Your search keyword '"seep"' showing total 9 results

1. Editorial: From cold seeps to hydrothermal vents: geology, chemistry, microbiology, and ecology in marine and coastal environments.

Author

Snyder, Glen T., Thurber, Andrew R., Dupré, Stéphanie, Ketzer, Marcelo, and Ruppel, Carolyn D.

Subjects

COLD seeps, RARE earth metals, DISSOLVED organic matter, CHEMICAL processes, MUD volcanoes, MID-ocean ridges, DIAPIRS, SUBMARINE volcanoes

Abstract

The article in the journal "Frontiers in Earth Science" explores contemporary studies on cold seeps, hydrothermal vents, mud volcanoes, and related seafloor features. These features provide insights into deep processes that are typically inaccessible to scientists. The research emphasizes multidisciplinary approaches to studying seafloor fluid emissions, highlighting the importance of geologic, physical, chemical, and biological processes in these environments. The studies cover a wide range of topics, including microbial processes, fluid dynamics, mineralization, and the role of seafloor emissions in global biogeochemical cycles. [Extracted from the article]

Published

2024

2. Sleep, Sleep Disorders, and Mental Health: A Narrative Review

Author

Nathan E. Howarth and Michelle A. Miller

Subjects

cardiovascular diseases, depression, mental health, seep, sleep disorders, sleep wake disorders, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Evidence suggests that sleep is a vital component of physical and health well-being. However, while sleep problems are present in individuals with mental health problems such as depression, it has not been clear whether these conditions are independent or whether they might be causally related. Indeed, if sleep or sleep disorders predispose or modify onset and outcomes of mental health issues, treatment of these factors could be explored as new mental health prevention or treatment options. The aim of this review was to examine in detail the bidirectional relationship between sleep, sleep disorders, and mental and physical health and well-being. It has considered the evidence that sleep architecture disruption, occurring through both quantity, quality, and timing of sleep as well as through the presence of sleep disorders may both influence mental health and well-being as well as be disrupted by both physical and mental health conditions. Also, the review has explored the effects of sleep disruption on mental health and performance through fatigue, mood, and vigilance. The review has considered the bidirectionality between sleep, sleep disorders, and mental health to examine how these may lead to or exacerbate mental health disorders such as affective, anxiety, autism, depressive and schizophrenia disorders but also considers how these conditions can affect sleep. The review highlights that poor sleep or the presence of a sleep disorder can increase the risks from mental health conditions such as suicidality. Furthermore, mental health conditions such as anxiety and worry can cause racing or repetitive thoughts that can keep an individual awake, leading to shortened sleep. It is important that sleep and sleep disorders are considered potential modifiable factors that could improve mental health outcomes. The important interconnect between both physical and mental health and sleep, in patient evaluations, also needs to be considered as these may affect treatment pathways and patient outcomes. Further, more robust and perspective research is required to establish the triad relationship of physical, mental health, and sleep.

Published

2024

3. Application of Low-Frequency Acoustic Signals to Study Underwater Gas Seepage.

Author

Kosteev, D. A., Bogatov, N. A., Ermoshkin, A. V., Kapustin, I. A., Molkov, A. A., Razumov, D. D., and Salin, M. B.

Subjects

*UNDERWATER acoustics, *BOUNDARY element methods, *SOUND wave scattering, *GAS hydrates, *REMOTE sensing, *GAS seepage, *SEEPAGE

Abstract

Remote sensing of seeps, the release of gas (mainly methane) from the seabed, is an urgent problem. The importance of detecting seeps in the Arctic shelf zone is constantly increasing due to degradation of underwater permafrost and the release of gas hydrates. Gas bubbles scatter underwater sound and their corresponding resonance frequencies are in the kilohertz range for seeps observed in nature. A promising method for detecting and studying seeps is probing with underwater sound near the denoted resonance frequency. This corresponds to a decrease in the operating frequency with respect to the traditional method of studying high-frequency sonars, so the proposed method will be classified as low-frequency in this study. This method expands the study area due to the low sound attenuation in water and the high scattering level near bubble resonances. The scattering strength was estimated taking into account collective interaction (group effects) of bubbles. The possibility of using low-frequency hydroacoustic systems to detect seeps is demonstrated using the results of a full-scale experiment using a simulated bubble jet as an example. A data processing method for detecting nonstationary scatterers is proposed. [ABSTRACT FROM AUTHOR]

Published

2024

4. Serpentinite‐hosted chemosynthetic community of South Chamorro Seamount, Mariana Forearc.

Author

Chen, Chong, Watanabe, Hiromi Kayama, Sawada, Hikaru, Iwamoto, Hisanori, and Takai, Ken

Subjects

*MUD volcanoes, *COLONIES (Biology), *MOLLUSKS, *CLAMS, *SUPPLY & demand

Abstract

Deep‐sea chemosynthetic ecosystems are 'oases' of life powered by reducing geofluids, of which serpentinite‐hosted seeps are among the least studied. South Chamorro Seamount, a serpentine mud volcano on the Mariana Arc, has been known to host chemosynthesis‐based assemblages since 1996, but no detailed information on the fauna was published. Here, we revisited South Chamorro to characterise its biodiversity. We located two regions of chemosynthetic communities dominated by bathymodioline mussels, vesicomyid clams, and chaetopterid parchment worms: one on the northwestern flank ('Fryer Site') and one on the southern summit ('Summit Site'). We sampled a total of 20 species including 13 molluscs, five annelids, and two crustaceans – all present on the more active Summit Site but only a subset being found at Fryer Site. A mussel bed surrounding the Fryer Site was drilled by the Ocean Drilling Program in 2001 resulting in six holes, the deepest being 266 m (Hole 1200C). Cuttings ~50 cm deep still cover an approximately 60 m radius around Hole 1200C even 22 years later, and there is no sign of recovery. Low geofluid supply in serpentinite‐hosted seamounts may not allow decadal recovery of animal colonies, unlike a previous drilling site in an Okinawa Trough vent. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sleep, Sleep Disorders, and Mental Health: A Narrative Review.

Author

Howarth, Nathan E. and Miller, Michelle A.

Abstract

Evidence suggests that sleep is a vital component of physical and health well-being. However, while sleep problems are present in individuals with mental health problems such as depression, it has not been clear whether these conditions are independent or whether they might be causally related. Indeed, if sleep or sleep disorders predispose or modify onset and outcomes of mental health issues, treatment of these factors could be explored as new mental health prevention or treatment options. The aim of this review was to examine in detail the bidirectional relationship between sleep, sleep disorders, and mental and physical health and well-being. It has considered the evidence that sleep architecture disruption, occurring through both quantity, quality, and timing of sleep as well as through the presence of sleep disorders may both influence mental health and well-being as well as be disrupted by both physical and mental health conditions. Also, the review has explored the effects of sleep disruption on mental health and performance through fatigue, mood, and vigilance. The review has considered the bidirectionality between sleep, sleep disorders, and mental health to examine how these may lead to or exacerbate mental health disorders such as affective, anxiety, autism, depressive and schizophrenia disorders but also considers how these conditions can affect sleep. The review highlights that poor sleep or the presence of a sleep disorder can increase the risks from mental health conditions such as suicidality. Furthermore, mental health conditions such as anxiety and worry can cause racing or repetitive thoughts that can keep an individual awake, leading to shortened sleep. It is important that sleep and sleep disorders are considered potential modifiable factors that could improve mental health outcomes. The important interconnect between both physical and mental health and sleep, in patient evaluations, also needs to be considered as these may affect treatment pathways and patient outcomes. Further, more robust and perspective research is required to establish the triad relationship of physical, mental health, and sleep. [ABSTRACT FROM AUTHOR]

Published

2024

6. Editorial: From cold seeps to hydrothermal vents: geology, chemistry, microbiology, and ecology in marine and coastal environments

Author

Glen T. Snyder, Andrew R. Thurber, Stéphanie Dupré, Marcelo Ketzer, and Carolyn D. Ruppel

Subjects

seep, vent, mud volcanism, fluid flow, hydrate, seabed minerals, Science

Published

2024

7. Contrasting Methane Seepage Dynamics in the Hola Trough Offshore Norway: Insights From Two Different Summers.

Author

Ferré, Bénédicte, Barreyre, Thibaut, Bünz, Stefan, Argentino, Claudio, Corrales‐Guerrero, Jorge, Dølven, Knut Ola, Stetzler, Marie, Fallati, Luca, Sert, Muhammed Fatih, Panieri, Giuliana, Rastrick, Samuel, Kutti, Tina, and Moser, Manuel

Subjects

COLD seeps, PORE water pressure, GAS migration, OCEAN currents, GAS distribution, SOIL air, SUMMER

Abstract

This study investigates the temporal variations in methane concentration and flare activity in the Hola trough (offshore Norway) during May 2018 and June 2022. Between these time periods, methane seep activity exhibits 3.5 times increase, as evidenced by hydroacoustic measurements. As the seep area in the Hola trough is constantly within the hydrate stability zone, the observed increase cannot be attributed to migration of its shallow boundary due to temperature increase. However, a combination of low tide conditions resulting in a lower sediment pore pressure and a bottom water temperature increase resulting in a lower methane solubility is likely to explain the increase in the number of seeps observed in June 2022. The hypothesis of tide influence is supported by data collected from a piezometer deployed and recovered during the cruise showing that the tidal effect was observed 3 m below the seafloor. Despite the numerous methane seeps detected, methane concentration and gas flow rates near the seafloor were low (<19 nM and <70 mL min−1, respectively) compared to other areas with methane seep activity. This is likely due to strong currents rapidly dispersing methane in the water column. Sub‐seafloor investigations identified pathways for gas migration in methane seep areas, influenced by topography. This study provides valuable insights into the temporal dynamics of methane concentrations, flare activity, and gas distribution in the Hola trough, contributing to our understanding of offshore methane dynamics in the region. Plain Language Summary: The Hola Trough, offshore Norway's Lofoten‐Vesterålen (LoVe) area, has been of interest for many years due to its rich marine life and potential oil and gas resources. There, coral mounds thrive around methane seepage. The LoVe observatory network monitors this unique environment. Using this observatory platform, associated data set and research expeditions at sea, the project EMAN7 (Environmental impact of Methane seepage and sub‐seabed characterization at LoVe‐Node 7) aims to understand the environmental impact of methane seepage as well as its spatio‐temporal variability. The comparison of methane seep activity during two summers with different environmental conditions revealed 3.5 times more seeps when a combination of warmer bottom water and low tide changes the sediment pore properties. A sensor recording subseafloor pore pressure and bottom temperature supports these findings. Sub‐seafloor investigations identified routes for gas migration in methane seep areas, influenced by topography. Key Points: A combination of warmer bottom water and low tide increases methane seeps 3.5 times by altering sediment gas solubility and pore pressureIntermittent seeps and strong oceanic currents explain the limited microbial mats and the low methane concentration in the water columnWe found sub‐seafloor pathways for gas migration in methane seep areas, influenced by topography [ABSTRACT FROM AUTHOR]

Published

2024

8. Contrasting Methane Seepage Dynamics in the Hola Trough Offshore Norway: Insights From Two Different Summers

Author

Ferré, B, Barreyre, T, Bünz, S, Argentino, C, Corrales‐guerrero, J, Dølven, K, Stetzler, M, Fallati, L, Sert, M, Panieri, G, Rastrick, S, Kutti, T, Moser, M, Ferré, Bénédicte, Barreyre, Thibaut, Bünz, Stefan, Argentino, Claudio, Corrales‐Guerrero, Jorge, Dølven, Knut Ola, Stetzler, Marie, Fallati, Luca, Sert, Muhammed Fatih, Panieri, Giuliana, Rastrick, Samuel, Kutti, Tina, Moser, Manuel, Ferré, B, Barreyre, T, Bünz, S, Argentino, C, Corrales‐guerrero, J, Dølven, K, Stetzler, M, Fallati, L, Sert, M, Panieri, G, Rastrick, S, Kutti, T, Moser, M, Ferré, Bénédicte, Barreyre, Thibaut, Bünz, Stefan, Argentino, Claudio, Corrales‐Guerrero, Jorge, Dølven, Knut Ola, Stetzler, Marie, Fallati, Luca, Sert, Muhammed Fatih, Panieri, Giuliana, Rastrick, Samuel, Kutti, Tina, and Moser, Manuel

Abstract

This study investigates the temporal variations in methane concentration and flare activity in the Hola trough (offshore Norway) during May 2018 and June 2022. Between these time periods, methane seep activity exhibits 3.5 times increase, as evidenced by hydroacoustic measurements. As the seep area in the Hola trough is constantly within the hydrate stability zone, the observed increase cannot be attributed to migration of its shallow boundary due to temperature increase. However, a combination of low tide conditions resulting in a lower sediment pore pressure and a bottom water temperature increase resulting in a lower methane solubility is likely to explain the increase in the number of seeps observed in June 2022. The hypothesis of tide influence is supported by data collected from a piezometer deployed and recovered during the cruise showing that the tidal effect was observed 3 m below the seafloor. Despite the numerous methane seeps detected, methane concentration and gas flow rates near the seafloor were low (<19 nM and <70 mL min−1, respectively) compared to other areas with methane seep activity. This is likely due to strong currents rapidly dispersing methane in the water column. Sub-seafloor investigations identified pathways for gas migration in methane seep areas, influenced by topography. This study provides valuable insights into the temporal dynamics of methane concentrations, flare activity, and gas distribution in the Hola trough, contributing to our understanding of offshore methane dynamics in the region.

Published

2024

9. Phylogenomic analyses reveal a single deep-water colonisation in Patellogastropoda.

Author

Qi, Ying, Zhong, Zhaoyan, Liu, Xu, He, Xing, Zhou, Yadong, Zhang, Lili, Chen, Chong, Linse, Katrin, Qiu, Jian-Wen, and Sun, Jin

Subjects

*GENOME size, *MARINE habitats, *GENEALOGY, *DEEP-sea corals, *LIMPETS, *GASTROPODA, *PHYLOGENY, *MOLLUSKS

Abstract

[Display omitted] • Phylogenomic data from six species representing three deep-water patellogastropod families was obtained. • Mitogenome recovers monophyly of eight families in most trees and consistency in the genus-level relationships; phylogenomics recovers a robust family-level topology. • Deep-water families are monophyletic, indicating a single colonisation around the Jurassic. • A lack of significant correlation between genome size and habitat depth. Patellogastropoda, the true limpets, is a major group of gastropods widely distributed in marine habitats from the intertidal to deep sea. Though important for understanding their evolutionary radiation, the phylogenetic relationships among the patellogastropod families have always been challenging to reconstruct, with contradictory results likely due to insufficient sampling. Here, we obtained mitogenomic and phylogenomic data (transcriptomic or genomic) from six species representing the three predominantly deep-water patellogastropod families: Lepetidae, Neolepetopsidae, and Pectinodontidae. By using various phylogenetic methods, we show that mitogenome phylogeny recovers monophyly of eight families in most of the trees, though the relationships among families remain contentious. Meanwhile, a more robust family-level topology consistent with morphology was achieved by phylogenomics. This also reveals that these mainly deep-water families are monophyletic, suggesting a single colonisation of the deep water around the Jurassic. We also found a lack of significant correlation between genome size and habitat depth, despite some deep-water species exhibiting larger genome sizes. Our phylogenomic tree provides a stable phylogenetic backbone for Patellogastropoda that includes seven of the nine recognized families and paves the way for future evolutionary analyses in this major group of molluscs. [ABSTRACT FROM AUTHOR]

Published

2024