Stratigraphic evolution of the Triassic–Jurassic succession in the Western Southern Alps (Italy): the record of the two‐stage rifting on the distal passive margin of Adria

Berra, Fabrizio; Galli, Maria Teresa; Reghellin, Federico; Torricelli, Stefano; Fantoni, Roberto

doi:10.1111/j.1365-2117.2008.00384.x

Cited by 47 publications

(81 citation statements)

References 33 publications

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“…It cannot be excluded that a grainsize-age relationship not resolved at the precision of our in situ analyses is also superimposed on these discrete cooling events, adding further complexity to the data. We postulate that the ~175 Ma cooling may be due to rift-related exhumation, which would be consistent with the fact that the ~175 Ma ages coincide with or only slightly postdate the termination of documented rift-related activity of faults and shear zones in the western Southern Alps (Berra et al 2009;Mulch et al 2002a).…”

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 58%

“…These ages cannot therefore be related to exhumation-related cooling and are instead interpreted to record an early post-rift heating-cooling cycle during oceanisation. The ~175 Ma age population coincides with the latest documented stages of activity of rift-related faults (Berra et al 2009) and shear zones (Mulch et al 2002a) within the western termination of the Adriatic margin. As a result, this age population is interpreted to record cooling associated with rift-related exhumation.…”

Section: Discussionmentioning

confidence: 96%

“…Band of crosses marks a period of episodic mantle-derived magmatism and metasomatism (Grieco et al 2001;Lu et al 1997;Mayer et al 2000;Mazzucchelli et al 2010;Morishita et al 2008;Schaltegger et al 2015;Stähle et al 1990;Zanetti et al 2013). Pale blue band marks the period of Tethyan rift-related faulting in the Southern Alps (Berra et al 2009;Bertotti et al 1993); medium blue band marks the timing of movement on the Pogallo shear zone (SZ) (Mulch et al 2002a). Green band delineates the timing of emplacement of the majority of Tethyan oceanic gabbros (Bill et al 1997;Kaczmarek et al 2008;Li et al 2013;Liati et al 2005;Rubatto et al 1998;Rubatto and Scambelluri 2003;Schaltegger et al 2002).…”

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 97%

“…Following the onset of regional extensional faulting in the Lombardian basin, crustal thinning within the Southern Alps was progressively localised in westerly domains (Bertotti et al 1993;Berra et al 2009), eventually culminating in complete crustal excision and regional exhumation Ewing et al (2013). Constraints from U-Pb geochronology of rutile (this study) are shown as red boxes distinguishing the older and younger age populations, for a T C of Pb in rutile (6) determined from experimental diffusion data (Cherniak 2000).…”

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 97%

“…Although the width of the sampling area is limited by the original occurrence and preservation of rutile, the studied samples span a distance between 1.5 and 5.0 km from the Insubric line, indicating that cooling occurred contemporaneously (within error) across different former crustal depths. Secondly, within the IVZ, the latest activity of ductile shear zones is constrained to the Lower Jurassic, at ~182 Ma (Mulch et al 2002a), while normal faulting in the neighbouring westernmost Serie dei Laghi is constrained to the Pliensbachian-Toarcian (Berra et al 2009). All documented riftrelated fault activity thus pre-dates our U-Pb rutile ages by ~15 Ma, suggesting that cooling through 550-650 °C at ~160 Ma cannot be associated with rift-related exhumation.…”

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 98%

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Constraints on the thermal evolution of the Adriatic margin during Jurassic continental break-up: U–Pb dating of rutile from the Ivrea–Verbano Zone, Italy

Ewing

Rubatto

Beltrando

et al. 2015

Contrib Mineral Petrol

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documented along the western margin of the Adriatic plate. The ~160 Ma age population postdates the activity of all known rift-related structures within the Adriatic margin, but coincides with extensive gabbroic magmatism and exhumation of sub-continental mantle to the floor of the Alpine Tethys, west of the Ivrea Zone. We propose that this ~160 Ma early post-rift age population records regional cooling following episodic heating of the distal Adriatic margin, likely related to extreme lithospheric thinning and associated advection of the asthenosphere to shallow levels. The partial preservation of the ~175 Ma age cluster suggests that the post-rift (~160 Ma) heating pulse was of short duration. The regional consistency of the data presented here, which is in contrast to many other thermochronometers in the IVZ, demonstrates the value of the rutile U-Pb technique for probing the thermal evolution of high-grade metamorphic terrains. In the IVZ, a significant decoupling between Zr-in-rutile temperatures and U-Pb ages of rutile is observed, with the two systems recording events ~120 Ma apart.

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Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 58%

Section: Discussionmentioning

confidence: 96%

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 97%

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 97%

Section: Constraints On the Permian To Jurassic Thermal Evolution Of mentioning

confidence: 98%

See 3 more Smart Citations

Constraints on the thermal evolution of the Adriatic margin during Jurassic continental break-up: U–Pb dating of rutile from the Ivrea–Verbano Zone, Italy

Ewing

Rubatto

Beltrando

et al. 2015

Contrib Mineral Petrol

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A crustal‐scale view at rift localization along the fossil Adriatic margin of the Alpine Tethys preserved in NW Italy

et al. 2015

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Fossil rifted margins, whereby originally extended continental crust is subsequently stacked in orogenic belts, provide the opportunity to track rift-related tectonics across different crustal levels. In this study, the tectonothermal evolution of the fossil Adriatic continental margin, sampled in the Italian Southern Alps, is investigated combining new (U-Th)/He zircon (ZHe) thermochronology from upper crustal rocks with existing data from the originally underlying lower crust, to shed light on the processes responsible for rift localization in the Alpine Tethys system. The Adriatic microplate records a protracted rift evolution, whereby distributed upper crustal stretching at 245-190 Ma was followed by rift localization along its future western edge, culminating in mantle exhumation at 165-160 Ma. A progressive westward younging of ZHe ages, from 280-240 Ma in the Lombardian Basin to 215-200 Ma near the Sostegno and Fenera Basins, indicates that anomalously high thermal gradients were established in the Late Triassic in the area where rifting later localized. The inferred episodic heating was contemporaneous with protracted fluid flow, minor magmatism, and ductile shearing within the originally underlying lower crust. Subsequent normal faulting was initiated post-185 Ma, as constrained by exhumation-related ZHe ages in detrital zircons from a syntectonic sandstone. The spatial distribution of the detected heating-cooling cycle suggests that rift localization along the western edge of the Adriatic Plate was probably favored by a crustal-scale thermal anomaly, established at 215-210 Ma, followed by thermal decay by 200-190 Ma. Subsequent crust-wide extension, starting at 185-180 Ma, led to excision of continental crust and mantle exhumation.

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Architecture of the Distal Piedmont‐Ligurian Rifted Margin in NW Italy: Hints for a Flip of the Rift System Polarity

et al. 2017

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The Alpine Tethys rifted margins were generated by a Mesozoic polyphase magma‐poor rifting leading to the opening of the Piedmont‐Ligurian “Ocean.” This latter developed through different phases of rifting that terminated with the exhumation of subcontinental mantle along an extensional detachment system. At the onset of simple shear detachment faulting, two margin types were generated: an upper and a lower plate corresponding to the hanging wall and footwall of the final detachment system, respectively. The two margin architectures were markedly different and characterized by a specific asymmetry. In this study the detailed analysis of the Adriatic margin, exposed in the Serie dei Laghi, Ivrea‐Verbano, and Canavese Zone, enabled to recognize the diagnostic elements of an upper plate rifted margin. This thesis contrasts with the classic interpretation of the Southalpine units, previously compared with the adjacent fossil margin preserved in the Austroalpine nappes and considered as part of a lower plate. The proposed scenario suggests the segmentation and flip of the Alpine rifting system along strike and the passage from a lower to an upper plate. Following this interpretation, the European and Southern Adria margins are coevally developed upper plate margins, respectively resting NE and SW of a major transform zone that accommodates a flip in the polarity of the rift system. This new explanation has important implications for the study of the pre‐Alpine rift‐related structures, for the comprehension of their role during the reactivation of the margin and for the paleogeographic evolution of the Alpine orogen.

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Stratigraphic evolution of the Triassic–Jurassic succession in the Western Southern Alps (Italy): the record of the two‐stage rifting on the distal passive margin of Adria

Cited by 47 publications

References 33 publications

Constraints on the thermal evolution of the Adriatic margin during Jurassic continental break-up: U–Pb dating of rutile from the Ivrea–Verbano Zone, Italy

Constraints on the thermal evolution of the Adriatic margin during Jurassic continental break-up: U–Pb dating of rutile from the Ivrea–Verbano Zone, Italy

A crustal‐scale view at rift localization along the fossil Adriatic margin of the Alpine Tethys preserved in NW Italy

Architecture of the Distal Piedmont‐Ligurian Rifted Margin in NW Italy: Hints for a Flip of the Rift System Polarity

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