2018
DOI: 10.1007/s00410-018-1470-5
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Constraints on the source of Cu in a submarine magmatic-hydrothermal system, Brothers volcano, Kermadec island arc

Abstract: Most magmatic-hydrothermal Cu deposits are genetically linked to arc magmas. However, most continental or oceanic arc magmas are barren, and hence new methods have to be developed to distinguish between barren and mineralised arc systems. Source composition, melting conditions, the timing of S saturation and an initial chalcophile element-enrichment represent important parameters that control the potential of a subduction setting to host an economically valuable deposit. Brothers volcano in the Kermadec island… Show more

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Cited by 35 publications
(21 citation statements)
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References 110 publications
(177 reference statements)
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“…Although orthopyroxene and clinopyroxene coexist in Site U1531 dacites, hornblende was observed in many samples volcano-wide, which indicates relatively low magmatic H 2 O contents (cf. 2-4 wt% H 2 O in Keith et al, 2018). , and more coarse-grained aggregates (~1-2 mm) of plagioclase, clinopyroxene, and Fe-Ti oxide indicate mixing of a more mafic with a more silicic magma to produce the Brothers volcano dacite, which is consistent with observations of dacite from other volcanic arc systems (e.g., Grove et al, 2005;Millet et al, 2014).…”
Section: Discussionsupporting
confidence: 84%
“…Although orthopyroxene and clinopyroxene coexist in Site U1531 dacites, hornblende was observed in many samples volcano-wide, which indicates relatively low magmatic H 2 O contents (cf. 2-4 wt% H 2 O in Keith et al, 2018). , and more coarse-grained aggregates (~1-2 mm) of plagioclase, clinopyroxene, and Fe-Ti oxide indicate mixing of a more mafic with a more silicic magma to produce the Brothers volcano dacite, which is consistent with observations of dacite from other volcanic arc systems (e.g., Grove et al, 2005;Millet et al, 2014).…”
Section: Discussionsupporting
confidence: 84%
“…Syneruptive inputs of magmatic volatiles, fluids and metals into the shallow (~500 m) subseafloor around conduits in deep submarine settings cannot be assigned into classical epithermal or porphyry-style mineralization models (e.g., Large, 1992;Sillitoe and Hedenquist, 2003). Hybrid-styles of epithermalvolcanic-hosted massive sulfide-porphyry deposition have been proposed for both active modern and ancient ore bodies, e.g., Mount Lyell (Yosemite, California; Huston and Kamprad, 2001) and Brothers volcano (South Pacific Ocean; Keith et al, 2018). Greater understanding of these hybrid mineral systems could be attained by geothermal, chemical and hydrological modeling constrained by quantitative information from Havre volcano.…”
Section: Discussionmentioning
confidence: 99%
“…Irrespective of the sources and pathways of the fluids transporting metals to the mineralised zones, the primary bulk metal budget available for mobilisation in the oceanic crust is controlled by magmatic processes (Moss et al 2001;Jowitt et al 2012;Patten et al 2017). Metal behaviour during the magmatic differentiation of supra-subduction zone oceanic crust is strikingly different from MOR settings (Sun et al 2004;Jenner et al 2010;Patten et al 2017;Keith et al 2018). In particular, the exsolution of magmatic fluids during differentiation of volatile-rich suprasubduction magmas can release significant quantities of fluid-mobile metals to the hydrothermal system (Moss et al 2001;Yang and Scott 2002;Sun et al 2004;Keith et al 2018).…”
Section: Metal Behaviour During Magmatic Differentiationmentioning
confidence: 99%
“…Metal behaviour during the magmatic differentiation of supra-subduction zone oceanic crust is strikingly different from MOR settings (Sun et al 2004;Jenner et al 2010;Patten et al 2017;Keith et al 2018). In particular, the exsolution of magmatic fluids during differentiation of volatile-rich suprasubduction magmas can release significant quantities of fluid-mobile metals to the hydrothermal system (Moss et al 2001;Yang and Scott 2002;Sun et al 2004;Keith et al 2018). The high oxygen fugacity of supra-subduction oceanic crust inhibits sulphide saturation of the magma and strongly chalcophile elements including Au, Cu and Se behave as incompatible elements during the early stages of magmatic differentiation (Sun et al 2004;Jugo et al 2009;Jenner et al 2010Jenner et al , 2012Patten et al 2017;Keith et al 2018).…”
Section: Metal Behaviour During Magmatic Differentiationmentioning
confidence: 99%
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