Remote sensing analysis of natural oil and gas seeps on the continental slope of the northern Gulf of Mexico

De Beukelaer, Sophie Magdalena

15 November 2004

Natural hydrocarbon seeps harbor distinctive geological, chemical, and biological features in the marine environment. This thesis verified remote sensing signatures of seeps using in-situ observation and repeated collections of satellite imagery. Bubble streams in the Gulf of Mexico water column from four natural seep sites on the upper continental slope were imaged by a side-scan sonar, which was operated from a submarine near the seafloor, and by acoustic profilers, which were operated from surface ships. These data were correlated with sea surface slicks imaged by Synthetic Aperture Radar (SAR) on the RADARSAT satellite. Comparing non-oily bubble streams from rapidly venting mud volcanoes with oily bubble streams from shallow deposits of gas hydrate showed that they produced notably different signatures. Non-oily bubbles produced high backscatter on the side-scan sonar records, but were difficult to detect with the acoustic profilers. Oily bubbles from hydrate deposits produced acoustic shadows on the side-scan sonar records. The oily bubbles generated clear signatures extending from the seafloor to the near surface on the acoustic profile records. RADARSAT SAR images verified the presence of surface oil slicks over the hydrate deposits, but not over the mud volcanoes. This indicates that SAR imagery will not be able to capture every oil and gas seep in a region because non-oily bubble streams do not create surface oil slicks. A total of 113 natural oily seep sources were identified based on surface slicks in eleven SAR images collected over the northern continental slope. A persistence analysis verified that SAR is a dependable tool for capturing oil slicks because 93.5% of the slick sources identified in the 2001 images were corroborated with slicks in the 2002 images. The sources ranged in depth from 100 to 2000 m and 79% of the sources were in 900 meters or greater of water. Seventy-six percent of the seep sources were associated with salt less than 1500 m below the seafloor and none of the sources were located in the bottom of salt withdrawal basins. Geographical Information Systems (GIS) proved to be a useful tool in these analyses.

SAR

side-scan sonar

Gulf of Mexico

hydrocarbon

seeps

acoustic profiler

chemosynthetic communities

Remote sensing analysis of natural oil and gas seeps on the continental slope of the northern Gulf of Mexico

De Beukelaer, Sophie Magdalena

15 November 2004

Natural hydrocarbon seeps harbor distinctive geological, chemical, and biological features in the marine environment. This thesis verified remote sensing signatures of seeps using in-situ observation and repeated collections of satellite imagery. Bubble streams in the Gulf of Mexico water column from four natural seep sites on the upper continental slope were imaged by a side-scan sonar, which was operated from a submarine near the seafloor, and by acoustic profilers, which were operated from surface ships. These data were correlated with sea surface slicks imaged by Synthetic Aperture Radar (SAR) on the RADARSAT satellite. Comparing non-oily bubble streams from rapidly venting mud volcanoes with oily bubble streams from shallow deposits of gas hydrate showed that they produced notably different signatures. Non-oily bubbles produced high backscatter on the side-scan sonar records, but were difficult to detect with the acoustic profilers. Oily bubbles from hydrate deposits produced acoustic shadows on the side-scan sonar records. The oily bubbles generated clear signatures extending from the seafloor to the near surface on the acoustic profile records. RADARSAT SAR images verified the presence of surface oil slicks over the hydrate deposits, but not over the mud volcanoes. This indicates that SAR imagery will not be able to capture every oil and gas seep in a region because non-oily bubble streams do not create surface oil slicks. A total of 113 natural oily seep sources were identified based on surface slicks in eleven SAR images collected over the northern continental slope. A persistence analysis verified that SAR is a dependable tool for capturing oil slicks because 93.5% of the slick sources identified in the 2001 images were corroborated with slicks in the 2002 images. The sources ranged in depth from 100 to 2000 m and 79% of the sources were in 900 meters or greater of water. Seventy-six percent of the seep sources were associated with salt less than 1500 m below the seafloor and none of the sources were located in the bottom of salt withdrawal basins. Geographical Information Systems (GIS) proved to be a useful tool in these analyses.

SAR

side-scan sonar

Gulf of Mexico

hydrocarbon

seeps

acoustic profiler

chemosynthetic communities

Sucessão ecológica em parcelas orgânicas de madeira, macroalgas e em carcassas de baleia no mar profundo; e similaridade de espécies entre habitats redutores no talude continental da Califórnia (Pacífico Nordeste) / Whales, wood and kelp islands in the deep-sea: ecological succession and species overlap with other chemosynthetic habitats in the Californian continental slope (NE Pacific)

Bernardino, Angelo Fraga

24 November 2009

Parcelas orgânicas de macroalgas, madeira e carcaças de baleia criam importantes oasis de enriquecimento orgânico no assoalho marinho de regiões profundas, mas a estrutura e sucessão ecológica da macrofauna sedimentar ao redor destes ambientes ainda é pouco conhecida. Parcelas de macroalgas e madeira foram artificialmente implantadas próximas a uma carcaça de baleia de 30-ton hà uma profundidade de 1670 m na Bacia de Santa Cruz, Pacífico NE. Ao redor de cada ilha orgânica, foram estudados os padrões espaciais e temporais de enriquecimento sedimentar orgânico e a estrutura e sucessão temporal da macrofauna em escalas temporais que variam de 0.25 à 7 anos. Ainda, o nível de sobreposição entre espécies colonizadoras das parcelas orgânicas e na baleia, foram comparados com comunidades de exudações frias (uma localizada na bacia de São Clemente, Pacífico NE) e fontes hidrotermais. Em geral, a abundância da macrofauna sedimentar foi altamente elevada em períodos de intenso enriquecimento orgânico, com decréscimo da diversidade da macrofauna num raio de 0.5 metros das parcelas. Nas parcelas de macroalgas e madeira, espécies oportunistas e tolerantes à sulfetos atingiram altas densidades após o pico de enriquecimento orgânico sedimentar (0.25 e 1.8 anos, respectivamente), enquanto que ao redor da carcaça de baleia, a macrofauna foi também dominada por organismos quimiossintéticos com associações simbióticas bacterianas, e ainda espécies oportunistas que se alimentavam do abundante carpete bacteriano sobre a superfície sedimentar. Os sedimentos ao redor das parcelas de macroalgas e madeira sustentam baixas taxas de degradação microbiana e sulfeto intersticial, recrutando assim um limitado número de organismos quimioautotróficos e consequentemente com baixa sobreposição de espécies com outros ambientes redutores. Na carcaça de baleia, os sedimentos sustentam intensa degradação microbiana e altos níveis de sulfeto, mas diferenças marcantes nas biogeoquímica e nas cadeias tróficas presentes nestas carcaças resultam em baixa sobreposição de espécies com a fauna de exsudações frias e fontes hidrotermais. Conclui-se que sedimentos enriquecidos organicamente ao redor de macroalgas, madeiras e carcaças de baleia criam importantes hábitats para a persistência e evolução de espécies dependentes de condições sedimentares redutoras, e assim estas ilhas devem contribuir para a diversidade regional e global dos ecossistemas de mar profundo. / Sunken parcels of macroalgae, wood and whale carcasses provide important oases of organic enrichment at the deep-sea floor, but sediment community structure and succession around these habitat islands are poorly evaluated. We experimentally implanted parcels of kelp and wood falls nearby a 30-ton deep-sea whale-fall at 1670 m in the Santa Cruz Basin (SCr; NE Pacific). At each organic island, we aimed to evaluate patterns of organic enrichment and spatial and temporal patterns of macrofaunal community structure and succession over time scales of 0.25 to 7y. Additionally, species overlap between kelp-, wood- and whale-falls with nearby cold-seep communities were investigated. In general, the abundance of infaunal macrobenthos was highly elevated at periods of intense organic enrichment at all organic falls, with decreased macrofaunal diversity and evenness within 0.5 meters of the falls. At kelp and wood falls opportunistic species and sulfide tolerant microbial grazers (dorvilleid polychaetes) abounded after the peak of sedimentary enrichment (0.25y and 1.8y, respectively), while the whale-fall macrofauna was highly abundant from 4.5 to 6.8 y, and was dominated by enrichment opportunist, chemoautotrophic-symbiont-hosting and heterotrophic species grazing sulfur-oxidizing bacterial mats. Sediments around kelp and wood parcels provided lowintensity reducing conditions, which sustain a limited chemoautotrophically-based fauna, with low levels of species overlap among other chemosynthetic habitats in the deep NE Pacific. Whale-fall sediments harbor many species and trophic types not present in background sediments, but there were low levels of species overlap between the whalefall, cold seeps and hydrothermal vents, explained by differences in biogeochemistry and food webs among these habitats. We conclude that organically enriched sediments around kelp, wood and whale-falls may provide important habitat islands for the persistence and evolution of species dependent on organic- and sulfide-rich conditions at the deep-sea floor and contribute to regional and global diversity in deep-sea ecosystems.

carcaças de baleia

Chemosynthetic habitats

Deep-sea

Ecological sucession

habitats quimiossintéticos

Macrofauna

macrofauna

mar profundo

organic islands

sucessão ecológica

whale-falls

Sucessão ecológica em parcelas orgânicas de madeira, macroalgas e em carcassas de baleia no mar profundo; e similaridade de espécies entre habitats redutores no talude continental da Califórnia (Pacífico Nordeste) / Whales, wood and kelp islands in the deep-sea: ecological succession and species overlap with other chemosynthetic habitats in the Californian continental slope (NE Pacific)

Angelo Fraga Bernardino

24 November 2009

Parcelas orgânicas de macroalgas, madeira e carcaças de baleia criam importantes oasis de enriquecimento orgânico no assoalho marinho de regiões profundas, mas a estrutura e sucessão ecológica da macrofauna sedimentar ao redor destes ambientes ainda é pouco conhecida. Parcelas de macroalgas e madeira foram artificialmente implantadas próximas a uma carcaça de baleia de 30-ton hà uma profundidade de 1670 m na Bacia de Santa Cruz, Pacífico NE. Ao redor de cada ilha orgânica, foram estudados os padrões espaciais e temporais de enriquecimento sedimentar orgânico e a estrutura e sucessão temporal da macrofauna em escalas temporais que variam de 0.25 à 7 anos. Ainda, o nível de sobreposição entre espécies colonizadoras das parcelas orgânicas e na baleia, foram comparados com comunidades de exudações frias (uma localizada na bacia de São Clemente, Pacífico NE) e fontes hidrotermais. Em geral, a abundância da macrofauna sedimentar foi altamente elevada em períodos de intenso enriquecimento orgânico, com decréscimo da diversidade da macrofauna num raio de 0.5 metros das parcelas. Nas parcelas de macroalgas e madeira, espécies oportunistas e tolerantes à sulfetos atingiram altas densidades após o pico de enriquecimento orgânico sedimentar (0.25 e 1.8 anos, respectivamente), enquanto que ao redor da carcaça de baleia, a macrofauna foi também dominada por organismos quimiossintéticos com associações simbióticas bacterianas, e ainda espécies oportunistas que se alimentavam do abundante carpete bacteriano sobre a superfície sedimentar. Os sedimentos ao redor das parcelas de macroalgas e madeira sustentam baixas taxas de degradação microbiana e sulfeto intersticial, recrutando assim um limitado número de organismos quimioautotróficos e consequentemente com baixa sobreposição de espécies com outros ambientes redutores. Na carcaça de baleia, os sedimentos sustentam intensa degradação microbiana e altos níveis de sulfeto, mas diferenças marcantes nas biogeoquímica e nas cadeias tróficas presentes nestas carcaças resultam em baixa sobreposição de espécies com a fauna de exsudações frias e fontes hidrotermais. Conclui-se que sedimentos enriquecidos organicamente ao redor de macroalgas, madeiras e carcaças de baleia criam importantes hábitats para a persistência e evolução de espécies dependentes de condições sedimentares redutoras, e assim estas ilhas devem contribuir para a diversidade regional e global dos ecossistemas de mar profundo. / Sunken parcels of macroalgae, wood and whale carcasses provide important oases of organic enrichment at the deep-sea floor, but sediment community structure and succession around these habitat islands are poorly evaluated. We experimentally implanted parcels of kelp and wood falls nearby a 30-ton deep-sea whale-fall at 1670 m in the Santa Cruz Basin (SCr; NE Pacific). At each organic island, we aimed to evaluate patterns of organic enrichment and spatial and temporal patterns of macrofaunal community structure and succession over time scales of 0.25 to 7y. Additionally, species overlap between kelp-, wood- and whale-falls with nearby cold-seep communities were investigated. In general, the abundance of infaunal macrobenthos was highly elevated at periods of intense organic enrichment at all organic falls, with decreased macrofaunal diversity and evenness within 0.5 meters of the falls. At kelp and wood falls opportunistic species and sulfide tolerant microbial grazers (dorvilleid polychaetes) abounded after the peak of sedimentary enrichment (0.25y and 1.8y, respectively), while the whale-fall macrofauna was highly abundant from 4.5 to 6.8 y, and was dominated by enrichment opportunist, chemoautotrophic-symbiont-hosting and heterotrophic species grazing sulfur-oxidizing bacterial mats. Sediments around kelp and wood parcels provided lowintensity reducing conditions, which sustain a limited chemoautotrophically-based fauna, with low levels of species overlap among other chemosynthetic habitats in the deep NE Pacific. Whale-fall sediments harbor many species and trophic types not present in background sediments, but there were low levels of species overlap between the whalefall, cold seeps and hydrothermal vents, explained by differences in biogeochemistry and food webs among these habitats. We conclude that organically enriched sediments around kelp, wood and whale-falls may provide important habitat islands for the persistence and evolution of species dependent on organic- and sulfide-rich conditions at the deep-sea floor and contribute to regional and global diversity in deep-sea ecosystems.

carcaças de baleia

habitats quimiossintéticos

macrofauna

mar profundo

sucessão ecológica

Chemosynthetic habitats

Deep-sea

Ecological sucession

Macrofauna

organic islands

whale-falls

Characterization of hydrothermal vent faunal assemblages in the Mariana Back-Arc Spreading Centre

Giguere, Thomas

04 May 2020

Researchers have learned much about the biological assemblages that form around hydrothermal vents. However, identities of species in these assemblages and their basic ecological features are often lacking. In 2015, the first leg of the Hydrothermal Hunt expedition identified likely new vent sites in the Mariana Back-arc Spreading Center (BASC). In 2016, the second leg of the expedition used a remotely operated vehicle (ROV) to confirm and sample two new sites and two previously known sites. My first objective is to identify the animals collected from these four vent sites. In these samples, I identify 42 animal taxa, including the discovery of four new vent-associated species, five potentially new species and six taxa not previously reported in the Mariana BASC vents. My second objective is to combine these new data with previous studies and examine the species distributions among all known vent sites in the Mariana BASC using the α-, β-, and γ-diversity framework. I present updated species absence-presence lists for all eight Mariana BASC vent sites, which begin to resolve some of the issues with species identification. In this thesis, my approach to assessing β-diversity is novel in the field of hydrothermal vent ecology. My work also provides the first intra-regional scale assessments of β-diversity that include all sites known in a vent system. My third objective is to explore environmental factors driving these species distribution patterns. The α-diversity of BASC vent sites gradually increases with latitude, and the β-diversity calculated using the Raup-Crick index correlates with distance to nearby vent sites. Stochastic assembly processes likely shape the diversity patterns throughout the Mariana BASC as few environmental variables are known to correlate with these patterns. My fourth objective is to compare the β-diversity patterns between the Mariana BASC vent sites and those in two other vent systems: the Mariana Arc and the Juan de Fuca Ridge. The γ- and average α-diversity values for the BASC vents are relatively low compared to the other two systems. The Jaccard index revealed that the average number of shared species among the Arc vent sites is much lower than those of the BASC and the Juan de Fuca Ridge. The Raup-Crick index indicates that stochastic processes explain the average β-diversity of the Mariana BASC vents better than those of the Mariana Arc and Juan de Fuca Ridge. / Graduate / 2021-04-17

hydrothermal vent

Mariana back-arc

faunal assemblages

beta-diversity

biodiversity

diversity distribution

Rimicaris falkorae

vent ecology

chemosynthetic ecosystems

Rimicaris falkorae

The evolution and population genetics of hydrothermal vent megafauna from the Scotia Sea

Roterman, Christopher Nicolai

January 2013

This project used a variety of genetic markers to investigate the evolution and population genetics of hydrothermal vent fauna that were recovered from the Scotia Sea, in the Atlantic sector of the Southern Ocean. The origins of one of these species, an undescribed species of Kiwa sp. found on the East Scotia Ridge (ESR) and its constituent family Kiwaidae, a group of vent and seep-associated decapod squat lobsters (infraorder Anomura) was investigated using a concatenated nine-gene dataset and key divergences were dated using fossil calibrations. These results confirm earlier research showing Kiwaidae reside in the superfamily Chirostyloidea, but form a monophyletic clade with the non-chemosynthetic family Chirostylidae and not Eumunididae. Chirostyloid families diverged in the Cretaceous, although extant Kiwaidae radiated in the Eocene, consistent with many other chemosynthetic taxa that appear recently derived. The basal tree position of Pacific species (and the Alaska location of a likely stem-lineage kiwaid fossil) suggests kiwaids originated in the East Pacific. Within a Southern Hemisphere clade, the divergence between the southeastern Pacific K. hirsuta and a non-Pacific lineage (Kiwa sp. ESR and Southwest Indian Ridge kiwaids) is no earlier than 25.9 Ma, consistent with a spread from the Pacific into the Scotia Sea and beyond via now-extinct active ridge connections or mediated by a Miocene onset of the Antarctic Circumpolar Current (ACC) through a newly-opened Drake Passage. This project also investigated the population genetics of three undescribed species found at two vent fields ~ 440 km apart at either end of the ESR: Kiwa sp., a peltospirid gastropod and Lepetodrilus sp. limpets. Lepetodrilus sp. was also found at the Kemp Caldera, a submerged part of the South Sandwich Islands (SSI). Analyses of cytochrome c oxidase subunit 1 (COI) as well as microsatellite loci developed from Roche 454 sequence libraries revealed no differentiation along the ESR for all three species consistent with panmixia, or the dominance of non-equilibrium processes between vent field colonies within a metapopulation, possibly enhanced further by cold-induced arrested larval development. Despite apparent connectivity along the ESR, both COI and microsatellites revealed differentiation between ESR limpets and Kemp Caldera limpets ~ 95 km to the east, possibly owing to the hydrographic isolation of the caldera. Both COI and microsatellite diversity patterns were consistent with recent (< 1 Ma) demographic expansions for all three species (although the influence of selection sweeps on COI cannot be discounted); a pattern observed worldwide at vent communities and may reflect demographic instability over time as a consequence of the stochastic birth and death of vent colonies within a metapopulation. Different COI bottleneck ages between the three species (excluding the influence of possible selection) as well as the absence of kiwaids and peltospirids at Kemp, have been attributed to differences in life history, in particular larval morphology and presumed dispersal strategy. These results highlight the role of larval dispersal of vent fauna along active spreading ridges, both in maintaining vent metapopulations across vent colonies prone to stochastic birth and extinction in the short term, but also in the spread of taxa globally and the formation of biogeographic provinces. The likelihood that the three species presented here exist at vents east of the ESR and SSI, prompts further exploration along ridges in the South Atlantic, in order to investigate the effect of the ACC in enhancing gene flow and delineating biogeographic provinces.

577.7

Diversity and ecology of ectosymbioses between sulfur-oxidizing Thiothrix bacteria and groundwater niphargid amphipods

Bauermeister, Jan

22 January 2013

No description available.

910

550