Investigation of Submarine Permafrost Conditions in the Canadian Beaufort Sea Using Diving Wave Tomography

IF 3.9 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Journal of Geophysical Research: Solid Earth Pub Date : 2025-04-10 DOI:10.1029/2024JB029955

H. Grob, D. Klaeschen, M. Riedel, S. Krastel, M. J. Duchesne, J. Bustamante, G. Fabien-Ouellet, Y. K. Jin, J. K. Hong

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Abstract

Submarine permafrost in the Canadian Beaufort Sea is relict terrestrial permafrost, which is continuously degrading since the change of thermal conditions induced by a marine transgression that followed the last glaciation. Permafrost degradation has a crucial socio-ecological significance because its thawing can result in geohazards like landslides or an increase in greenhouse gas emissions. These consequences are mostly regulated by the state of ice in permafrost. In this study, we use marine multichannel seismic data to apply a diving wave tomographic inversion on the outer 50 km of the Canadian Beaufort Shelf. Due to the close relationship between seismic velocity and ice content, we are able to infer detailed information about the present submarine permafrost condition. We find a clear variability of permafrost occurrences between the inner and outer Canadian Beaufort Shelf. At the inner shelf, discontinuous ice-bonding permafrost occurs extensively close to the seafloor but is interrupted by taliks. Within the outer ∼27 km of the shelf, ice-bonding permafrost is absent in the upper sediments and its top has plunged to >200 m below sea level. These findings add new details to the current state of the degrading permafrost. In addition, we observe seismic anisotropy in the frozen permafrost sediments.

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利用潜水波断层扫描研究加拿大波弗特海的海底冻土层状况

加拿大波弗特海的海底永久冻土带是残留的陆地永久冻土带，由于末次冰期后海侵引起的热条件变化而不断退化。永久冻土退化具有重要的社会生态意义，因为它的融化会导致山体滑坡或温室气体排放增加等地质灾害。这些后果主要是由永久冻土中的冰的状态控制的。在这项研究中，我们利用海洋多道地震资料，对加拿大波弗特大陆架外50公里进行了潜水波层析反演。由于地震速度与冰含量之间的密切关系，我们能够推断出目前海底永久冻土状况的详细信息。我们发现加拿大波弗特大陆架内外之间的永久冻土带发生了明显的变化。在内大陆架，不连续的冰结合永久冻土层广泛地出现在靠近海底的地方，但被冰架所打断。在冰架外部~ 27公里的范围内，上部沉积物中没有冰结合的永久冻土，其顶部已下降到海平面以下200米。这些发现为永冻土退化的现状增添了新的细节。此外，我们还观察了冻土沉积物的地震各向异性。

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来源期刊

Journal of Geophysical Research: Solid Earth Earth and Planetary Sciences-Geophysics

CiteScore

7.50

自引率

15.40%

发文量

559

期刊介绍： The Journal of Geophysical Research: Solid Earth serves as the premier publication for the breadth of solid Earth geophysics including (in alphabetical order): electromagnetic methods; exploration geophysics; geodesy and gravity; geodynamics, rheology, and plate kinematics; geomagnetism and paleomagnetism; hydrogeophysics; Instruments, techniques, and models; solid Earth interactions with the cryosphere, atmosphere, oceans, and climate; marine geology and geophysics; natural and anthropogenic hazards; near surface geophysics; petrology, geochemistry, and mineralogy; planet Earth physics and chemistry; rock mechanics and deformation; seismology; tectonophysics; and volcanology. JGR: Solid Earth has long distinguished itself as the venue for publication of Research Articles backed solidly by data and as well as presenting theoretical and numerical developments with broad applications. Research Articles published in JGR: Solid Earth have had long-term impacts in their fields. JGR: Solid Earth provides a venue for special issues and special themes based on conferences, workshops, and community initiatives. JGR: Solid Earth also publishes Commentaries on research and emerging trends in the field; these are commissioned by the editors, and suggestion are welcome.