TY - JOUR
T1 - Repeated reactivation of clogged permeable pathways in epithermal gold deposits
T2 - Kestanelik epithermal vein system, NW Turkey
AU - Gülyüz, Nilay
AU - Shipton, Zoe K.
AU - Kusçu, İlkay
AU - Lord, Richard A.
AU - Kaymakcı, Nuretdin
AU - Gülyüz, Erhan
AU - Gladwell, David R.
N1 - Publisher Copyright:
© 2018 The Author(s).
PY - 2018/5/1
Y1 - 2018/5/1
N2 - This study presents a detailed study of the dimensions, geometry, textures and breccias of a well-exposed epithermal vein system, the Kestanelik gold deposit in the Biga Peninsula, NW Turkey, and investigates the permeability enhancement mechanisms in epithermal gold deposits. Here mineralization is associated with quartz veins up to 13.6 m thick. Vein textures and breccia components indicate repeated sealing and subsequent brecciation of wall rock and pre-existing vein infill. Field and petrographic analyses characterize east–west-trending veins as left lateral faults, whereas NE–SW-trending veins are extensional (Mode I) fractures. Cataclasite and tectonic breccia of wall rocks and early quartz, hydrothermal crackle breccias, and matrix-supported chaotic breccias of pre-existing vein infill, all of which are cemented by late iron-oxide-bearing quartz, indicate that co-seismic rupturing and hydraulic fracturing are two major permeability enhancement mechanisms. In addition, transient variations in local stress direction, caused by syn-mineralization dyke intrusion, may have enhanced permeability on misoriented surfaces and at locations where the dip changes. This study emphasizes the importance of understanding structural geology and kinematics as controls on the location of boiling and mineralization mechanisms in epithermal gold deposits.
AB - This study presents a detailed study of the dimensions, geometry, textures and breccias of a well-exposed epithermal vein system, the Kestanelik gold deposit in the Biga Peninsula, NW Turkey, and investigates the permeability enhancement mechanisms in epithermal gold deposits. Here mineralization is associated with quartz veins up to 13.6 m thick. Vein textures and breccia components indicate repeated sealing and subsequent brecciation of wall rock and pre-existing vein infill. Field and petrographic analyses characterize east–west-trending veins as left lateral faults, whereas NE–SW-trending veins are extensional (Mode I) fractures. Cataclasite and tectonic breccia of wall rocks and early quartz, hydrothermal crackle breccias, and matrix-supported chaotic breccias of pre-existing vein infill, all of which are cemented by late iron-oxide-bearing quartz, indicate that co-seismic rupturing and hydraulic fracturing are two major permeability enhancement mechanisms. In addition, transient variations in local stress direction, caused by syn-mineralization dyke intrusion, may have enhanced permeability on misoriented surfaces and at locations where the dip changes. This study emphasizes the importance of understanding structural geology and kinematics as controls on the location of boiling and mineralization mechanisms in epithermal gold deposits.
UR - http://www.scopus.com/inward/record.url?scp=85046399187&partnerID=8YFLogxK
U2 - 10.1144/jgs2017-039
DO - 10.1144/jgs2017-039
M3 - Article
AN - SCOPUS:85046399187
SN - 0016-7649
VL - 175
SP - 509
EP - 524
JO - Journal of the Geological Society
JF - Journal of the Geological Society
IS - 3
ER -