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XIE, Q. ZHANG, Z. FOLEY, S.F. CHEN, C. CHENG, Z. WANG, Y. KONG, W. LV, Y. SANTOSH, M. JIN, Q. KRMÍČEK, L. ZHU, X.
Original Title
Transition from tholeiitic to alkali basalts via interaction between decarbonated eclogite-derived melts and peridotite
Type
journal article in Web of Science
Language
English
Original Abstract
Intraplate basalts generally show a geochemical continuum from alkali to tholeiitic basalts. However, the genetic link between these two types of rocks has remained controversial. The Early Jurassic Karamay basalts in the West Junggar terrane, southern Central Asian Orogenic Belt (CAOB), erupted to form a small-volume outcrop in the stable continental intraplate region. The basalts are characterized by aphyric textures without any visible phenocrysts. Thus, they are different from the ubiquitous porphyritic-textured intraplate basalts and have a composition close to that of the mantle-derived primary melt. In contrast to chemically and petrographically well-defined alkali and tholeiitic basalts, the Karamay basalts exhibit transitional compositions spanning from alkali (with normative olivine+nepheline and normative olivine+hypersthene) to tholeiitic (with normative quartz+hypersthene), providing an important case to address the geochemical continuum of intraplate basalts. Similar to the alkali basalts in eastern China, the Karamay basalts have isotopic imprints of sedimentary carbonates, i.e., significantly lighter Mg (δ26Mg = −0.54‰ to −0.34‰) and heavier Zn (δ66Zn = 0.36–0.46‰) isotopes than the normal mantle. However, they display initial ((87Sr/86Sr)t ratios of 0.7047–0.7051, positive εNd(t) values (3.3–4.2) and positive anomalies of Nb-Ta-Ti-Zr-Hf, which are not expected in the case of incorporation of recycled carbonates. This contradiction can be reconciled by considering a decarbonation reaction between carbonates (i.e., dolomite and magnesite) and co-existing eclogite in the subducted oceanic slab at pressure >5 GPa, leaving light Mg and heavy Zn isotope signatures in the stagnant eclogite residue in the deep mantle. Combining the geochemical compositions of our samples with the geologic evidence, and considering the previous results of melt-peridotite reaction experiments, we conclude that the Karamay basalts might have originated from the interaction of silica-rich tholeiitic melt derived from the recycled decarbonated eclogite with fertile peridotite during its ascent. Our study highlights that intraplate alkali basalts, especially silica-rich ones (e.g., with SiO2>45 wt.%), can be transformed from tholeiitic melts through reaction with peridotite mantle, and demonstrates that deeply recycled oceanic crust stagnated in mantle can serve as a main source for alkaline lavas.
Keywords
Intraplate basalts; Geochemical continuum; Decarbonation reaction; Melt-peridotite interaction; Mg-Zn isotopes
Authors
XIE, Q.; ZHANG, Z.; FOLEY, S.F.; CHEN, C.; CHENG, Z.; WANG, Y.; KONG, W.; LV, Y.; SANTOSH, M.; JIN, Q.; KRMÍČEK, L.; ZHU, X.
Released
29. 3. 2023
Publisher
ELSEVIER
Location
NETHERLANDS
ISBN
0009-2541
Periodical
CHEMICAL GEOLOGY
Year of study
621
Number
3
State
Kingdom of the Netherlands
Pages count
20
URL
https://www.sciencedirect.com/science/article/abs/pii/S0009254123000542
BibTex
@article{BUT183209, author="Qiuhong {Xie} and Zhaochong {Zhang} and Stephen F. {Foley} and Chunfei {Chen} and Zhiguo {Cheng} and Yu {Wang} and Weiliang {Kong} and Yiwen {Lv} and Ma {Santosh} and Qizhen {Jin} and Lukáš {Krmíček} and Xiangkun {Zhu}", title="Transition from tholeiitic to alkali basalts via interaction between decarbonated eclogite-derived melts and peridotite", journal="CHEMICAL GEOLOGY", year="2023", volume="621", number="3", pages="20", doi="10.1016/j.chemgeo.2023.121354", issn="0009-2541", url="https://www.sciencedirect.com/science/article/abs/pii/S0009254123000542" }