ESTIMATION OF METHANE FLOW FROM THE BOTTOM OF THE KARA SEA-Reference-Cited by-同舟云学术

ESTIMATION OF METHANE FLOW FROM THE BOTTOM OF THE KARA SEA

Published:2023-09-01 Issue:1 Volume:512 Page:138-142
ISSN:2686-7397
Container-title:Доклады Российской академии наук. Науки о Земле
language:
Short-container-title:Doklady Rossijskoj akademii nauk. Nauki o Zemle

Author:

Voropaev S. A.¹,Sevastyanov V. S.¹,Dushenko N. V.¹,Bryukhanov A. L.¹²

Affiliation:

1. Vernadsky Institute of Geochemistry and Analytical Chemistry, Russian Academy of Sciences

2. Lomonosov Moscow State University

Abstract

During the expedition on the R/V “Akademik Mstislav Keldysh” (81st cruise) in 2020, extensive material was selected, representing columns of bottom sediments up to 6 meters deep in the Kara Sea. After lithological description of the columns, sediment samples were taken from different horizons for degassing of pore gases. The extracted gas samples were analyzed for the content of the main gases – methane (CH4), carbon dioxide (CO2) and light hydrocarbons. The characteristic features of CH4 and CO2 content changes with depth of bottom sediment at station 6879 (Kara Sea shelf) were studied. A model of gas diffusion was constructed taking into account the biochemical reactions of methanogenesis and methane oxidation. The rate of methane formation can be estimated by the value J ≈ 3 × 10–10 μg sec–1 L–1 (per liter of sediment). The rate coefficient of methane consumption by microorganisms is K ≈ 0.5 × 10–10 sec–1. The methane flux from the bottom surface of the Kara Sea near station 6879 is q ≈ 3.47 × 10–2 μL m–1 year–1.

Publisher

The Russian Academy of Sciences

Reference15 articles.

1. Etheridge, D.M., Steele L.P., Francey R.J., Langenfields R.L. Atmospheric methane between 1000 A.D. and present: evidence of anthropogenic emissions and climatic variability // Journal of Geophysical Research. 1998. V. 103. № D13. P. 15979–15993.

2. Галимов Э.М., Кодина Л.А., Степанец О.В., Коробейник Г.С. Биогеохимия Российской Арктики. Карское море. Результаты исследований по проекту SIRRO 1995–2003 гг. // Геохимия. 2006. № 11. С. 1139–1191.

3. Вержбицкий В.Е., Косенкова Н.Н., Ананьев В.В., Малышева С.В., Васильев В.Е., Мурзин Р.Р., Комиссаров Д.К., Рослов Ю.В. Геология и углеводородный потенциал Карского моря // Oil & Gas Journal Russia. 2012. № 1–2. С. 48–54.

4. Богоявленский В.И., Казанин А.Г., Кишанков А.В., Казанин Г.А. Дегазация Земли в Арктике: комплексный анализ факторов мощной эмиссии газа в море Лаптевых // Арктика: экология и экономика. 2021. Т. 11. № 2. С. 178–194.

5. Севастьянов В.С., Федулова В.Ю., Кузнецова О.В., Наймушин С.Г., Душенко Н.В., Федулов В.С., Кривенко А.П., Малова А.И., Ткаченко Е.А. Особенности распределения СН4 и СО2 в осадках Арктических морей // Геохимия. 2023. Т. 68. № 2. С. 163–172.