The Position of Gas Hydrates in the Sedimentary Strata and in the Geological Structure of Lake Baikal

The paper presents the results of the study of communities of macroinvertebrates and cottoid fish inhabiting methane seeps of Lake Baikal. For the analysis, we used video surveillance and collection of animals carried out with the help of "Mir" deep-water submersible, as well as NIOZ-type box-corer samplers from the board of a research vessel. Posolskaya Bank and Saint Petersburg methane seeps are located in different basins (southern and middle) and at different depths (300–500 m and ~ 1400 m), characterized by the different underwater landscapes (slope of underwater upland and hills formed by gas hydrates), by the structure of gas hydrates and their depth location in sediments, as well as the composition of microbial mats and communities of microorganisms of bottom sediments. Both seeps are characterized by bubble discharge of methane gas and the formation of highly productive communities of large invertebrates and cottoid fish on seep habitats. Seep animal communities consisted of species-depleted invertebrates and fish of the surrounding deep-water benthal of the Lake. We showed the similarities and differences in the composition of the faunas of two seeps, as well as the quantitative characteristics of taxonomic groups of macroinvertebrates and cottoid fishes. Obligate species have not been revealed on the methane seep Posolskaya Bank. For the methane seep Saint Petersburg, the gastropod species Kobeltocochlea tamarae Sitnikova, Teterina et Maximova, 2021 (Caenogastropoda: Benedictiidae) was designated as an obligate species; among bottom cottoid fishes, Neocottus werestschagini (Taliev, 1953) (Cottoidei: Abyssocottidae) had possible a transitional state to obligate. We presented the data on the assimilation by seep animals of mixed photo- and chemosynthetic food with different proportions of methane-derived carbon. A hypothesis has been substantiated that deep-water seep areas could serve as refugium for the preservation of endemic fauna during the Pliocene-Pleistocene glaciations of Lake Baikal.

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The impact of faulting on the stability conditions of gas hydrates in Lake Baikal sediments

Izvestiya Physics of the Solid Earth ◽

10.1134/s106935131404003x ◽

2014 ◽

Vol 50 (4) ◽

pp. 528-542

Author(s):

A. Ya. Golmshtok

Keyword(s):

Lake Baikal ◽

Gas Hydrates ◽

Stability Conditions ◽

The Stability ◽

The Impact

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Coexistence of structure I and II gas hydrates in Lake Baikal suggesting gas sources from microbial and thermogenic origin

Geophysical Research Letters ◽

10.1029/2006gl028296 ◽

2006 ◽

Vol 33 (24) ◽

Cited By ~ 51

Author(s):

Masato Kida ◽

Oleg Khlystov ◽

Tamara Zemskaya ◽

Nobuo Takahashi ◽

Hirotsugu Minami ◽

...

Keyword(s):

Lake Baikal ◽

Gas Hydrates

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Structures in Shallow Marine Sediments Associated with Gas and Fluid Migration

Journal of Marine Science and Engineering ◽

10.3390/jmse9040396 ◽

2021 ◽

Vol 9 (4) ◽

pp. 396

Author(s):

Gongzheng Ma ◽

Linsen Zhan ◽

Hailong Lu ◽

Guiting Hou

Keyword(s):

Marine Sediments ◽

Gas Hydrates ◽

Fluid Pressure ◽

Geological Structure ◽

Salt Diapir ◽

Formation Mechanisms ◽

Hydrocarbon Gases ◽

Factors Affecting ◽

Shallow Marine ◽

Shallow Marine Sediments

Geological structure changes, including deformations and ruptures, developed in shallow marine sediments are well recognized but were not systematically reviewed in previous studies. These structures, generally developed at a depth less than 1000 m below seafloor, are considered to play a significant role in the migration, accumulation, and emission of hydrocarbon gases and fluids, and the formation of gas hydrates, and they are also taken as critical factors affecting carbon balance in the marine environment. In this review, these structures in shallow marine sediments are classified into overpressure-associated structures, diapir structures and sediment ruptures based on their geometric characteristics and formation mechanisms. Seepages, pockmarks and gas pipes are the structures associated with overpressure, which are generally induced by gas/fluid pressure changes related to gas and/or fluid accumulation, migration and emission. The mud diapir and salt diapir are diapir structures driven by gravity slides, gravity spread and differential compaction. Landslides, polygonal faults and tectonic faults are sediment ruptures, which are developed by gravity, compaction forces and tectonic forces, respectively. Their formation mechanisms can be attributed to sediment diagenesis, compaction and tectonic activities. The relationships between the different structures, between structures and gas hydrates and between structures and authigenic carbonate are also discussed.

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