Precursor and ambient rock paleothermometry to assess the thermicity of burial dolomitization in the southern Cantabrian Zone (northern Spain)

Honlet, R.; Gasparrini, Marta; Jäger, H.; Muchez, Ph.; Swennen, Rudy

doi:10.1007/s00531-017-1541-2

Cited by 6 publications

(5 citation statements)

References 64 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As a result, hypersaline marine‐derived brines infiltrated the subsurface along reactivated Variscan fractures in the Bodón Unit, an important thrust unit in the CZ (Figure ; Julivert, ; Gasparrini, Bechstädt, & Boni, ). These brines were modified through water–rock interactions and the resulting hydrothermal fluids dolomitised Palaeozoic limestones through thermal convection (Gasparrini, Bechstädt et al., ; Honlet, Gasparrini, Jäger, Muchez, & Swennen, in press). Inclusions within the dolomite crystals are two‐phase aqueous with consistent liquid to vapour ratios.…”

Section: Geological Settingmentioning

confidence: 99%

A new approach to geobarometry by combining fluid inclusion and clumped isotope thermometry in hydrothermal carbonates

et al. 2018

Self Cite

View full text Add to dashboard Cite

This study presents a new approach to geobarometry by combining fluid inclusion and clumped isotope (D 47 ) thermometry on carbonate minerals. The offset between homogenisation temperatures of primary fluid inclusions with known composition and D 47 temperatures of the host mineral allows a direct estimation of the fluid pressure at the time of carbonate crystallisation. This new approach is illustrated via hydrothermal dolomite samples from the Variscan foreland fold-and-thrust belt in northern Spain. Clumped isotope analyses yield crystallisation temperatures (107-168°C) which are higher than homogenisation temperatures in corresponding samples (95-145°C). The calculated pressure values suggest that dolomitizing fluids were overpressured during formation of zebra dolomite textures, whereas lower pressures are obtained for dolomite cement from breccia textures. This new approach to geobarometry opens up the possibility of estimating the pressure of carbonate crystallisation and has potential applications in diagenesis, basin analysis, ore geology and tectonics.

show abstract

Section: Geological Settingmentioning

confidence: 99%

A new approach to geobarometry by combining fluid inclusion and clumped isotope thermometry in hydrothermal carbonates

et al. 2018

Self Cite

View full text Add to dashboard Cite

show abstract

“…The presence of igneous rocks at depth in the southern part of the Ponga unit has been suggested by Tornos and Spiro (2000) and by Valín et al (2016) in the Pisuerga-Carrión unit, where small outcrops of intrusive rocks are common. In the La Sobia-Bodón units, south of the León Fault, the positive temperature anomalies broadly correlate with hydrothermal dolostones and ore mineralizations (Honlet et al 2017).…”

Section: Discussion: the Metamorphism Of The Ponga Unit In The Region...mentioning

confidence: 86%

Tectonothermal analysis of a major unit of the Cantabrian Zone: the Ponga unit (Variscan belt, NW Spain)

García-López

Voldman

Bastida

et al. 2018

Int J Earth Sci (Geol Rundsch)

View full text Add to dashboard Cite

The paleothermometric evolution of the Ponga unit at the core of the Cantabrian Zone, the arcuate foreland fold and thrust belt of the Variscan orogen in NW Spain, is analyzed using the conodont Color Alteration Index and the Kübler Index of illite. The results indicate that the distribution of the thermal maturity patterns is independent of the stratigraphy and the structure of the unit. These include the occurrence of dominant diagenetic values and very low-to-low-grade metamorphism in the southern area. The main thermal event is interpreted to be related to hydrothermal fluids ascending through late-Variscan extensional faults. The anomalous high heat flow in the southern sector of the Ponga unit is part of a previously identified large band in the Cantabrian Zone, where the common occurrence of low-grade metamorphic rocks, hydrothermal dolostones, and ore mineralizations is related to an extensional orogenic episode that started near the Carboniferous-Permian boundary, soon after the closure of the Asturian arc.

show abstract

“…13), and by supra-hydrostatic fluid pressures that promote fast advection of hot fluids from the basement in a channelized, highly-fractured and narrow deformation zone (Sibson et al, 1988(Sibson et al, , 1996(Sibson et al, , 2000Renard et al, 2000;Gratier et al, 2002;Beaudoin et al, 2011). This result highlights the importance of combining different methodologies to constrain host rock and faultrelated fluid paleotemperatures (Mamadou et al, 2016;Honlet et al, 2017;Laurent et al, 2017;Wustefeld et al, 2017).…”

Section: Process Zone Temperature Anomalymentioning

confidence: 99%

“…Fluid-rock interactions have been widely studied to better understand fluid migration and accumulation and their effects on compositional, petrophysical and rheological rock modifications during deformation (Nesbitt and Muehlenbachs, 1989;Battles, 1999, Roure et al, 2005;Vilasi et al, 2009;Vandeginste et al, 2012). Textural, geochemical and microthermometric analyses of syntectonic vein cements allow constraint of paleofluid properties, such as their origin, migration pathways, temperature and pressure of crystallization and the local state of stress during deformation (Mullis, 1979(Mullis, , 1987(Mullis, , 1988Carter and Dworkin, 1990;Fisher et al, 1995;Muchez et al, 1995;Milliken et al, 1998;Montomoli et al, 2001;Montomoli, 2002;Clemenzi et al, 2014;Honlet et al, 2017). In particular, when deformation is thick-skinned, regional-scale fault systems with kilometric offsets are characterized by highly-connected fracture networks in their damage zones, which are preferential sites for fluid migration and mixing from the metamorphic basement up to surficial aquifers (Gratier et al, 2002;Beaudoin et al, 2011;Doglioni et al, 2014;Mamadou et al, 2016;Laurent et al, 2017;Wüstefeld et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Seismically enhanced hydrothermal plume advection through the process zone of the Compione extensional Fault, Northern Apennines, Italy

et al. 2018

View full text Add to dashboard Cite

Reconstructing the paleofluid evolution in mature fault zones, which typically have complex structural architectures, is a challenging task because re-activation of pre-existing deformation structures and dissolution-reprecipitation processes are very abundant. Understanding why specific structural elements are preferentially mineralized and what are the factors leading to rapid fluid migration and accumulation, bears geological and economic implications, especially in seismically active fault zones. We studied the Compione Fault on the Tyrrhenian Sea side of the Northern Apennines orogenic wedge, Italy, which is a segment of the 30 km long Northern Lunigiana high-angle extensional fault system still active today. The Compione Fault propagated from the metamorphic basement and accumulated about 1.5 km of displacement. We used structural, petrographic, isotopic, microthermometric, compositional and organic matter analyses to constrain fluid and host rock properties during fault zone evolution. This approach allowed us to quantify the thermal anomaly in the fault zone and to infer the processes responsible for such a disequilibrium. Specifically, we show that in the fault process zone ahead of the upper fault tip, which is twice as wide as the damage zone, seismic pumping caused suprahydrostatic fluid pressures and that local dilation promoted the nucleation of a highly permeable mesh of conjugate extensional shear fractures hosting calc-silicate mineralization. The thermal difference between hydrothermal minerals in the conjugate fracture mesh and the host rock is 60-90 °C. The mineralizing fluids were deeply-sourced from metamorphic reactions. Propagation of the upper fault tip caused process zone folding and incorporation into the fault damage zones. As the upper fault tip breached through shallower structural levels, it favored mixing between deep and meteoric fluids.

show abstract

Precursor and ambient rock paleothermometry to assess the thermicity of burial dolomitization in the southern Cantabrian Zone (northern Spain)

Cited by 6 publications

References 64 publications

A new approach to geobarometry by combining fluid inclusion and clumped isotope thermometry in hydrothermal carbonates

A new approach to geobarometry by combining fluid inclusion and clumped isotope thermometry in hydrothermal carbonates

Tectonothermal analysis of a major unit of the Cantabrian Zone: the Ponga unit (Variscan belt, NW Spain)

Seismically enhanced hydrothermal plume advection through the process zone of the Compione extensional Fault, Northern Apennines, Italy

Contact Info

Product

Resources

About