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In situ Raman quantitative detection of methane concentrations in deep‐sea high‐temperature hydrothermal vent fluids

Lianfu Li, Xin Zhang, Zhendong Luan, Zengfeng Du, Shichuan Xi, Bing Wang, Lei Cao, Chao Lian, Jun Yan

2020Journal of Raman Spectroscopy18 citationsDOIOpen Access PDF

Abstract

Abstract Raman spectroscopy is an ideal approach for measuring methane concentrations in deep‐sea high‐temperature hydrothermal vent fluids due to its advantages of being nondestructive and noninvasive and not requiring sample pretreatment. However, no application of Raman spectroscopy in the measurement of hydrothermal methane has yet been reported because of the lack of Raman quantitative calibration models for CH 4 suitable for hydrothermal fluid detection and available for deep‐sea in situ Raman experiments. In this study, a new Raman quantitative calibration model suitable for hydrothermal fluid detection was established with the linear equation = (2.61E‐3 ± 8.52E‐6) × , where is the peak area ratio of CH 4 and H 2 O and is the concentration of dissolved CH 4 in mmol/kg. In situ Raman spectra of deep‐sea hydrothermal fluids were acquired using an adapted deep‐sea in situ Raman spectrometer, Raman insertion probe (RiP) system, and then the methane concentrations were determined based on the quantitative calibration model for CH 4 . The concentrations of methane measured by RiP are approximately 1.5–4.0 times higher than those derived from the gas‐tight samples collected simultaneously at the same vents, which indicates that the amount of methane released from the hydrothermal system has probably been underestimated.

Topics & Concepts

Raman spectroscopyHydrothermal circulationMethaneHydrothermal ventDeep seaAnalytical Chemistry (journal)In situCalibrationChemistryMineralogyMaterials scienceGeologyEnvironmental chemistryOceanographyOpticsOrganic chemistryPhysicsSeismologyQuantum mechanicsMethane Hydrates and Related PhenomenaAtmospheric and Environmental Gas DynamicsHydrocarbon exploration and reservoir analysis
In situ Raman quantitative detection of methane concentrations in deep‐sea high‐temperature hydrothermal vent fluids | Litcius