2019
DOI: 10.1029/2018jb017024
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Generation of Archaean TTG Gneisses Through Amphibole‐Dominated Fractionation

Abstract: The early continental crust is characterized by the tonalite-trondhjemite-granodiorite gneisses (TTG) of Archaean terrains. There is a consensus that TTGs were formed by partial melting of hydrated mafic rocks. High-pressure melts tend to be more trondhjemitic with higher Sr/Y ratios due to the presence of garnet and absence of plagioclase, whereas low-pressure melts are more tonalitic with relatively lower Sr/Y ratios. Here we present a geochemical study of diorites, TTGs, and hornblendites from Eastern Hebei… Show more

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Cited by 72 publications
(29 citation statements)
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References 85 publications
(115 reference statements)
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“…This would, of course, depend on the environment, but if there was no external source of P outside the periphery of the volcanic vent, the rate of productivity would be limited by the concentration of phosphorus species in the vent fluids (Hao et al 2020). Figure 8 depicts P-percent weight ratios in Archean carbonate sediments over time and, while levels remain somewhat low, there is a large spike in the maximum concentrations around 3.5 Ga. Hf isotope ( Guitreau et al 2012) and Eu rare earth element (REE) anomalies (Liou et al 2019) also indicate that major crust forming events occurred during this time that would have brought large quantities of phosphorus to the surface. The phosphorus laden igneous rocks would then be weathered, washing large quantities of phosphorus into the ocean (Horton, 2015) thus fertilizing it and possibly driving the sudden "appearance" of photosynthesis~3.5 Ga (Olson et al 2006).…”
Section: The Phosphorus Connection and An Age-old Question Of Evolutionary Biologymentioning
confidence: 99%
“…This would, of course, depend on the environment, but if there was no external source of P outside the periphery of the volcanic vent, the rate of productivity would be limited by the concentration of phosphorus species in the vent fluids (Hao et al 2020). Figure 8 depicts P-percent weight ratios in Archean carbonate sediments over time and, while levels remain somewhat low, there is a large spike in the maximum concentrations around 3.5 Ga. Hf isotope ( Guitreau et al 2012) and Eu rare earth element (REE) anomalies (Liou et al 2019) also indicate that major crust forming events occurred during this time that would have brought large quantities of phosphorus to the surface. The phosphorus laden igneous rocks would then be weathered, washing large quantities of phosphorus into the ocean (Horton, 2015) thus fertilizing it and possibly driving the sudden "appearance" of photosynthesis~3.5 Ga (Olson et al 2006).…”
Section: The Phosphorus Connection and An Age-old Question Of Evolutionary Biologymentioning
confidence: 99%
“…The bulk of HREE-depleted rocks display primitivemantle normalized negative Ta, Nb, and Ti anomalies likely inherited from the primitive magma, i.e., Ta, Nb, and Ti were retained in the source by a Ti bearing residual phase(s). That their REE contents decrease with increasing SiO2 suggests a fractional crystallization process controlled by amphibole and, possibly, apatite [38,39]. The Eu anomaly is influenced by the fractionation and accumulation of feldspar and amphibole, which preferentially incorporate Eu 2+ and Eu 3+ , respectively [40,41].…”
Section: Discussionmentioning
confidence: 99%
“…The major and trace elements content of TTG suites is generally interpreted in terms of depth of partial melting, with the most HREE-depleted and Na-rich magmas produced by higher-pressure melting of the hydrated mafic crust [10]. However, recent studies show that these magmas differentiate significantly upon ascent [39,44]. Thus, the HREE-depleted rocks of the Abitibi Subprovince likely have a homogeneous source, and their noted compositional diversity (e.g., Yb content) is a consequence of lower to upper crustal differentiation-fractional crystallization likely-and is not indicative of a variable depth of partial melting.…”
Section: Discussionmentioning
confidence: 99%
“…A matter raised by the latter models is whether basalts hydrated by sea water can be buried fast enough to produce the H 2 O‐rich source of the TTG suite. Another matter that remains to be investigated is whether tonalites are HREE depleted because they come from the melting of a basaltic source in the stability field of garnet (Moyen & Martin, 2012) or whether the HREE depletion is mostly due to differentiation controlled by amphibole and apatite (Liou & Guo, 2019).…”
Section: Discussionmentioning
confidence: 99%