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Main Authors: Meinecke, Gerrit, Renken, Jens, Spiesecke, Ulli, von Wahl, Till, Sahling, Heiko, Wintersteller, Paul
Format: Dataset Open Access
Language:en
Published: PANGAEA 2018
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.889769
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author Meinecke, Gerrit
Renken, Jens
Spiesecke, Ulli
von Wahl, Till
Sahling, Heiko
Wintersteller, Paul
author_facet Meinecke, Gerrit
Renken, Jens
Spiesecke, Ulli
von Wahl, Till
Sahling, Heiko
Wintersteller, Paul
collection Datos científicos de ciencias marinas y ambientales
contents Purpose of the cruise M114 At the so-called asphalt volcanoes in the southern Gulf of Mexico heavy oil is seeping at the seafloor where it remains as asphalt deposits. Discovered and preliminarily surveyed during SO174 and M67/2 expeditions, these sites are subject for detail studies during M114 focusing on mapping with autonomous underwater vehicle (AUV MARUM-SEAL), deep-towed sidescan sonar (DTS-1), sediment echosounder (Parasound), multibeam echosounder (EM122), and remotely operated vehicle MARUM-ROV Quest. The overarching objective is to better understand the impact, fate, and decay rates of oil in the deep-sea environment. Heavy oil and gas bubbles are emitted from the 1200 to 2900 m deep seafloor in the hy-drocarbon province Campeche Knolls in the southern Gulf of Mexico. The viscous heavy oil flows across the seafloor, loses volatile compounds, solidifies, and is converted to asphalt with time. Due to the fact that the heavy oil remains at the seafloor, these sites are natural laboratories to study the impact of oil on deep-sea ecosystems, and the time scales of oil and asphalt degradation. These subjects are very timely, and can help understanding effects of deep water oil spills as caused by the 2010 Deepwater Horizon accident in the northern Gulf of Mexico. We propose to study the extent of oil emissions and asphalt deposits using sidescan sonar and to investigate them further employing ROV Quest. A further major topic of the proposed cruise addresses the question whether or not methane can reach the sea surface and may contribute to the pool of greenhouse gases. The fact that seepage of oil-coated gas bubbles leads to oil slicks at the sea surface and enhanced methane concentrations was recently shown in the north-ern Gulf. It can be assumed that similar efficient transport processes for methane exists in the area of the Campeche Knolls, where oil slicks have been observed in association with about ~30 individual seafloor structures.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_889769
institution PANGAEA
language en
publishDate 2018
publisher PANGAEA
record_format pangaea
spellingShingle AUV MARUM-SEAL Dive 70: RAW-Data of High Resolution Bathymetry and Backscatter of Chapopote Asphalt Volcano
Meinecke, Gerrit
Renken, Jens
Spiesecke, Ulli
von Wahl, Till
Sahling, Heiko
Wintersteller, Paul
Autonomous underwater vehicle; AUV; Center for Marine Environmental Sciences; File format; File name; File size; GeoB19312-1; M114/1; M114/1_69-1; MARUM; Meteor (1986); Uniform resource locator/link to file
Purpose of the cruise M114 At the so-called asphalt volcanoes in the southern Gulf of Mexico heavy oil is seeping at the seafloor where it remains as asphalt deposits. Discovered and preliminarily surveyed during SO174 and M67/2 expeditions, these sites are subject for detail studies during M114 focusing on mapping with autonomous underwater vehicle (AUV MARUM-SEAL), deep-towed sidescan sonar (DTS-1), sediment echosounder (Parasound), multibeam echosounder (EM122), and remotely operated vehicle MARUM-ROV Quest. The overarching objective is to better understand the impact, fate, and decay rates of oil in the deep-sea environment. Heavy oil and gas bubbles are emitted from the 1200 to 2900 m deep seafloor in the hy-drocarbon province Campeche Knolls in the southern Gulf of Mexico. The viscous heavy oil flows across the seafloor, loses volatile compounds, solidifies, and is converted to asphalt with time. Due to the fact that the heavy oil remains at the seafloor, these sites are natural laboratories to study the impact of oil on deep-sea ecosystems, and the time scales of oil and asphalt degradation. These subjects are very timely, and can help understanding effects of deep water oil spills as caused by the 2010 Deepwater Horizon accident in the northern Gulf of Mexico. We propose to study the extent of oil emissions and asphalt deposits using sidescan sonar and to investigate them further employing ROV Quest. A further major topic of the proposed cruise addresses the question whether or not methane can reach the sea surface and may contribute to the pool of greenhouse gases. The fact that seepage of oil-coated gas bubbles leads to oil slicks at the sea surface and enhanced methane concentrations was recently shown in the north-ern Gulf. It can be assumed that similar efficient transport processes for methane exists in the area of the Campeche Knolls, where oil slicks have been observed in association with about ~30 individual seafloor structures.
title AUV MARUM-SEAL Dive 70: RAW-Data of High Resolution Bathymetry and Backscatter of Chapopote Asphalt Volcano
topic Autonomous underwater vehicle; AUV; Center for Marine Environmental Sciences; File format; File name; File size; GeoB19312-1; M114/1; M114/1_69-1; MARUM; Meteor (1986); Uniform resource locator/link to file
url https://doi.org/10.1594/PANGAEA.889769