Sardinia October, vol. 1– 10, pp. 234– 249.
Cornamusini, G., Lazzarotto, A., Merlini, S., Pascucci, V., 2000.
Eocene– Quaternary evolution of the Corsica basin-Tuscan shelf
area (north Tyrrhenian Sea) through CROP-MARE seismic
analysis paper presented at the meeting. Evoluzione geologica
e geodinamica dell’Appennino, Foligno (Italy) February 16– 18,
108–110 (abstract).
Coulon, C., Demant, A., Bobier, C., 1974. Contribution du pale´omagne
´tisme a l’e´tude des se´ries volcaniques ce´nozoiques et
quaternaires de Sardaigne nord-occidentale. Tectonophysics
22, 59–82.
Deino, A., Gattacceca, J., Rizzo, R., Montanari, A., 2001. 40Ar/39Ar
dating and paleomagnetism of the Miocene volcanic succession
of Monte Furru (western Sardinia): implications for the rotation
history of the Corsica– Sardinia microplate. Geophys. Res. Lett.
28 (17), 3373– 3376.
De Jong, K.A., Manzoni, M., Zijderveld, J.D.A., 1969. Paleomagnetism
of the Alghero Trachyandesites. Nature 224, 67– 69.
De Jong, K.A., Manzoni, M., Stavenga, T., Van Dijk, F., Van der
Voo, R., Zijderveld, J.D.A., 1973. Palaeomagnetic evidence for
rotation of Sardinia during the early Miocene. Nature 243, 281–
283.
Deverche`re, J., et al., 1996. Geodynamics of the Ligurian Basin and
Margins, Abstract of the meeting ‘‘The Mediterranean Basins’’,
Cergy–Pontoise (Paris, France), December 11 – 13.
Di Nocera, S., Ortolani, F., Torre, M., Russo, B., 1979. Caratteristiche
stratigrafiche e paleoambientali dei depositi altomiocenici
nella zona di Falconara Albanese (Catena Costiera Calabra).
Boll. Soc. Nat. Napoli 83, 1– 29.
Edel, J.B., 1979. Paleomagnetic study of the Tertiary volcanics of
Sardinia. J. Geophys. 45, 259– 280.
Edel, J.B., Lortscher, A., 1977. Pale´omagne´tisme du volcanisme
tertiaire de Sardaigne. Nouveaux re´sultats et synthe`se. Bull.
Soc. Geol. Fr. 19, 815– 824.
Farris, M., 1990. Studio geo-vulcanologico e stratigrafico del settore
di Monastir – Ussana –Nuraminis, Univ. Cagliari, unpublished
thesis, 1– 217.
Foresi, L.M., Cornamusini, G., Bossio, A., Ferrandini, M., Mazzei,
R., Salvatorini, G., Argenti, P., 2000. The Miocene sedimentary
succession of the Pianosa island, northern Tyrrhenian Sea paper
presented at the meeting. Evoluzione geologica e geodinamica
dell’Appennino, Foligno (Italy) February 16–18, 155– 157 (abstract).
Fornaciari, E., Rio, D., 1996. Latest Oligocene to early middle
Miocene quantitative calcareous nannofossil biostratigraphy in
the Mediterranean region. Micropaleontology 42, 1– 36.
Gattacceca, J., 2001. Cine´matique du bassin liguro– provencal entre
30 et 12 Ma. Implications ge´odynamiques, PhD thesis, Ecole
des mines de Paris, 299 pp.
Gialanella, P.R., Heller, F., Incoronato, A., 1994. Rock magnetism
of deformed upper Triassic limestones from the Lagonegro Basin
(southern Apennines Italy). Geophys. Res. Lett. 21, 2665–
2668.
Horner, F., Lowrie, W., 1981. Paleomagnetic evidence from Mesozoic
carbonate rocks for the rotation of Sardinia. J. Geophys. 49,
11 –19.
Huestis, S.P., Acton, G.D., 1997. On the construction of geomagnetic
timescales from non-prejudicial treatment of magnetic
anomaly data from multiple ridges. Geophys. J. Int. 129, 176–
182.
Iaccarino, S., D’Onofrio, S., Murru, M., 1985. Miocene foraminifera
of several sections of the Marmilla area (central western
Sardinia). Boll. Soc. Paleontol. Ital. 23, 395–412.
Jelinek, V., 1978. Statistical processing of anisotropy of magnetic
susceptibility measured on a group of specimens and its applications.
Stud. Geophys. Geod. 22, 50– 62.
Jolivet, L., Dubois, R., Fournier, M., Goffe´, B., Michard, A., Jourdan,
C., 1990. Ductile extension in Alpine Corsica. Geology 18,
1007– 1010.
Jolivet, L., Faccenna, C., Goffe´, B., Mattei, M., Rossetti, F., Brunet,
C., Storti, F., Funiciello, R., Cadet, J.-P., D’Agostino, N., Parra,
T., 1998. Midcrustal shear zones in postorogenic extension:
example from the northern Tyrrhenian Sea. J. Geophys. Res.
103, 12123–12160.
Kastens, K., Mascle, J., Auroux, C., et al., 1986. A microcosm of
ocean basin evolution in the Mediterranean. Nature 321, 383–
384.
Kirschvink, J.L., 1980. The least-square line and plane and the
analysis of paleomagnetic data. Geophys. J. R. Astron. Soc.
62, 699– 718.
Lehman, B., Sagnotti, L., Winkler, A., Lo Cascio, C., 1996. Magnetic
mineralogy changes in the Pleistocene marine sequence of
Montalto di Castro (central Italy) and influences on the magnetic
anisotropy. Geophys. J. Int. 127, 529– 541.
Lonergan, L., White, N., 1997. Origin of the Betic-Rif mountain
belt. Tectonics 16 (3), 504– 522.
Lowrie, W., 1990. Identification of ferromagnetic minerals in a rock
by coercivity and unblocking temperature properties. Geophys.
Res. Lett. 17, 159– 162.
Lucente, F.P., Chiarabba, C., Cimini, G.B., Giardini, D., 1999. Tomographic
constraints on the geodynamic evolution of the Italian
region. J. Geophys. Res. 104, 20307–20327.
Ludwig, K.R., 1999. User’s Manual for Isoplot/Ex Version 2.2, A
Geochronological Toolkit for Microsoft Excel: Berkeley Geochronology
Center Special Publication No. 1a, 53 pp.
Maillard, A., Mauffret, A., Watts, A.B., Torne´, M., Pascal, G., Buhl,
P., Pinet, B., 1992. Tertiary sedimentary history and structure of
the Valencia trough (western Mediterranean). Tectonophysics
203, 57–75.
Malinverno, A., Ryan, W.B.F., 1986. Extension in the Tyrrhenian
Sea and shortening in the Apennines as result of arc migration
driven by sinking of the lithosphere. Tectonics 5, 227–245.
Manzoni, M., 1974. Un’interpretazione dei dati paleomagnetici del
terziario della Sardegna ed alcuni nuovi esempi. Rend. Semin.
Fac. Sci. Univ. Cagliari 43, 163– 167.
Martini, I.P., Sagri, M., 1993. Tectono-sedimentary characteristics
of Late Miocene–Quaternary extensional basins of the northern
Apennines, Italy. Earth Sci. Rev. 34, 197–233.
Mascle, J., Kastens, K., Auroux, C., et al., 1988. A land-locked
back-arc basin: preliminary results from ODP Leg 107 in the
Tyrrhenian Sea. Tectonophysics 146, 149– 162.
Mauffret, A., Maillard, A., Pascal, G., Torne´, M., Buhl, P., Pinet, B.,
1992. Long-listening multichannel seismic profiles in the Valencia
trough (Valsis 2) and the Gulf of Lions (ECORS): a comparison.
Tectonophysics 203, 285– 304.
Mauffret, A., Contrucci, I., Brunet, C., 1999. Structural evolution of
the Northern Tyrrhenian Sea from new seismic data. Mar. Pet.
Geol. 16, 381–407.
May, S.R., Butler, R.F., Shafiqullah, M., Damon, P.E., 1986. Paleomagnetism
of Jurassic rocks in the Patagonia Mountains,
southeastern Arizona: implications for the North American
170 Ma reference pole. J. Geophys. Res. 91, 11545–11555.
McFadden, P.L., 1990. A new fold test for paleomagnetic studies.
Geophys. J. Int. 103, 163– 169.
McIntosh, W.C., Geismann, J.W., Chapin, C.E., Kunk, M.J., Henry,
C.D., 1992. Calibration of the latest Eocene – Oligocene geomagnetic
polarity time scale using 40Ar/39Ar dated ignimbrites.
Geology 20, 459–463.
Montigny, R., Edel, J.B., Thuizat, R., 1981. Oligo–Miocene rotation
of Sardinia: K–Ar ages and paleomagnetic data of Tertiary
volcanics. Earth Planet. Sci. Lett. 54, 261– 271.
Muttoni, G., Argnani, A., Kent, D.V., Abrahamsen, N., Cibin, U.,
1998. Paleomagnetic evidence for Neogene tectonic rotations in
the northern Apennines, Italy. Earth Planet. Sci. Lett. 154, 25–
40.
Naish, T.R., Woolfe, K.J., Barrett, P.J., Wilson, G.S., Atkins, C.,
Bohaty, S.M., Bu¨cker, C.J., Claps, M., Davey, F.J., Dunbar, G.,
Dunn, A.G., Fielding, C.R., Florindo, F., Hannah, M.J., Harwood,
D.M., Watkins, D.K., Henrys, S.A., Krissek, L.A., Lavelle,
M., van der Meer, J., McIntosh, W.C., Niessen, F.,
Passchier, S., Powell, R.D., Roberts, A.P., Sagnotti, L., Scherer,
R.P., Strong, C.P., Talarico, F., Verosub, K.L., Villa, G., Wonik,
T., 2001. Orbitally induced oscillations in the East Antarctic Ice
Sheet at the Oligocene– Miocene boundary. Nature 413, 719–
723.
Patacca, E., Sartori, R., Scandone, P., 1990. Tyrrhenian basin and
Apenninic arcs: kinematic relations since late Tortonian times.
Mem. Soc. Geol. Ital. 45, 425–451.
Pecorini, G., Pomesano Cherchi, A., 1969. Ricerche geologiche e
biostratigrafiche sul Campidano meridionale (Sardegna). Mem.
Soc. Geol. Ital. 8, 421– 451.
Platt, J.P., 1986. Dynamic of orogenic wedges and the uplift of highpressure
metamorphic rocks. Geol. Soc. Am. Bull. 97, 1037–
1053.
Re´hault, J.-P., Boillot, G., Mauffret, A., 1984. The western Mediterranean
basin geological evolution. Mar. Geol. 55, 447– 477.
Renne, P.R., Swisher, C.C., Deino, A.L., Karner, D.B., Owens, T.L.,
DePaolo, D.J., 1998. Intercalibration of standards, absolute ages
and uncertainties in 40Ar/39Ar dating. Chem. Geol. 145, 117–
152.
Sagnotti, L., Speranza, F., Winkler, A., Mattei, M., Funiciello, R.,
1998. Magnetic fabric of clay sediments from the external northern
Apennines (Italy). Phys. Earth Planet. Inter. 105, 73– 93.
Sartori, R., 1989. Evoluzione neogenico– recente del bacino tirrenico
e suoi rapporti con la geologia delle aree circostanti. G.
Geol. 3 (51/2), 1– 39.
Serri, G., Innocenti, F., Manetti, P., 1993. 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, 117– 147.
Smith, J.V., 1974. Feldspar Minerals, vol. 2. Springer, Berlin, 690
pp.
Sowerbutts, A.A., Underhill, J.R., 1998. Sedimentary response to
intra-arc extension: controls on Oligo– Miocene deposition, Sarcidano
sub-basin, Sardinia. J. Geol. Soc. (London) 155, 491–
508.
Taylor, B. (Ed.), 1995. Backarc Basins, Tectonics and Magmatism.
Plenum, New York, 524 pp.
Taylor, B., Zellmer, K., Martinez, F., Goodliffe, A., 1996. Sea-floor
spreading in the Lau back-arc basin. Earth Planet. Sci. Lett. 144,
35– 40.
Todesco, M., Vigliotti, L., 1993. When did Sardinia rotate? Statistical
evaluation of the paleomagnetic data. Ann. Geofis. 36,
119–134.
Van der Voo, R., 1993. Paleomagnetism of the Atlantic, Thethys,
and Iapetus Oceans. Cambridge Univ. Press, Cambridge, 411
pp.
Vigliotti, L., Langenheim, V.E., 1995. When did Sardinia stop rotating?
New paleomagnetic results. Terra Nova 7, 424– 435.
Vigliotti, L., Alvarez, W., Mc Williams, M., 1990. No relative motion
detected between Corsica and Sardinia. Earth Planet. Sci.
Lett. 98, 313– 318.
Villa, I.M., Hermann, J., Mu¨ntener, O., Trommsdorff, V., 2000.
39Ar – 40Ar dating of multiply zoned amphibole generations (Malenco, Italian Alps). Contrib. Mineral. Petrol. 140, 363–
381.
Wei, W., 1995. Revised age calibration points for the geomagnetic
polarity time scale. Geophys. Res. Lett. 22 (8), 957– 960.
Westphal, M., Orsini, J., Vellutini, P., 1976. Le microcontinent corso-
sarde, sa position initiale: donne´es pale´omagne´tiques et raccords
ge´ologiques. Tectonophysics 30, 141– 157.
Zijderveld, J.D.A., De Jong, K.A., Van der Voo, R., 1970. Rotation
of Sardinia: palaeomagnetic evidence from Permian rocks. Nature
226, 933– 934.
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