Please use this identifier to cite or link to this item:
http://hdl.handle.net/2122/12467| DC Field | Value | Language |
|---|---|---|
| dc.date.accessioned | 2019-03-28T09:03:38Z | en |
| dc.date.available | 2019-03-28T09:03:38Z | en |
| dc.date.issued | 2018 | en |
| dc.identifier.uri | http://hdl.handle.net/2122/12467 | en |
| dc.description.abstract | The Punta delle Pietre Nere (Gargano, Southern Italy) igneous body is constituted by gabbroic and syenitic rocks with lamprophyric affinity of different age (58 and 62 Ma, respectively). The chemical composition of the minerals clearly indicates that there is no genetic relationship between the two lithotypes, in agreement with their significant age difference. The chemical (trace elements) and Sr-Nd-Pb-isotopic composition of these rocks highlights an “anorogenic” geochemical affinity derived from mixed DMM-HIMU-EM mantle reservoirs, similarly to other Paleogene-Oligocenemagmatic provinces in the Circum-Mediterranean Area. In past literature, these features were interpreted as evidences for enriched asthenospheric mantle plume upwelling from deep regions beneath the Western Europe. Here we suggest that the HIMU-like composition of Punta delle Pietre Nere rocks is related to a lithosphericmantle source bearing amphibole-rich veins, resulting from crystallization of melts within the amphibole stability field in presence of H2O, as shown by several experimental works. Our results suggests partial melting at 70–90 km depth, which corresponds to the spinel-garnet transition (2.5–3.5 GPa) close to the amphibole stability limit (~90–110 km and 2.5–3.5 GPa). | en |
| dc.language.iso | English | en |
| dc.publisher.name | Elsevier | en |
| dc.relation.ispartof | Lithos | en |
| dc.relation.ispartofseries | /308(2018) | en |
| dc.subject | Punta delle Pietre Nere Anorogenic magmatism Isotope geochemistry Mantle plume | en |
| dc.subject | Anorogenic magmatism | en |
| dc.subject | Mantle plume | en |
| dc.title | Mineralogical, geochemical and isotopic characteristics of alkaline mafic igneous rocks from Punta delle Pietre Nere (Gargano, Southern Italy) | en |
| dc.type | article | en |
| dc.description.status | Published | en |
| dc.type.QualityControl | Peer-reviewed | en |
| dc.description.pagenumber | 316-328 | en |
| dc.identifier.doi | 10.1016/j.lithos.2018.03.015 | en |
| dc.relation.references | Adam, J., Green, T., 2006. Trace element partitioning between mica-and amphibolebearing garnet lherzolite and hydrous basanitic melt: 1. Experimental results and the investigation of controls on partitioning behavior. Contributions to Mineralogy and Petrology 152 (1), 1–17. Adam, J., Green, T., 2011. Trace element partitioning between mica-and amphibolebearing garnet lherzolite and hydrous basanitic melt: 2. Tasmanian Cenozoic basalts and the origins of intraplate basaltic magmas. Contributions to Mineralogy and Petrology 161 (6), 883–899. Amendolagine, M., Dell'Anna, L., Ventriglia, U., 1964. Le rocce ignee alla Punta delle Pietre Nere presso Lesina (Prov. Foggia). Periodico di Mineralogia 33, 337–344. Anderson, D.L., Natland, J.H., 2005. A brief history of the plume hypothesis and its competitors: concept and controversy. Geological Society of America Special Papers 388, 119–145. Arienzo, I., Mazzeo, F.C.,Moretti, R., Cavallo, A., D'Antonio, M., 2016. Open-systemmagma evolution and fluid transfer at Campi Flegrei caldera (southern Italy) during the past 5 ka as revealed by geochemical and isotopic data: the example of the Nisida eruption. Chemical Geology 427, 109–124. Avanzinelli, R., Boari, E., Conticelli, S., Francalanci, L., Guarnieri, L., Perini, G., Petrone, C.M., Tommasini, S., Ulivi, M., 2005. High precision Sr, Nd, and Pb isotopic analyses using the new generation thermal ionisation mass spectrometer ThermoFinnigan triton- Ti©. Periodico di Mineralogia 74, 147–166. Avanzinelli, R., Sapienza, G.T., Conticelli, S., 2012. The Cretaceous to Paleogene within-plate magmatism of Pachino-Capo Passero (southeastern Sicily) and Adria (La Queglia and Pietre Nere, southern Italy): geochemical and isotopic evidence against a plume-related origin of circum-Mediterranean magmas. European Journal of Mineralogy 24, 73–96. Barruol, G., Granet, M., 2002. A Tertiary asthenospheric flow beneath the southern French Massif Central indicated by upper mantle seismic anisotropy and related to the west Mediterranean extension. Earth and Planetary Science Letters 202 (1), 31–47. Beccaluva, L., Siena, F., Coltorti,M., Di Grande, A., Lo Giudice, A.,Macciotta, G., Tassinari, R., Vaccaro, C., 1998. Nephelinitic to tholeiitic magma generation in a transtensional tectonic setting: an integrated model for the Iblean volcanism, Sicily. Journal of Petrology 39, 1547–1576. Beccaluva, L., Bianchini, G., Coltorti, M., Perkins, W., Siena, F., Vaccaro, C., Wilson, M., 2001a. Multistage evolution of the European lithospheric mantle: new evidence from Sardinian peridotite xenoliths. Contributions to Mineralogy and Petrology 142 (3), 284–297. Beccaluva, L., Bonadiman, C., Coltorti, M., Salvini, L., Siena, F., 2001b. Depletion events, nature of metasomatizing agent and timing of enrichment processes in lithospheric mantle xenoliths from the Veneto Volcanic Province. Journal of Petrology 42 (1), 173–188. Beccaluva, L., Bianchini, G., Bonadiman, C., Coltorti, M., Milani, L., Salvini, L., Siena, F., Tassinari, R., 2007. Intraplate lithospheric and sublithospheric components in the Adriatic domain: Nephelinite to tholeiite magma generation in the Paleogene Veneto volcanic province, southern Alps. In: Beccaluva, L., et al. (Eds.), Cenozoic Volcanism in the Mediterranean Area. Geological Society of America Special Papers 418, pp. 131–152. Beccaluva, L., Bianchini, G., Natali, C., Siena, F., 2011. Geodynamic control on orogenic and anorogenic magmatic phases in Sardinia and Southern Spain: inferences for the Cenozoic evolution of the western Mediterranean. Lithos 123 (1), 218–224. Bianchini, G., Beccaluva, L., Siena, F., 2008. Post-collisional and intraplate Cenozoic volcanism in the rifted Apennines/Adriatic domain. Lithos 101, 125–140. Bigazzi, G., Laurenzi, M.A., Principe, C., Brocchini, D., 1996. New geochronological data on igneous rocks and evaporites of the Pietre Nere Point (Gargano peninsula, southern Italy). Bollettino della Societa Geologica Italiana 115, 439–448. Bosellini, A., 2002. Dinosaurs re-write the geodynamics of the easternMediterranean and the paleogeography of the Apulia Platform. Earth-Science Reviews 59, 211–234. Carminati, C., Lustrino, M., Doglioni, C., 2012. Geodynamic evolution of the central and western Mediterranean: tectonics vs. igneous petrology constraints. Tectonophysics 579, 173–192. Conticelli, S., Carlson, R.W.,Widom, E., Serri, G., 2007. Chemical and isotopic composition (Os, Pb, Nd, and Sr) of Neogene to Quaternary calc-alkalic, shoshonitic, and ultrapotassic mafic rocks from the Italian peninsula: inferences on the nature of their mantle sources. In: Beccaluva, L., et al. (Eds.), Cenozoic Volcanism in the Mediterranean Area. Geological Society of America Special Papers 418, pp. 171–202. Cortecci, G., Dinelli, E., Civitavecchia, V., 2000. Isotopic and geochemical features of rocks from Punta delle Pietre Nere, Gargano Peninsula, southern Italy. Periodico di Mineralogia 69 (3), 205–216. De Astis, G., Kempton, P.D., Peccerillo, A., Wu, T.W., 2006. Trace element and isotopic variations fromMt. Vulture to Campanian volcanoes: constraints for slab detachment andmantle inflow beneath southern Italy. Contributions toMineralogy and Petrology 151, 331–351. De Fino, M., La Volpe, L., Piccarreta, G., 1981. Geochemistry and petrogenesis of the Paleocene platform magmatism at Punta delle Pietre Nere (Southeastern Italy). Neues Jahrbuch für Mineralogie Abhandlungen 142, 161–177. De Fino, M., La Volpe, L., Piccarreta, G., 1982. Crystallization trends of pyroxenes from alkaline subvolcanites of Punta delle Pietre Nere (Gargano, Southern Italy). Tschermaks Mineralogische Und Petrographische Mitteilungen 29, 177–192. De Fino, M., La Volpe, L., Piccarreta, G., 1983. Mafic minerals from Punta delle Pietre Nere subvolcanites (Gargano, southern Italy): their petrological significance. Tschermaks Mineralogische Und Petrographische Mitteilungen 32, 69–78. Dunworth, E.A.,Wilson, M., 1998. Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology 39 (10), 1805–1836. Fekiacova, Z., Mertz, D.F., Hofmann, A.W., 2007. Geodynamic setting of the Tertiary Hocheifel volcanism (Germany). Part II: Geochemistry and Sr, Nd and Pb Isotopic Compositions. Mantle Plumes: a Multidisciplinary Approach. Springer, Heidelberg, pp. 207–240. Giacomuzzi, G., Civalleri, M., De Gori, P., Chiarabba, C., 2012. A 3D vs model of the upper mantle beneath Italy: insight on the geodynamics of central Mediterranean. Earth and Planetary Science Letters 335, 105–120. Goes, S., Spakman, W., Bijwaard, H., 1999. A lower mantle source for central European volcanism. Science 286 (5446), 1928–1931. Gorring, M.L., Kay, S.M., 2001. Mantle processes and sources of Neogene slab window magmas from southern Patagonia, Argentina. Journal of Petrology 42 (6), 1067–1094. Granet, M., Wilson, M., Achauer, U., 1995. Imaging a mantle plume beneath the French Massif Central. Earth and Planetary Science Letters 136 (3–4), 281–296. Green, D.H., Hibberson, W.O., Kovács, I., Rosenthal, A., 2010. Water and its influence on the lithosphere-asthenosphere boundary. Nature 467 (7314), 448. Hawkesworth, C.J., Vollmer, R., 1979. Crustal contamination versus enriched mantle: 143Nd/144Nd and 87Sr/86Sr evidence from the Italian volcanics. Contribution to Mineralogi and Petrology 69, 151–165. Hoernle, K.A.J., Zhang, Y.S., Graham, D., 1995. Seismic and geochemical evidence for largescalemantle upwelling beneath the eastern Atlantic and western and central Europe. Nature 374 (6517), 34–39. Hofmann, A.W., 2003. Sampling mantle heterogeneity through oceanic basalts: isotopes and trace elements. Treatise on Geochemistry 2, 568. Jackson, M.G., Dasgupta, R., 2008. Compositions of HIMU, EM1, and EM2 from global trends between radiogenic isotopes and major elements in ocean island basalts. Earth and Planetary Science Letters 276 (1), 175–186. Jung, C., Jung, S., Hoffer, E., Berndt, J., 2006. Petrogenesis of Tertiary mafic alkalinemagmas in the Hocheifel, Germany. Journal of Petrology 47 (8), 1637–1671. Kawabata, H., Hanyu, T., Chang, Q., Kimura, J.I., Nichols, A.R., Tatsumi, Y., 2011. The petrology and geochemistry of St. Helena alkali basalts: evaluation of the oceanic crust-recycling model for HIMU OIB. Journal of Petrology 52 (4), 791–838. Lustrino, M., Anderson, D.L., 2015. The mantle isotopic printer: basic mantle plume geochemistry for seismologists and geodynamicists. Geological Society of America Special Papers 514, 257–279. Lustrino, M., Wilson, M., 2007. The circum-Mediterranean anorogenic Cenozoic igneous province. Earth-Science Reviews 81 (1), 1–65.Lustrino, M., Duggen, S., Rosenberg, C.L., 2011. The Central-Western Mediterranean: anomalous igneous activity in an anomalous collisional tectonic setting. Earth- Science Reviews 104 (1), 1–40. Lustrino, M., Cucciniello, C., Melluso, L., Tassinari, C.C., de Gennaro, R., Serracino, M., 2012. Petrogenesis of Cenozoic volcanic rocks in the NW sector of the Gharyan volcanic field, Libya. Lithos 155, 218–235. Lyubetskaya, T., Korenaga, J., 2007. Chemical composition of Earth's primitive mantle and its variance: 1. Method and results. Journal of Geophysical Research 112:B03211. https://doi.org/10.1029/2005JB004223. Macera, P., Gasperini, D., Piromallo, C., Blichert-Toft, J., Bosch, D., Del Moro, A., Martin, S., 2003. Geodynamic implications of deep mantle upwelling in the source of Tertiary volcanics from the Veneto region (South-Eastern Alps). Journal of Geodynamics 36, 563–590. Macera, P., Gasperini, D., Ranalli, G., Mahatsente, R., 2008. Slab detachment and mantle plume upwelling in subduction zones: an example from the Italian South-Eastern Alps. Journal of Geodynamics 45 (1), 32–48. Matzen, A.K., Baker, M.B., Beckett, J.R., Stolper, E.M., 2011. Fe-Mg partitioning between olivine and high-magnesian melts and the nature of Hawaiian parental liquids. Journal of Petrology 52 (7-8), 1243–1263. Mazzeo, F.C., D'Antonio, M., Arienzo, I., Aulinas, M., Di Renzo, V., Gimeno, D., 2014. Subduction-related enrichment of the Neapolitan volcanoes (Southern Italy) mantle source: new constraints on the characteristics of the slab-derived components. Chemical Geology 386, 165–183. Mazzeo, F.C., Zanetti, A., Aulinas, M., Petrosino, P., Arienzo, I., D'Antonio, M., 2017. Evidence for an intra-oceanic affinity of the serpentinized peridotites from the Mt. Pollino ophiolites (Southern Ligurian Tethys): insights into the peculiar tectonic evolution of the Southern Apennines. Lithos 284, 367–380. McKenzie, D.A.N., O'Nions, R.K., 1995. The source regions of ocean island basalts. Journal of Petrology 36 (1), 133–159. Melluso, L., Srivastava, R.K., Guarino, V., Zanetti, A., Sinha, A.K., 2010. Mineral compositions and petrogenetic evolution of the ultramafic-alkaline-carbonatitic complex of Sung Valley, northeastern India. The Canadian Mineralogist 48 (1), 205–229. Melluso, L., Srivastava, R.K., Petrone, C.M., Guarino, V., Sinha, A.K., 2012. Mineralogy and magmatic affinity of the Jasra intrusive complex, Shillong Plateau, India. Mineralogical Magazine 76 (5), 1099–1117. Melluso, L., Cucciniello, C., le Roex, A.P., Morra, V., 2016. The geochemistry of primitive volcanic rocks of the Ankaratra volcanic complex, and source enrichment processes in the genesis of the Cenozoicmagmatismin Madagascar. Geochimica et Cosmochimica Acta 185, 435–452. Molina, J.F., Moreno, J.A., Castro, A., Rodríguez, C., Fershtater, G.B., 2015. Calcic amphibole thermobarometry in metamorphic and igneous rocks: new calibrations based on plagioclase/amphibole Al-Si partitioning and amphibole/liquid Mg partitioning. Lithos 232, 286–305. Mollo, S., Putirka, K., Misiti, V., Soligo, M., Scarlato, P., 2013. A new test for equilibrium based on clinopyroxene-melt pairs: clues on the solidification temperatures of etnean alkaline melts at post-eruptive conditions. Chemical Geology 352, 92–100. Mollo, S., Masotta, M., Forni, F., Bachmann, O., De Astis, G., Moore, G., Scarlato, P., 2015. A K-feldspar-liquid hygrometer specific to alkaline differentiated magmas. Chemical Geology 392, 1–8. Niu, Y., Wilson, M., Humphreys, E.R., O'Hara, M.J., 2012. A trace element perspective on the source of ocean island basalts (OIB) and fate of subducted ocean crust (SOC) and mantle lithosphere (SML). Episodes 35 (2), 310–327. Patacca, E., Scandone, P., 2007. Geology of southern apennines. In: Mazzotti, A., Patacca, E., Scandone, P. (Eds.), Results of the CROP Project, Sub-project CROP 04. Bollettino Della Società Geologica Italiana Special Issue 7, pp. 75–119. Peccerillo, A., 2017. Cenozoic Volcanism in the Tyrrhenian Sea Region. Springer (399 pp.). Petrosino, P., Jicha, B.R., Mazzeo, F.C., Ermolli, E.R., 2014. A high resolution tephrochronological record of MIS 14–12 in the Southern Apennines (Acerno Basin, Italy). Journal of Volcanology and Geothermal Research 274, 34–50. Pilet, S., Ulmer, P., Villiger, S., 2010. Liquid line of descent of a basanitic liquid at 1.5 Gpa: constraints on the formation of metasomatic veins. Contributions to Mineralogy and Petrology 159 (5), 621–643. Pilet, S., Baker, M.B., Müntener, O., Stolper, E.M., 2011. Monte Carlo simulations of metasomatic enrichment in the lithosphere and implications for the source of alkaline basalts. Journal of Petrology 52 (7–8), 1415–1442. Piromallo, C., Gasperini, D., Macera, P., Faccenna, C., 2008. A late Cretaceous contamination episode of the European-Mediterranean mantle. Earth and Planetary Science Letters 266 (1–2), 15–27. Putirka, K., 2008. Thermometers and barometers for volcanic systems. In: Putirka, K.E., Tepley, F. (Eds.), Minerals, Inclusions and Volcanic Processes. Reviews in Mineralogy and Geochemistry 69. Mineralogical Society of America, pp. 61–120. Putirka, K., Ryerson, F.J., Mikaelian, H., 2003. New igneous thermobarometers for mafic and evolved lava compositions, based on clinopyroxene + liquid equilibria. American Mineralogist 88, 1542–1554. Ridolfi, F., Renzulli, A., 2012. Calcic amphiboles in calc-alkaline and alkaline magmas: thermobarometric and chemometric empirical equations valid up to 1130 °C and 2.2 GPa. Contributions to Mineralogy and Petrology 163 (5), 877–895. Rocco, I., Lustrino, M., Morra, V., Melluso, L., 2012. Petrological, geochemical and isotopic characteristics of the lithospheric mantle beneath Sardinia (Italy) as indicated by ultramafic xenoliths enclosed in alkaline lavas. International Journal of Earth Sciences 101 (5), 1111–1125. Rosenbaum, G., Lister, G.S., 2005. The Western Alps from the Jurassic to Oligocene: spatio-temporal constraints and evolutionary reconstructions. Earth-Science Reviews 69, 281–306. Schuberth, B.S., Zaroli, C., Nolet, G., 2012. Synthetic seismograms for a synthetic Earth: long-period P-and S-wave traveltime variations can be explained by temperature alone. Geophysical Journal International 188 (3), 1393–1412. Sharp, Z.D., Essene, E.J., Metz, G.W., Anovitz, L.M., Westrum Jr., E.F., Hemingway, B.S., Valley, J.W., 1986. The heat capacity of a natural monticellite and phase equilibria in the system CaO-MgO-SiO2-CO2. Geochimica et Cosmochimica Acta 50 (7), 1475–1484. Spakman, W., Wortel, R., 2004. A tomographic view on western Mediterranean geodynamics. The TRANSMED Atlas. The Mediterranean Region fromCrust toMantle, pp. 31–52. Stampfli, G.M., Borel, G.D., 2002. A plate tectonic model for the Paleozoic and Mesozoic constrained by dynamic plate boundaries and restored synthetic oceanic isochrones. Earth and Planetary Science Letters 196, 17–33. Stoppa, F., Rukhlov, A.S., Bell, K., Schiazza, M., Vichi, G., 2014. Alkali syenites of Italy: early cretaceous alkaline alkali syenites of southern Tuscany, Italy. Lithos 188, 97–112. Thy, P., Lesher, C.E., Tegner, C., 2013. Further work on experimental plagioclase equilibria and the Skaergaard liquidus temperature. American Mineralogist 98, 1360–1367. Tiepolo, M., Oberti, R., Zanetti, A., Vannucci, R., Foley, S.F., 2007. Trace-element partitioning between amphibole and silicate melt. Reviews in Mineralogy and Geochemistry 67 (1), 417–452. Vitale, S., Ciarcia, S., 2013. Tectono-stratigraphic and kinematic evolution of the southern Apennines/Calabria-Peloritani Terrane system (Italy). Tectonophysics 583, 164–182. Vollmer, R., 1976. Rb-Sr and U-Th-Pb systematics of alkaline rocks: the alkaline rocks from Italy. Geochimica et Cosmochimica Acta 40, 283–295. Walker, J.F., Roberts, G.P., Cowie, P.A., Papanikolaou, I., Michetti, A.M., Sammonds, P., Wilkinson, M., McCaffrey, K.J.W., Phillips, R.J., 2012. Relationship between topography, rates of extension and mantle dynamics in the actively-extending Italian Apennines. Earth and Planetary Science Letters 325, 76–84. Willbold, M., Stracke, A., 2006. Trace element composition of mantle end-members: implications for recycling of oceanic and upper and lower continental crust. Geochemistry, Geophysics, Geosystems 7 (4). Wones, D.R., Eugster, H.P., 1965. Stability of biotite: experiment, theory, and application. American Mineralogist 50, 1228–1272. Wörner, G., Zindler, A., Staudigel, H., Schmincke, H.U., 1986. Sr, Nd, and Pb isotope geochemistry of Tertiary and Quaternary alkaline volcanics from West Germany. Earth and Planetary Science Letters 79 (1–2), 107–119. Zhao, D., Yu, S., Liu, X., 2016. Seismic anisotropy tomography: newinsight into subduction dynamics. Gondwana Research 33, 24–43 | en |
| dc.description.obiettivoSpecifico | 3V. Proprietà chimico-fisiche dei magmi e dei prodotti vulcanici | en |
| dc.description.journalType | JCR Journal | en |
| dc.contributor.author | Mazzeo, F. C. | en |
| dc.contributor.author | Arienzo, Ilenia | en |
| dc.contributor.author | Aulinas, M. | en |
| dc.contributor.author | Casalini, M. | en |
| dc.contributor.author | Di Renzo, V. | en |
| dc.contributor.author | D’Antonio, Massimo | en |
| dc.contributor.department | Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italia | en |
| dc.contributor.department | Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italia | en |
| item.openairetype | article | - |
| item.cerifentitytype | Publications | - |
| item.languageiso639-1 | en | - |
| item.grantfulltext | restricted | - |
| item.openairecristype | http://purl.org/coar/resource_type/c_18cf | - |
| item.fulltext | With Fulltext | - |
| crisitem.author.dept | Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italia | - |
| crisitem.author.dept | Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italia | - |
| crisitem.author.dept | Università di Napoli "Federico II" | - |
| crisitem.author.orcid | 0000-0002-6213-056X | - |
| crisitem.author.orcid | 0000-0003-3795-3537 | - |
| crisitem.author.orcid | 0000-0001-5091-4925 | - |
| crisitem.author.parentorg | Istituto Nazionale di Geofisica e Vulcanologia | - |
| crisitem.author.parentorg | Istituto Nazionale di Geofisica e Vulcanologia | - |
| crisitem.department.parentorg | Istituto Nazionale di Geofisica e Vulcanologia | - |
| crisitem.department.parentorg | Istituto Nazionale di Geofisica e Vulcanologia | - |
| Appears in Collections: | Article published / in press | |
Files in This Item:
| File | Description | Size | Format | Existing users please Login |
|---|---|---|---|---|
| article.pdf | 4.44 MB | Adobe PDF |
WEB OF SCIENCETM
Citations
50
1
checked on Feb 8, 2021
Page view(s)
214
checked on Apr 27, 2024
Download(s)
2
checked on Apr 27, 2024
