RAMPONE, ELISABETTA
 Distribuzione geografica
Continente #
EU - Europa 13678
Totale 13678
Nazione #
IT - Italia 13678
Totale 13678
Città #
Genova 12500
Rapallo 893
Genoa 285
Totale 13678
Nome #
The ophiolite-oceanic lithosphere analogue: new insights from the Northern Apennines (Italy). 147
Pyroxenite Layers in the Northern Apennines’ Upper Mantle (Italy)—Generation by Pyroxenite Melting and Melt Infiltration 140
Petrology and trace element budgets of high-pressure peridotites indicate subduction dehydration of serpentinized mantle (Cima di Gagnone, Central Alps, Switzerland) 129
Alpine olivine- and titanian clinohumite- bearing assemblages in the Erro-Tobbio peridotite (Voltri Massif, NW Italy) 124
null 124
Contrasting bulk and mineral chemistry in depleted mantle peridotites: evidence for reactive porous flow 119
A global overview of isotopic heterogeneities in the oceanic mantle 113
From mantle peridotites to hybrid troctolites: textural and chemical evolution during melt-rock interaction history (Mt.Maggiore, Corsica, France) 112
Alpine olivine- and titanian clinohumite- bearing assemblages in the Erro - Tobbio peridotite (Voltri Massif, NW Italy). 111
Melt migration and intrusion in the Erro-Tobbio peridotites (Ligurian Alps, Italy): insights on magmatic processes in extending lithospheric mantle. 109
Complementary Ti and Zr anomalies in orthopyroxene and clinopyroxene from mantle peridotites 108
Ophiolitic magmatism in the Ligurian Tethys: an ion microprobe study of basaltic clinopyroxenes. 107
Peridotite clinopyroxene chemistry reflects mantle processes rather than continental versus oceanic settings. 106
Melt/rock reaction at oceanic peridotite/gabbro transition as revealed by trace element chemistry of olivine 105
Melt transport and mantle assimilation at Atlantis massif (IODP site U1309): Constraints from geochemical modeling 102
Alpine olivine- and titanian clinohumite-bearing assemblages in the Erro-Tobbio peridotite (Voltri Massif, NW Italy) 101
Mg-metasomatism of oceanic gabbros and its control on Ti-clinohumite formation during eclogitization 100
Bulk vs. mineral chemistry contrasts in depleted peridotites: insights on the origin of reacted harzburgites 100
Meter-scale Nd isotopic heterogeneity in pyroxenite-bearing Ligurian peridotites encompasses global-scale upper mantle variability 100
Trace element and isotope geochemistry of depleted peridotites from an N-MORB type ophiolite (Internal Liguride, N. Italy) 98
null 98
Records of crustal metasomatism in the garnet peridotites of the Ulten Zone (Upper Austroalpine, Eastern Alps) 96
Isotopic equilibrium between mantle peridotite and melt: evidence from the Corsica ophiolite. 96
Os isotopes and highly siderophile elements (HSE) in the Ligurian Ophiolites, Italy. 96
The Variscan garnet peridotites from the Eastern Alps (Ulten Zone). records of subduction metasomatism in the mantle wedge 94
Melt migration and intrusion during exhumation of the Alboram lithosphere: the Tallante mantle xenolith record (Betic Cordillera, SE Spain) 93
Sm–Nd geochronology of the Erro-Tobbio gabbros (Ligurian Alps, Italy): Insights into the evolution of the Alpine Tethys 92
Multi-stage melt-rock interaction in the Mt.Maggiore (Corsica, France) ophiolitic peridotites: microstructural and geochemical evidence 91
A global overview of isotopic heterogeneities in the oceanic mantle 90
Melt impregnation in ophiolitic peridotites: an ion microprobe study of clinopyroxene and plagioclase 89
Melt-rock reaction and melt migration in the MORB mantle through combined natural and experimental studies 87
Upper mantle evolution of ophiolitic peridotites from the Northern Apennine: petrological constraints to the geodynamic processes 86
Rare Earth and trace element geochemistry of clinopyroxenes from the Zabargad peridotite-pyroxenite association 85
Chemistry and origin of trapped melts in ophiolitic peridotites 84
Bulk vs. mineral chemistry contrasts in depleted mantle peridotites: evidence for reactive porous flow 84
Partial melting of secondary pyroxenite at 1 and 1.5 GPa, and its role in upwelling heterogeneous mantle 83
Subduction-related melts in the Alboran Mantle: The Tallante Xenoliths (B. Cordillera, SE Spain). 82
Isotopic contrasts within the Internal Liguride ophiolite (N.Italy): the lack of a genetic mantle-crust link. 81
Subduzione alpina ed esumazione di litosfera oceanica: L’esempio dell’Unità Erro-Tobbio delle Alpi Liguri. 81
Melt migration and intrusion in the Erro-Tobbio peridotites (Ligurian Alps, Italy): insights on magmatic processes in extending lithospheric mantle. 79
Evolution of the Ligurian Tethys: inference from petrology and geochemistry of the Ligurian Ophiolites 78
The geobarometric significance of plagioclase in mantle peridotites: A link between nature and experiments 77
Origin of LREE-depleted amphiboles in the subcontinental mantle 77
null 77
The Internal Liguride peridotites (Northern Apennine) represent the Permian depleted mantle of the Ligurian Tethys 76
null 76
Records of mantle-crust exchange processes during continental subduction-exhumation in the Nonsberg-Ultental garnet peridotites (eastern Alps). A review 75
Serpentine dehydration recorded by garnet peridotites and chlorite harzburgites from Cima di Gagnone. 75
The oceanic lithosphere of the Jurassic Ligurian Tethys: inference from petrology and geochemistry of the Ligurian ophiolites 75
Crustal metasomatism in subducted mantle: records from the Ulten peridotites (Upper Austroalpine, Eastern Alps) 75
null 75
Chemical and isotopic contrasts between subcontinental and intraoceanic upper mantle of the Ligurian ophiolites. 74
The stability of plagioclase in the upper mantle: subsolidus experiments on fertile and depleted lherzolite 73
The transition from sp- to pl-bearing mantle assemblages as evidenced by major and trace element variations in minerals from the Northern Apennine peridoti¬tes (Italy). 72
Ligurian ophiolites: a fossile example of subcontinental lithospheric mantle denudation during ocean formation 71
Fluid and element cycling in subducted serpentinite: a trace-element study of the Erro-Tobbio high-pressure ultramafites (Western Alps, NW Italy) 71
Melt versus fluid-induced metasomatism in mantle wedge alpine peridotites (Ulten Zone, Eastern Italian Alps) 70
Ligurian ophiolites: records of the peculiar oceanic lithosphere of the Jurassic Ligurian Tethys. 70
The Geisspfad Complex and its relationships with the Monte Leone Nappe (lower Pennine, Western Alps) 69
The effect of bulk Na2O/CaO and XCr on the spinel to plagioclase transition in lherzolites and its use as geobarometer marker: an experimental study 69
Upper mantle isotopic heterogeneities – global overview with new results from Alpine-Apennine ophiolites. 69
Origin and emplacement of gabbroic intrusions in mantle peridotite from the Erro-Tobbio unit (Ligurian Alps, Italy) 68
Pyroxenites in the Western External Liguride ophiolitic peridotite massifs (N.Apennines, Italy): origin and implications on mantle heterogeneity. 68
Alpine titanian clinohumite-bearing assemblages in Fe-Ti-metagabbros as the result of metasomatism: an alternative process to rodingitization 68
Denudation of subcontinental lithospheric mantle during ocean formation: a fossile example from the Ligurian ophiolites 67
The isotopic composition of oceanic mantle and the mantle-crust genetic link: insights from abyssal peridotites and ophiolites. 67
The Erro-Tobbio peridotite: petrological and structural constraints on its evolution 66
The composition of plagioclase as pressure marker of the low-P lithospheric mantle exhumation: a new empirical geobarometer. 66
The long-lived lithospheric evolution of the Erro-Tobbio peridotites (Ligurian Alps, Italy): Insights on diffuse melt migration and melt intrusion at slow spreading extensional settings 66
Development of eclogitic Ti-clinohumite assemblages after hydrothermally altered gabbros 66
Do ophiolites always represent mature oceanic lithosphere? 65
The subsolidus spinel to plagioclase transition in mantle peridotites: natural and experimental constraints 65
Melt impregnation and ol-cumulate intrusion in the ophiolitic peridotites of the Erro-Tobbio Unit (Ligurian Alps, Italy). 65
Evolution of mantle peridotities during passive continental rif¬ting: examples from ancient and present situations 64
Excursion Guide to the Pre-conference field-trip to the Ligurian ophiolites 64
The Ligurian Ophiolites: a journey through the building and evolution of slow spreading oceanic lithosphere 64
Melt-rock reaction in oceanic troctolites (Ligurian ophiolites, Italy) as revealed by trace element chemistry of olivine. 64
Upper mantle evolution during continental rifting and ocean formation: evidences from peridotite bodies of the Western Alpine -Northern Apennine system. 64
Multi-stage melt-rock interaction in the Mt.Maggiore (Corsica, France) ophiolitic peridotites: microstructural and geochemical records 64
The structure and petrology of the Erro-Tobbio peridotite, Voltri Massif, Ligurian Alps. Guidebook for a two-day-excursion with emphasis on processes in the upper mantle. 63
Le peridotiti a plagioclasio di Zabargad (Mar Rosso): petrologia, geochimica ed interpretazione geodinamica. 63
Contrasting bulk and mineral chemistry in depleted peridotites: evidence for reactive porous flow. 63
Petrologia, geochimica e geochimica isotopica delle peridotiti dell’unità Erro-Tobbio (Gruppo di Voltri). 63
Postcumulus processes in oceanic-type olivine-rich cumulates: the role of trapped melt crystallization vs. melt/rock interaction. 63
Geobarometric constraints to low-P evolution of lithospheric mantle. 63
Origin and emplacement of ultramafic and gabbroic intrusions in the Erro-Tobbio mantle peridotite (Ligurian Alps, Italy) 62
Melt-versus fluid-induced metasomatism in spinel to garnet wedge peridotites (Ulten Zone, Eastern Italian Alps):Clues from trace element,Li Be abundances 62
Petrology and geochemistry of the Northern Apennine peridotites 62
High pressure development of Ti-clinohumite-bearing assemblages after hydrothermally metasomatized gabbroic precursors 62
SiO2 and LILE enrichment of the upper mantle via subduction components: insights from the Tallante mantle xenoliths (SE Spain). 62
The trace element chemistry of olivine as proxy of melt-rock reaction in the oceanic lithosphere 62
The composition of plagioclase in mantle peridotites : a geobaromentric marker for lithospheric mantle exhumation. 61
Basaltic dykes from External Ligurides (N.Apennine): contrasting evidences from bulk-rock and cpx geochemistry. 61
Fluid and element cycling during subduction of serpentinite 61
REE geochemistry of mantle minerals from northern Apennine peridotites: petrological and geotec¬tonic implications. EUG VI, 24-28 Marzo 1991, Strasburgo. Terra abstract, 3/1, 461. 61
Sr and Nd isotope geochemistry of the Northern Apennine peridotites: compositional contrasts between oceanic and subcontinental upper mantle 61
The spi¬nel + Ti-pargasite-bearing annealing recrystallization in subcontinental and pre-oceanic rift lherzolites: petrologi¬cal and ion probe mineral geochemistry investigations. 61
Mantle petrology as key to the understanding of oceanic lithosphere formation ; inferences from the Ligurian ophiolites 61
Metasomatism, impregnation and recrystallization in Zabargad peridotites (Red Sea): inference from trace element mineral investigations. 61
“Melt percolation and impregnation in the lithospheric mantle at extensional settings: the ophiolitic peridotites from the Ligurian Tethys”. 61
Totale 8046
Categoria #
all - tutte 19708
article - articoli 14077
book - libri 0
conference - conferenze 5231
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 400
Totale 39416


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2017/20181868 0000 01231 204191 3182201
2018/2019652 214121 4167 167 476200149
2019/20204012 7470217135 323345 748132 267924520257
2020/2021724 37606142 4894 2754 108567958
2021/20222433 2220984432 68186 173501 90225104339
2022/20231178 2639730266 422100 00 0000
Totale 13837