Detail publikace

Hydrogen concentrations and He isotopes in olivine from ultramafic lamprophyres provide new constraints on a wet Tarim plume and Earth's deep water cycle

WANG, C. ZHANG, Z. GIULIANI, A. DEMOUCHY, S. THORAVAL, C. KRMÍČEK, L. BO, H. ZHANG, W. XIA, X.

Originální název

Hydrogen concentrations and He isotopes in olivine from ultramafic lamprophyres provide new constraints on a wet Tarim plume and Earth's deep water cycle

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

Water enters Earth's mantle via subduction of hydrated oceanic slab and largely returns to the ocean-atmosphere system through arc volcanism. However, the extent to which H2O is transferred into the deep mantle is poorly constrained. Here, we address this question by combining mineral chemistry and bulk-rock geochemistry data for aillikites related to the deep mantle plume which generated the Permian Tarim large igneous province (NW China). The water contents of olivine phenocrysts are 75–168 ppm H2O and positively correlated with Ti contents. These results, combined with infrared hydroxyl peaks at 3,572 and 3,525 cm−1, suggest that H is mainly present in the form of Ti-clinohumite-like point defects. Hydrogen concentration profiles across olivine reveal that H loss during decompression was limited to the outermost rims, and yield dehydration durations of 15–417 min. Based on the water contents of the highest-Fo olivine cores, the water contents of the primitive aillikite melts and their mantle source are estimated as 1.6–4.7 wt% and 150–1,200 ppm H2O, respectively. 3He/4He ratios (5.31–5.84 Ra) of olivine phenocrysts are slightly lower than MORBs and suggest involvement of recycled slab containing U (and hence radiogenic 4He) in the plume source. This interpretation is consistent with Pb isotope compositions of the aillikites which are intermediate between PREMA (Prevalent Mantle) and EM (Enriched Mantle) compositions. These lines of evidence combined with the depleted Sr-Nd isotopes and moderately radiogenic Os isotopes of the aillikites suggest that water in these rocks derived from a plume source marginally contaminated by deeply subducted hydrated material.

Klíčová slova

Olivine; Wajilitag aillikites; Hydrogen concentrations; He isotopes

Autoři

WANG, C.; ZHANG, Z.; GIULIANI, A.; DEMOUCHY, S.; THORAVAL, C.; KRMÍČEK, L.; BO, H.; ZHANG, W.; XIA, X.

Vydáno

28. 11. 2022

Nakladatel

Wiley Periodicals LLC

Místo

Hoboken, New Jersey, USA

ISSN

2169-9356

Periodikum

JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH

Ročník

127

Číslo

12

Stát

Spojené státy americké

Strany počet

20

URL

https://doi.org/10.1029/2022JB024961

BibTex

@article{BUT182313,
  author="Changhong {Wang} and Zhaochong {Zhang} and Andrea {Giuliani} and Sylvie {Demouchy} and Catherine {Thoraval} and Lukáš {Krmíček} and Hongze {Bo} and Wanfeng {Zhang} and Xiaoping {Xia}",
  title="Hydrogen concentrations and He isotopes in olivine from ultramafic lamprophyres provide new constraints on a wet Tarim plume and Earth's deep water cycle",
  journal="JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH",
  year="2022",
  volume="127",
  number="12",
  pages="20",
  doi="10.1029/2022JB024961",
  issn="2169-9356",
  url="https://doi.org/10.1029/2022JB024961"
}