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The petrologic and petrochronologic record of progressive vs polyphase deformation: Opening the analytical toolbox

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Oriolo, Sebastian ; Schulz, Bernhard ; Hueck, Mathias ; Oyhantcabal, Pedro ; Heidelbach, Florian ; Sosa, Graciela ; van den Kerkhof, Alfons ; Wemmer, Klaus ; Fossen, Haakon ; Druguet, Elena ; Walter, Jens ; Cavalcante, Carolina ; Siegesmund, Siegfried
Número total de Autores: 13
Tipo de documento: Artigo Científico
Fonte: EARTH-SCIENCE REVIEWS; v. 234, p. 26-pg., 2022-11-09.
Resumo

The concepts of progressive and polyphase deformation have been widely applied by structural geologists to explain complexly deformed rocks, particularly for ductile conditions. Interpreting complex structural patterns as the result of progressive deformation is mainly based on structural and kinematic evidence, applying the Ock-ham's razor principle: single-phase progressive deformation is the simplest and thus most plausible explanation in many cases. Processes such as strain partitioning and localization are commonly considered to explain such patterns. In this contribution, guidelines to distinguish between progressive and polyphase deformation pro-cesses are presented, mainly based on a critical discussion of advantages and pitfalls of P-T-D-X-t (pressure - temperature - deformation - composition - time) data. Such information not only allows for a robust recon-struction on the timing and rates at which deformation operates, but also provides insights into the progressive or polyphase evolution of pressure-temperature conditions and fluid flow. For example, complex structural patterns are common in transpressional and transtensional settings, particularly (but not only) for non-steady progressive deformation, which seems to be the rule in nature. Consequently, assessing the structural and microstructural context is a must, because analytical data commonly record only distinct stages in the protracted evolution of deformation. CPO data are useful to disentangle complex structural histories, particularly in the case of changing deformation mechanisms and related conditions. For petrochronology, it is thus highly relevant to understand equilibrium conditions and mechanisms of intracrystalline deformation and (re)crystallization of dated minerals, in order to properly link the obtained ages with specific deformation stages and mineral reactions. In a similar way, structural facies characterization is critical to interpret geochronologic data linked to ductile and brittle deformation. Though poorly explored, microstructural information of fluid inclusion data is a valuable tool to understand the role of fluids in deformation-assisted settings. The recognition of phases is ultimately related to their tectonic significance and, therefore, may not be easy in cases of overlapping tectonic processes (e.g., subduction during a post-collisional phase) and transitional stages that may not necessarily imply a dramatic change in the deformation pattern (e.g., post-orogenic collapse and intracontinental rifting). (AU)

Processo FAPESP: 19/06838-2 - Zonas de cisalhamento Brasilianas/Pan-Africanas no Cinturão Kaoko e conexões com a América do Sul: evolução Neoproterozoica e reativações fanerozoicas
Beneficiário:Mathias Hueck
Modalidade de apoio: Bolsas no Brasil - Pós-Doutorado