GSA Annual Meeting in Phoenix, Arizona, USA - 2019

Paper No. 100-5
Presentation Time: 9:00 AM-6:30 PM

GEOLOGY AND ALTERATION OF WALL ROCKS OF THE LATE JURASSIC-EARLY CRETACEOUS SAN NICOLÁS VMS DEPOSIT (SOUTHERN ZACATECAS, MEXICO)


VASSALLO, L.F., Centro de Geociencias, Universidad Nacional Autónoma de México, Campus Juriquilla, A.P. 1-742, Querétaro, 76000, Mexico

San Nicolás is a Late Jurassic-Early Cretaceous, stratiform Zn-Cu-Ag-Au-massive sulfide deposit located in central Mexico, with a total resource of 99 Mt of ore grading 1.36 percent Cu, 1.64 percent Zn, 0.41 g/t Au and 24 g/t Ag. The host-rock succession consists of variably altered rhyolite lava dome in the hanging wall and a basalt-dacite-dominated volcano-sedimentary sequence in the foot wall, 148.9 to 117.94 Ma. The sulfide deposit and hosting volcanic sequence were metamorphosed under lower greenschist facies.

A laterally continuous footwall alteration zone extends beneath the entire district (~80 km2) and to a stratigraphic level down least 200 m below the ore lenses. The bulk of this zone is occupied by feldspar-destructive, muscovite-biotite-chlorite-rich, mottled alteration facies with disseminated pyrite. The fault zone with intense quartz-pyrite alteration represents the principal fluid pathway during mineralizing hydrothermal activity. Locally, quartz-K feldspar alteration facies exist on the fringes of the system, and calcareous alteration and chlorite-pyrite alteration facies occur in the upper part of footwall volcanics, next to sulfide lenses. Porphyritic basalts, pillow lavas and volcanic breccias in the hanging wall are unaltered or weakly altered.

Calcareous alteration (formation of dolomite and/or ankerite) probably represents the initial phase of hydrothermal activity. This was followed by diffuse upwelling of acidic hydrothermal fluids causing dissolution of underling limestones and destruction of primary feldspars, precipitation of pyrite, and formation of sericite, chlorite, and clay minerals. Subsequently, intense quartz-pyrite alteration was directly associated with mineralization.

The San Nicolás footwall alteration zone has systematic geochemical changes with increasing proximity to the ore bodies. These include Na depletion and elevated Mg, S, AI, CCPI, Mo, Bi, and As. There are distinctive petrochemical differences between pre and post ore at San Nicolás felsic volcanic rocks. Based on our preliminary study, the pre-San Nicolás deposit rhyolitic rocks are rich in some incompatible elements such as Nb, Ce, Y, and Zr. The rare earth elements provide a useful geochemical index for the exploration of Mesozoic submarine massive sulfide ore deposits of central Mexico such as the San Nicolás VMS-type deposits.