Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin

Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin

Gas hydrate provinces occur in two sedimentary basins along Brazil’s continental margin: (1) The Rio Grande Cone in the southeast, and (2) the Amazon deep-sea fan in the equatorial region. The occurrence of gas hydrates in these depocenters was first detected geophysically and has recently...

Full description

Bibliographic Details
Main Authors: Marcelo Ketzer, Daniel Praeg, Maria A.G. Pivel, Adolpho H. Augustin, Luiz F. Rodrigues, Adriano R. Viana, José A. Cupertino
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Geosciences
Subjects:
gas hydrates
gas seeps
ocean acidification
Online Access:https://www.mdpi.com/2076-3263/9/5/193
id doaj-935789b8aa0d4e3298d14dc8ece7c162
record_format Article
spelling doaj-935789b8aa0d4e3298d14dc8ece7c1622020-11-24T22:11:29ZengMDPI AGGeosciences2076-32632019-04-019519310.3390/geosciences9050193geosciences9050193Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental MarginMarcelo Ketzer0Daniel Praeg1Maria A.G. Pivel2Adolpho H. Augustin3Luiz F. Rodrigues4Adriano R. Viana5José A. Cupertino6Department of Biology and Environmental Science, Linnaeus University, 391-82 Kalmar, SwedenInstitute of Petroleum and Natural Resources, PUCRS—Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre 90619-900, BrazilCentro de Estudos de Geologia Costeira e Oceânica, Instituto de Geociências, Universidade Federal do Rio Grande do Sul, Porto Alegre 91501-970, BrazilInstitute of Petroleum and Natural Resources, PUCRS—Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre 90619-900, BrazilInstitute of Petroleum and Natural Resources, PUCRS—Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre 90619-900, BrazilPETROBRAS—E&P Exploration, Rio de Janeiro 20031-170, BrazilInstitute of Petroleum and Natural Resources, PUCRS—Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre 90619-900, BrazilGas hydrate provinces occur in two sedimentary basins along Brazil’s continental margin: (1) The Rio Grande Cone in the southeast, and (2) the Amazon deep-sea fan in the equatorial region. The occurrence of gas hydrates in these depocenters was first detected geophysically and has recently been proven by seafloor sampling of gas vents, detected as water column acoustic anomalies rising from seafloor depressions (pockmarks) and/or mounds, many associated with seafloor faults formed by the gravitational collapse of both depocenters. The gas vents include typical features of cold seep systems, including shallow sulphate reduction depths (<4 m), authigenic carbonate pavements, and chemosynthetic ecosystems. In both areas, gas sampled in hydrate and in sediments is dominantly formed by biogenic methane. Calculation of the methane hydrate stability zone for water temperatures in the two areas shows that gas vents occur along its feather edge (water depths between 510 and 760 m in the Rio Grande Cone and between 500 and 670 m in the Amazon deep-sea fan), but also in deeper waters within the stability zone. Gas venting along the feather edge of the stability zone could reflect gas hydrate dissociation and release to the oceans, as inferred on other continental margins, or upward fluid flow through the stability zone facilitated by tectonic structures recording the gravitational collapse of both depocenters. The potential quantity of venting gas on the Brazilian margin under different scenarios of natural or anthropogenic change requires further investigation. The studied areas provide natural laboratories where these critical processes can be analyzed and quantified.https://www.mdpi.com/2076-3263/9/5/193gas hydratesgas seepsocean acidification
collection DOAJ
language English
format Article
sources DOAJ
author Marcelo Ketzer
Daniel Praeg
Maria A.G. Pivel
Adolpho H. Augustin
Luiz F. Rodrigues
Adriano R. Viana
José A. Cupertino
spellingShingle Marcelo Ketzer
Daniel Praeg
Maria A.G. Pivel
Adolpho H. Augustin
Luiz F. Rodrigues
Adriano R. Viana
José A. Cupertino
Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
Geosciences
gas hydrates
gas seeps
ocean acidification
author_facet Marcelo Ketzer
Daniel Praeg
Maria A.G. Pivel
Adolpho H. Augustin
Luiz F. Rodrigues
Adriano R. Viana
José A. Cupertino
author_sort Marcelo Ketzer
title Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
title_short Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
title_full Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
title_fullStr Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
title_full_unstemmed Gas Seeps at the Edge of the Gas Hydrate Stability Zone on Brazil’s Continental Margin
title_sort gas seeps at the edge of the gas hydrate stability zone on brazil’s continental margin
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2019-04-01
description Gas hydrate provinces occur in two sedimentary basins along Brazil’s continental margin: (1) The Rio Grande Cone in the southeast, and (2) the Amazon deep-sea fan in the equatorial region. The occurrence of gas hydrates in these depocenters was first detected geophysically and has recently been proven by seafloor sampling of gas vents, detected as water column acoustic anomalies rising from seafloor depressions (pockmarks) and/or mounds, many associated with seafloor faults formed by the gravitational collapse of both depocenters. The gas vents include typical features of cold seep systems, including shallow sulphate reduction depths (<4 m), authigenic carbonate pavements, and chemosynthetic ecosystems. In both areas, gas sampled in hydrate and in sediments is dominantly formed by biogenic methane. Calculation of the methane hydrate stability zone for water temperatures in the two areas shows that gas vents occur along its feather edge (water depths between 510 and 760 m in the Rio Grande Cone and between 500 and 670 m in the Amazon deep-sea fan), but also in deeper waters within the stability zone. Gas venting along the feather edge of the stability zone could reflect gas hydrate dissociation and release to the oceans, as inferred on other continental margins, or upward fluid flow through the stability zone facilitated by tectonic structures recording the gravitational collapse of both depocenters. The potential quantity of venting gas on the Brazilian margin under different scenarios of natural or anthropogenic change requires further investigation. The studied areas provide natural laboratories where these critical processes can be analyzed and quantified.
topic gas hydrates
gas seeps
ocean acidification
url https://www.mdpi.com/2076-3263/9/5/193
work_keys_str_mv AT marceloketzer gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT danielpraeg gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT mariaagpivel gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT adolphohaugustin gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT luizfrodrigues gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT adrianorviana gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
AT joseacupertino gasseepsattheedgeofthegashydratestabilityzoneonbrazilscontinentalmargin
_version_ 1725805396590854144

Similar Items