Resolving mantle and crustal contributions to ancient hydrothermal fluids: He---Ar isotopes in fluid inclusions from Dae Hwa W---Mo mineralisation, South Korea

Details Resolving mantle and crustal contributions to ancient hydrothermal fluids: He---Ar isotopes in fluid inclusions from Dae Hwa W---Mo mineralisation, South Korea Resolving mantle and crustal contributions to ancient hydrothermal fluids: He---Ar isotopes in fluid inclusions from Dae Hwa W---Mo mineralisation, South Korea

Nov 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995gecoa..59.4663s&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 59, Issue 22, pp.4663-4673

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9

Scientific paper

Helium and argon isotopes from fluid inclusions in individual colour zones (B, C, D, and E) of a large scheelite crystal from the 88 Ma Dae Hwa W---Mo deposit, South Korea, trace the source and history of the ore fluids. A gradual decrease of the fluid 3 He/ 4 He, 3 He/ 36 Ar, and 40 Ar/ 36 Ar from the core to the edge of the scheelite reflects the progressive dilution of a magmatic fluid by meteoric water and is consistent with the previously observed decrease of 18 O H 2 O and fluid inclusion homogenisation temperatures ( T h ) (Shelton et al., 1987). The covariation of fluid inclusion He---Ar isotope systematics with 18 O and T h defines a magmatic component with 3 He/ 4 He = 1-2 × 10 -6 , 3 He/ 36 Ar > 0.01, and 40 Ar/ 36 Ar > 1000. Anomalously high helium and argon isotope ratios in zone D fluids represents undiluted magmatic noble gases. This may reflect local variation in the magmatic gas flux or gas loss due to boiling of the hydrothermal fluids prior to mixing with magmatic gas. Helium and argon isotope systematics constrain mantle and crustal components in the hydrothermal fluids. 40 Ar/ 3 He (4.5 × 10 4 ) are close to the mid-ocean ridge basalt value, implying that 40 Ar is mantle in origin. Radiogenic isotope ratios of the mantle endmember ( 40 Ar/ 4 He = 0.69 ± 0.06) are similar to contemporary geothermal fluids. The coincidence of mantle-derived He and Ar in the fluids is strong evidence that mantle melting during Late Cretaceous subduction triggered the crystal melting responsible for granite formation. 40 Ar/ 4 He of the meteoric fluid (0.007 ± 0.001) is far lower than the crystal production ratio (0.2) implying an origin in crust below 200°C.

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