Tian-Yi Huang scite author profile

Changes in chromium (Cr) isotope ratios due to fractionation between trivalent [Cr(III)] and hexavalent [Cr(VI)] are being utilized by geologists to infer oxygen conditions in past environments. However, there is little information available on Cr in the modern ocean to ground-truth these inferences. Transformations between the two chromium species are important processes in oceanic Cr cycling. Here we present profiles of hexavalent and trivalent Cr concentrations and stable isotope ratios from the eastern tropical North Pacific (ETNP) oxygen-deficient zone (ODZ) which support theoretical and experimental studies that predict that lighter Cr is preferentially reduced in low-oxygen environments and that residual dissolved Cr becomes heavier due to removal of particle-reactive Cr(III) on sinking particles. The Cr(III) maximum dominantly occurs in the upper portion of the ODZ, implying that microbial activity (dependent on the sinking flux of organic matter) may be the dominant mechanism for this transformation, rather than a simple inorganic chemical conversion between the species depending on the redox potential.

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Vanadium isotope composition of seawater

Owens

Huang

et al. 2019

Geochimica et Cosmochimica Acta

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Magnesium isotopic behaviors between metamorphic rocks and their associated leucogranites, and implications for Himalayan orogenesis

et al. 2020

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Potassium isotope fractionation during granitic magmatic differentiation: Mineral-pair perspectives

Huang

Teng²,

Wang³

et al. 2023

Geochimica et Cosmochimica Acta

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Extensive crystal fractionation of high-silica magmas revealed by K isotopes

Wang

Teng

et al. 2022

Sci. Adv.

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Fractional crystallization plays a critical role in generating the differentiated continental crust on Earth. However, whether efficient crystal-melt separation can occur in viscous felsic magmas remains a long-standing debate because of the difficulty in discriminating between differentiated melts and complementary cumulates. Here, we found large (~1 per mil) potassium isotopic variation in 54 strongly peraluminous high-silica (silicon dioxide >70 weight %) leucogranites from the Himalayan orogen, with potassium isotopes correlated with trace elemental proxies (e.g., strontium, rubidium/strontium, and europium anomaly) for plagioclase crystallization. Quantitative modeling requires up to ~60 to 90% fractional crystallization to account for the progressively light potassium isotopic composition of the fractionated leucogranites, while plagioclase accumulation results in enrichment of heavy potassium isotopes in cumulate leucogranites. Our findings strongly support fractional crystallization of high-silica magmas and highlight the great potential of potassium isotopes in studying felsic magma differentiation.

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Tian-Yi Huang

Potassium isotopic compositions of international geological reference materials

Heterogeneous potassium isotopic composition of the upper continental crust

Homogeneous and heavy potassium isotopic composition of global oceans

Trivalent chromium isotopes in the eastern tropical North Pacific oxygen-deficient zone

Vanadium isotope composition of seawater

Magnesium isotopic behaviors between metamorphic rocks and their associated leucogranites, and implications for Himalayan orogenesis

Potassium isotope fractionation during granitic magmatic differentiation: Mineral-pair perspectives

Extensive crystal fractionation of high-silica magmas revealed by K isotopes

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