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Abstract

R. Swennen, F. Roure, and J. W. Granath, eds., Deformation, fluid flow, and reservoir appraisal in foreland fold and thrust belts: AAPG Hedberg Series, no. 1, p. 215-243.

Copyright © 2004 by The American Association of Petroleum Geologists.

DOI:10.1306/1025692H13118

Fluid Flow during Paleogene Compression in the Linking Zone Fold and Thrust Belt (Northeast Spain)

Anna Traveacute,1 Francesc Calvet,2ast Ramon Salas,3 Elisabeth Playagrave,4 Eduard Roca5

1Departament de Geoquiacutemica, Petrologia i Prospeccioacute Geologravegica, Facultat de Geologia, Universitat de Barcelona, Barcelona, Spain
2Departament de Geoquiacutemica, Petrologia i Prospeccioacute Geologravegica, Facultat de Geologia, Universitat de Barcelona, Barcelona, Spain
3Departament de Geoquiacutemica, Petrologia i Prospeccioacute Geologravegica, Facultat de Geologia, Universitat de Barcelona, Barcelona, Spain
4Departament de Geoquiacutemica, Petrologia i Prospeccioacute Geologravegica, Facultat de Geologia, Universitat de Barcelona, Barcelona, Spain
5Departament de Geodinagravemica i Geofiacutesica, Facultat de Geologia, Universitat de Barcelona, Barcelona, Spain
astDeceased, January 2002.

ACKNOWLEDGMENTS

The 87Sr/86Sr analyses were carried out at the C.A.I. de Geocronologiacutea y Geoquiacutemica Isotoacutepica of the Universidad Complutense of Madrid, and the Delta18O and Delta13C Previous HitisotopeTop and electron microprobe analyses were carried out at Serveis cientificotegravecnics of the Universitat de Barcelona. This research was realized in the framework of Direccioacuten General de Investigacioacuten del Ministerio de Ciencia y Tecnologiacutea Project BTE 2002 4453-CO2-01 and Grup Consolidat de Recerca Geologia Sedimentaria 2001/SGR/75. We are indebted to R. Swennen, P. Labaume, and M. V. Murgia for their valuable criticism in reviewing the manuscript and their useful comments, which improved the manuscript. We also wish to thank F. Luttikhuizen for the revision of the English version.

ABSTRACT

The Linking Zone (northeast Spain) is a fold and thrust belt that, together with the Catalan Coastal Range and the Iberian Chain, constitutes the southern flank of the Ebro Basin. Compressive deformation occurred during the late Eocene–early Miocene, affecting a Hercynian basement, a Mesozoic cover, and syntectonic Tertiary conglomerates.

The integration of the structural study of the fractures with the petrologic and geochemical study of the cements filling the fractures reveals two episodes of fluid circulation during compressive deformation. The first episode occurred during the early stages of the fold and thrust belt development and includes two different fluids responsible for precipitation of two types of calcite cement. The first type of calcite cement is characterized by Delta18O ranging from minus9 to minus3.8permil Peedee belemnite (PDB), Delta13C ranging from minus5.6 to minus2.6permil PDB, a 87Sr/86Sr ratio of 0.70768, between 440 and 3565 ppm of Mg, between 275 and 720 ppm of Fe, between 180 and 410 ppm of Mn, and Sr content always below 275 ppm (below the detection limit). The fluids precipitating these cements were meteoric fluids that were derived directly from the surface and circulating through the undeformed and highly porous Tertiary syntectonic conglomerates in an open paleohydrogeological system. The second type of calcite cement is characterized by Delta18O ranging from minus10.1 to minus5.4permil PDB, Delta13C ranging from minus7.5 to minus3.5permil PDB, a 87Sr/86Sr ratio ranging between 0.70759 and 0.70778, between 350 and 5150 ppm of Mg, Fe content as much as 11,490 ppm, Mn content below 180 ppm (below the detection limit), and Sr content as much as 795 ppm. The fluid that was precipitating these cements was originally a meteoric fluid that evolved to a formation water composition probably because of a high interaction with Mesozoic rocks. The Triassic shales and evaporites of the detachment levels served as barriers, forcing the fluids to move laterally above them.

The second episode of fluid circulation occurred during the last stages of fold and thrust belt development, after the major uplift of the interior belt and formation of the relief. Two different fluids are recognized during this episode as being responsible for precipitation of two types of calcite cements. The first type of calcite cement is characterized by Delta18O ranging from minus3.4 to minus3.3permil PDB, Delta13C ranging from minus4.0 to minus3.8permil PDB, 87Sr/86Sr ratio of 0.70845, between 475 and 4200 ppm of Mg, Fe always below 275 ppm (below the detection limit), between 180 and 655 ppm of Mn, and between 280 and 850 ppm of Sr. The second type of calcite cement is characterized by Delta18O ranging from minus12.7 to minus8.1permil PDB, Delta13C ranging from minus6.4 to minus3.9permil PDB, a 87Sr/86Sr ratio ranging between 0.70792 and 0.70795, between 260 and 5240 ppm of Mg, Fe content as much as 1155 ppm, Mn content as much as 925 ppm, and Sr content as much as 925 ppm. These two groups of cements that precipitated from meteoric waters evolved to a formation water composition probably because of interaction with Mesozoic and Paleozoic rocks, being the low Delta18O of the second probably because of high temperatures of precipitation.

A late episode of meteoric fluid circulation, occurring during the Tertiary extension, is recorded by the calcite cements filling normal faults, which are characterized by Delta18O ranging from minus9.2 to minus7.6permil PDB, Delta13C ranging from minus2.6 to +1.1permil PDB, 87Sr/86Sr ratio of 0.70788, between 870 and 2695 ppm of Mg, between 470 and 1420 ppm of Mn, and Fe and Sr always below the detection limit, which is 275 ppm for both.

The study of the fluid-flow evolution during the Linking Zone fold and thrust belt development shows that the main factors controlling the fluid-flow dynamics are the existence of a high relief, whereas the host rocks and the type of structure are not important factors.

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