Padrões de diversidade microbiana em sedimentos marinhos profundos influenciados por uma exsudação de asfalto. / Microbial diversity patterns in deep-sea sediments influencied by asphalt seep.

Luciano Lopes Queiroz

26 May 2015

Sedimentos de mar profundo são ambientes estáveis e homogêneos, apesar disso, eles apresentam uma grande variedade de habitats disponíveis, possibilitando uma alta diversidade microbiana. A distribuição espacial dos micro-organismos é influenciada por fatores locais e regionais. Os fatores locais são associados à estrutura do ambiente e os fatores regionais, a limitação na dispersão dos micro-organismos que compõem as comunidades e eventos históricos que eventualmente podem modificar o ambiente. Eventos como a liberação de hidrocarbonetos das camadas mais profundas do sedimento para superfície podem alterar os padrões de distribuição espacial das comunidades microbianas, devido o aumento na disponibilidade de carbono e consequentemente selecionando as espécies capazes de degradá-los. Esses eventos são denominados de exsudações de asfalto e foram encontradas na região de estudo. Considerando a falta de conhecimento e a importância dos micro-organismos em sedimentos de mar profundo do oceano Atlântico Sul, o objetivo desse estudo foi compreender os padrões de diversidade microbiana nessas regiões e também investigar como o óleo proveniente da exsudação de asfalto influência as comunidades de micro-organismos no seu entorno. Esse estudo foi realizado na região do Platô de São Paulo que foi dividido em duas regiões, norte e sul. A diversidade microbiana foi estudada em 14 amostras de sedimento de mar profundo, nove amostras na região norte e cinco na sul. A exsudação de asfalto foi encontrada na região norte, influenciando diretamente três das nove amostras. As comunidades foram estudadas através dos métodos de eletroforese em gel de gradiente desnaturante (DGGE), PCR quantitativa (qPCR) e sequenciamento de última geração (Ion Torrent). A distribuição espacial das comunidades foi analisada em diferentes escalas espaciais: verticalmente, variando com a profundidade do sedimento (≤ 4 cm), localmente, em cada uma das regiões amostradas (1-34 Km) e regionalmente, comparando as regiões norte e sul (> 250 Km). O perfil da comunidade obtido com a técnica de DGGE mostrou que as comunidades microbianas foram menos similares entre as regiões e apresentaram relação com a distância geográfica para arqueia e bactéria. Os valores de similaridade foi maior localmente do que regionalmente. A similaridade obtida nas camadas de profundidade analisadas foi alta e não houve relação com a distância geográfica. O número de células entre as camadas de profundidades foi diferente, com tendência de diminuição com o aumento da profundidade. As classes bacterianas mais abundantes foram Alphaproteobacteria (30%), Acidimicrobiia (18%), Gammaproteobacteria (16%), Deltaproteobacteria e Gemmatimonadetes (3%). A composição das comunidades influenciadas pela exsudação de asfalto não teve relação com a presença do óleo ou com as camadas de profundidade. A distância geográfica e a exsudação de asfalto foram importantes fatores para determinação da distribuição geográfica das comunidades microbianas em sedimento marinhos profundos do Platô de São Paulo. Apesar da ausência de relação entre o óleo proveniente da exsudação de asfalto e a composição das comunidades, a alta abundância de Alphaproteobacteria e a importância da distância dentro da região norte são indicativos do aumento da heterogeneidade causado pela exsudação de asfalto. Mais estudos procurando compreender a composição geoquímica dos sedimentos e do óleo são necessários para explicar como esses fatores influenciam a estruturação das comunidades microbianas estudadas. / Deep-sea sediments are stable and homogeneous environments, however, they have a high variety of available habitats, allowing a high microbial diversity to occur. Microbial spatial distribution is determined by local and regional factors. Local factors are associated to environment structure and regional factors, to microbial dispersal limitation and historical events that may cause environmental changes. Historical events such as hydrocarbon emanation from sub-seafloor to seafloor may change the patterns of microbial spatial distribution, due to an increase of carbon, thus, selecting species capable to degrade them. These events are denominated as asphalt seep and they were found on the studied region. Considering the lack of knowledge and the importance of microorganisms on deep-sea sediments from South Atlantic ocean, this study aims to understand the patterns of microbial spatial distribution and how the oil from asphalt seep influence the microbial communities. This study was realized in São Paulo Plateau region. The plateau was divided in two regions, north and south. Microbial diversity was studied from 14 deep-sea sediment samples, nine samples from north region and five from south region. The asphalt seep was found in north region from São Paulo Plateau, directly affecting three of the nine samples. The communities were studied through denaturing gradient gel electrophoresis (DGGE), quantitative PCR (qPCR) and next generation sequencing (Ion Torrent). The spatial distribution of the communities was analyzed at different spatial scales: sediment depth (≤ 4 cm), local (1-34 Km) and regional (> 250 Km). Microbial communities were less similar between regions and showing relation with geographic distance to achaea and bacteria. Similarity values within regions were higher then between them, but the geographic distance was also important to both domains, despite samples being closer. Similarity values between sediment depths were high and have no relation with geographic distance. The cell number between sediment depths was different, with tendency to decrease with depth increase. The most abundant classes were Alphaproteobacteria (30%), Acidimicrobiia (18%), Gammaproteobacteria (16%), Deltaproteobacteria e Gemmatimonadetes (3%). The communities composition influenced by asphalt seep have no relation with oil presence and sediment depths. Geographic distance and asphalt seep were important factors to determine the spatial distribution of microbial communities in deep-sea sediments from São Paulo Plateau. Despite the absence of relation between oil from asphalt seep and communities composition, the high abundance of Alphaproteobacteria and the importance of distance within north region are indicative of heterogeneity increase caused by asphalt seep. More studies aiming to understand the geochemical composition from sediments and oil are necessary to explain how these factors influence the communities structure.

Diversidade microbiana

Exsudação de asfalto

Mar profundo

Oceano Atlântico Sul

Sedimento

Asphalt seep

Deep-sea

Microbial diversity

Sediment

South Atlantic Ocean

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

Nonlinear oscillations, bifurcations and chaos in ocean mooring systems

Gottlieb, Oded

03 December 1991

Complex nonlinear and chaotic responses have been recently observed in various compliant ocean systems. These systems are characterized by a nonlinear mooring restoring force and a coupled fluid-structure interaction exciting force. A general class of ocean mooring system models is formulated by incorporating a variable mooring configuration and the exact form of the hydrodynamic excitation. The multi-degree of freedom system, subjected to combined parametric and external excitation, is shown to be complex, coupled and strongly nonlinear. Stability analysis by a Liapunov function approach reveals global system attraction which ensures that solutions remain bounded for small excitation. Construction of the system's Poincare map and stability analysis of the map's fixed points correspond to system stability of near resonance periodic orbits. Investigation of nonresonant solutions is done by a local variational approach. Tangent and period doubling bifurcations are identified by both local stability analysis techniques and are further investigated to reveal global bifurcations. Application of Melnikov's method to the perturbed averaged system provides an approximate criterion for the existence of transverse homoclinic orbits resulting in chaotic system dynamics. Further stability analysis of the subharmonic and ultraharmonic solutions reveals a cascade of period doubling which is shown to evolve to a strange attractor. Investigation of the bifurcation criteria obtained reveals a steady state superstructure in the bifurcation set. This superstructure identifies a similar bifurcation pattern of coexisting solutions in the sub, ultra and ultrasubharmonic domains. Within this structure strange attractors appear when a period doubling sequence is infinite and when abrupt changes in the size of an attractor occur near tangent bifurcations. Parametric analysis of system instabilities reveals the influence of the convective inertial force which can not be neglected for large response and the bias induced by the quadratic viscous drag is found to be a controlling mechanism even for moderate sea states. Thus, stability analyses of a nonlinear ocean mooring system by semi-analytical methods reveal the existence of bifurcations identifying complex periodic and aperiodic nonlinear phenomena. The results obtained apply to a variety of nonlinear ocean mooring and towing system configurations. Extensions and applications of this research are discussed. / Graduation date: 1992

Offshore structures -- Hydrodynamics

Deep-sea moorings

Nonlinear oscillations

Resolving relationships between deep-sea benthic diversity and multi-scale topographic heterogeneity

Du Preez, Cherisse

02 January 2015

Resolving diversity patterns and their underlying drivers has application for both ecological theory and ocean management. Because seafloor characteristics are often used to assess bottom habitat, I examined the relationship between deep-sea benthic (bottom-living) diversity and multi-scale topographic heterogeneity. Most work occurred on the Canadian Pacific continental shelf at Learmonth Bank with additional sites in Strait of Georgia (BC) and Gulf of Maine (Atlantic shelf). High-resolution species distribution and seafloor data were annotated from remotely operated vehicle benthic imagery surveys while large-scale seafloor data were derived from multibeam sonar. New method development to address problems of current methods and to facilitate comparison among ecosystems is a major outcome. My new MiLS method (microtopographic laser scanning) can profile the deep seafloor at a resolution of ~1-2 cm with high accuracy and precision. I also developed a new ACR (arc-chord ratio) rugosity index as a measure of 3-D topographic heterogeneity that is simple, accurate and highly versatile. Model systems and scales vary among my studies but results consistently yield a positive relationship between diversity and topographic heterogeneity and identify bottom hydrodynamics as an important underlying driver. Rockfish Sebastes spp. associate with higher seafloor rugosity non-randomly and select for deep-sea corals and sponges over inert substrata alone. Data indicate that degradation of biogenic structures is a long-term detriment to rockfish species. Gorgonian coral- and sponge-dominant biotopes strongly associate with a single substratum type. These relationships were used to map coral and sponge distributions. This work, which collectively adds new information on the ecological relevance and distribution of corals and sponges, is pertinent to the conservation and management of fish stocks and vulnerable marine ecosystems. Epibenthic community variables abundance, richness, and Shannon diversity positively correlated with both the local microtopographic heterogeneity on a scale of 10 m2 and with the surrounding regional large-scale topographic heterogeneity on scales of 25 to 250,000 m2. Relationships were strongest between epibenthic community variables and the largest scale rugosity and were used to generate and test predictive diversity models. Where management strategies rely on surrogate measures in data-poor areas, mapping benthic diversity using ACR rugosity will provide good indicators. Although bottom hydrodynamics is consistently identified as an underlying driver of epibenthic patterns related to topographic heterogeneity, data suggest the nature of the relationship varies across spatial scales. At small scales, high topographic heterogeneity likely increases diversity by increasing the number of available niches (including hydrodynamic gradients; e.g., the abrupt vertical rugosity created by tall corals and sponges provides rockfish refuge from currents) while at large scales, high topographic heterogeneity increases local diversity less directly through distant hydraulic events that alter bottom flow hydrodynamics. / Graduate / 0329 / 0416 / 0799 / cdupreez@uvic.ca

Diversity

Benthic

Heterogeneity

Rugosity

Landscape ecology

Roughness

Rockfish

Coral

Sponge

Deep-sea

Remotely operated vehicle

Multibeam bathymetry

Learmonth Bank

Essor et déclin de la pêche industrielle à La Rochelle (1871-1994) / Expansion and decline of industrial fishing in La Rochelle (1871-1994)

Moulinier, Henri

27 June 2014

Située au coeur du golfe de Gascogne, La Rochelle fut dès sa naissance au début du XIIe siècle une communauté de pêcheurs. La ville s’affirme comme une cité marchande, devenant l’une des plus dynamiques de l’Ouest français. Son port de commerce se déplace sur un nouveau site en 1890, libérant le vieux port au centre-ville pour la pêche. De nombreux voiliers viennent déjà y vendre leur pêche sur un marché aux poissons attractif, que le chemin de fer relie à l’intérieur du pays en 1857. Une nouvelle page s’ouvre, celle du chalutage industriel qui fait une percée majeure en Grande-Bretagne. A La Rochelle, après l’échec d’une tentative de l’anglais Craggs d’y implanter le chalutage à vapeur en 1871, de grands armements à la pêche industrielle sont fondés de 1904 à 1920. Une première période d’essor de ces armements fait de la cité le deuxième port de pêche de France, le premier de l’Atlantique. Après le marasme des pêches françaises et la crise de la flottille de chalutiers à vapeur rochelais, un nouvel essor du port s’affirme après la Seconde guerre mondiale. La Rochelle redevient le quatrième port de pêche de France dans les années 1960. Mais l’année 1965 marque une rupture de la pêche industrielle rochelaise et un déclin s’ensuit qui conduit à la disparition des derniers grands chalutiers en 1994. De nombreux travaux menés jusqu’ici ont porté sur d’autres ports de pêche de France. Cette étude a l’ambition de contribuer à la connaissance de plus d’un siècle d’histoire de pêche industrielle du port de La Rochelle, de ses dimensions économiques, sociologiques, politiques et écologiques, dans le cadre d’une étude comparative, en analysant les caractéristiques et les raisons de cet essor et celles d’un déclin précoce et rapide. / Situated in the heart of the bay of Biscay, La Rochelle, right from its foundation, at the beginning of the XIIth century, was a community of fishermen. It then became one of the most dynamic cities in western France. In 1890 the commercial port moved to a new site, liberating the old port in the city centre for fishing activities. Many sailing ships came to sell their fish on an attractive fish market boosted by the railway connection to the inland part of the country in 1857. A new era started with industrial trawling, a major innovation in Great Britain. In 1871, the English shipowner Craggs tried to introduce steam-powered trawling but suffered a setback . However from 1904 to 1920 important armaments in industrial trawling were created, making La Rochelle, in this early period of expansion, the second fishing port in France and the first one on the Atlantic coast. After the stagnation of French fisheries and a crisis of Rochelais steam-powered trawlers, a new expansion of the port occured after WWII. In the sixties, La Rochelle became the 4th fishing port in France, until in 1965 a break in industrial fishing activities resulted in the loss of the last big trawlers in 1994. There have been numerous documents about other fishing ports in France. This study aims to concentrate on the history of industrial fishing in the port of La Rochelle over a century, highlighting its economic, sociological, political and ecological dimensions. For this purpose a comparative study has been made, analysing the characteristics and the reasons of this expansion as well as the ones of a rapid and premature decline.

La Rochelle

Pêche industrielle

Pêche hauturière

Chalutiers

Armements

Marins pêcheurs

La Rochelle

Industrial fishing

Deep-sea fishing

Trawlers

Armaments

Fishermen

Chemical Investigation of Antarctic Marine Organisms & Their Role in Modern Drug Discovery

Fries, Jacqueline Lee

23 February 2016

The chemicals produced by biological systems, whether proteins, peptides, or terpenes, will always provide an intriguing topic for researchers. Invisibly controlling every aspect of nature, these molecules are responsible for life, evolution, and death. Specifically, here is described the secondary metabolites produced by Antarctic marine organisms as well as others, and how they are used to defend or attract other animals while potentially providing health benefits to mankind. This is done through collection, extraction, and separation of individual specimens. The respective mixtures of compounds after isolation are then analyzed via spectroscopic methods such as nuclear magnetic resonance spectroscopy, mass spectrometry, and X-ray crystallography. Once identified, these compounds are tested in biological assays to provide a hypothesis for their use in nature or evidence that there may be a use for them in medicine. For this thesis, the Antarctic organisms described are an alga, Pocamium cartilagineum, an amphipod, Paradexamine fissicauda, a sponge, Dendrilla membranosa, and one undescribed and two known deep sea coral species, Briareopsis aegeon and Plumarella delicatissima. Beyond these specific specimens, their chemistry as well as natural products from other origins were combined to create a diverse compound library for biological screening against human pathogens. This was done using computational modeling and statistical analysis of the compound library and its comparison to other known chemical libraries. The diversity and impact of these molecules are assessed.

Natural Products

Cheminformatics

Ecology

Metabolomics

Deep Sea

Octocorals

Algae

Plocamium

Plumarella

Chemistry

Medicinal Chemistry and Pharmaceutics

Organic Chemistry

Investigating Trophic Interactions of Deep-sea Animals (Sharks, Teleosts, and Mobile scavengers) in the Gulf of Mexico Using Stable Isotope Analysis

Churchill, Diana A

02 July 2015

The deep-sea is the largest habitat on earth, containing over 90 percent of the world’s oceans and home to over 20,000 species. Deep-sea ecosystems are increasingly impacted by human activities including fishing and oil extraction. To understand potential impacts on deep-sea food webs, it is crucial to gather baseline data in these systems. I quantified the trophic interactions of three groups of deep-water animals across a range of trophic levels living in the northern and eastern Gulf of Mexico using stable isotope analysis. First, I propose methods for correcting δ15N values for the presence of nitrogenous metabolic waste products (e.g., urea) in muscle tissue using chemical extractions and/or species-specific mathematical normalizations. Significant differences in δ15N, %N, and C:N values as a result of extractions were observed in eight of ten shark and all three hagfish species. The δ15N values increased, but shifts in %N and C:N values were not unidirectional. Mathematical normalizations for δ15N values were successfully created for four shark and two hagfish species. I then describe the trophic interactions of three consumer assemblages. Carbon isotopic values indicate a heavy reliance on allochthonous nutrient inputs from surface waters. Nitrogen isotopic values reveal somewhat atypical taxa as top predators in the deep sea. Shark, teleost, and invertebrate species across a wide range of body sizes are feeding at a similar trophic level. This apparent lack of size structuring could be the result of a high degree of opportunistic scavenging or perhaps feeding at many trophic levels simultaneously in an oligotrophic system. There was a high degree of isotopic niche overlap among species within each consumer assemblage, perhaps the result of limited nutrient resources in the deep-sea. In general, individuals from the northern sampling stations displayed higher δ13C and δ15N values than those from the eastern sites. With the exception of a few species, there were no strong relationships between body size and isotopic values. The present study is among the first characterizations of the trophic structure of deep-sea organisms in the Gulf of Mexico and establishes system baselines for future studies describing deep-water systems and investigating anthropogenic impacts.

trophic ecology

deep-sea

stable isotope

elasmobranch

teleost

scavenger

food web

Gulf of Mexico

Ecology and Evolutionary Biology

Marine Biology

De nouveaux systèmes hôtes-virus associés aux sources hydrothermales océaniques profondes / New host-virus systems from deep sea hydrothermal vents

Mercier, Coraline

16 December 2016

Nos connaissances sur la diversité virale associée aux micro-organismes présents dans les sources hydrothermales océaniques profondes restent encore limitées. Seules quelques études concernant l’abondance virale et l’impact de ceux-ci sur la mortalité microbienne dans ces écosystèmes sont disponibles. En effet, seuls 6 bactériovirus et 2 archéovirus provenant de ces écosystèmes ont été caractérisés à l’heure actuelle. Les deux archéovirus infectent des archées anaérobies hyperthermophiles appartenant à l’ordre des Thermococcales et ont été décrits au laboratoire.Afin d’étendre nos connaissances sur la diversité virale associée aux micro-organismes colonisant ces environnements, il a été décidé d’élargir les recherches à l’ordre bactérien des Thermotogales. Cet ordre bactérien est composé de bactéries chimio-organotrophes anaérobies en majorité thermophiles ou hyperthermophiles. De nombreux transferts latéraux de gènes ont contribué à l’histoire évolutive des Thermotogales supposant une forte implication des virus dans celle-ci. Ces travaux de thèse ont permis la caractérisation fonctionnelle et génomique de deux nouveaux siphovirus, MCV1 et MCV2, infectant deux souches de Marinitoga camini. Ces souches ont été isolées de deux sites hydrothermaux profonds (Menez Gwen et Lucky Strike) au niveau de la dorsale médio-atlantique. Ces virus mettent en oeuvre un cycle lysogénique avec une production basale sans induction relativement haute (>107 virions/ml). Une comparaison de ces deux génomes viraux à celui de MPV1, virus précédemment isolé de Marinitoga piezophila, a été réalisée, révélant la présence de nombreuses similarités. Un core genome de 35 ORFs partagé par ces trois génomes a été identifié, incluant des protéines impliquées dans le métabolisme de l’ADN, l’assemblage des virions et le cycle lysogénique. Des protéines hypothétiques ont aussi été identifiées parmi ces gènes communs, elles portent donc probablement des fonctions importantes pour ces bactériovirus. Par ailleurs, 60% des gènes de ces virus ayant une correspondance dans les bases de données, après exclusion des Thermotogales, partagent des similarités avec lesFirmicutes et les bactériovirus qui leurs sont associés. Le génome d’une autre Thermotogales, Thermosipho sp. AT1244-VC14 a été étudié ainsi que son système CRISPR-cas. Ces résultats indiquent que cette souche, qui porte un système CRISPR-cas qui semble complet et fonctionnel, a probablement déjà été infectée par MCV1, MCV2 ou un virus similaire. Ces travaux permettent d’étendre nos connaissances sur les virus portés par les bactéries du phylum Thermotogae, encore peu décrits à ce jour. Les éléments génétiques mobiles associés à ce phylum sont particulièrement intéressants car ils ont probablement eu un impact important dans l’évolution de ces communautés microbiennes ainsi que dans leur adaptation aux conditions physico-chimiques extrêmes et fluctuantes présentes dans les écosystèmes qu’elles colonisent. / Our knowledge of the viral diversity associated to microorganisms inhabiting the deep-sea hydrothermal vents is still limited. Only a few studies have focused on viral abundance and impact on microbial mortality within these ecosystems. A limited number of viruses (6 bacterioviruses and 2 archaeoviruses) were isolated from these environments and characterized. Two viruses associated to hyperthermophilic anaerobic Archaea, from the Thermococcales order, have been described in our laboratory. In order to deepen our knowledge on the viral diversity of these extreme environments, we have extended our investigation to the bacterial order of Thermotogales. This order is composed of anaerobic chemoorganotrophic bacteria that are, for the most part, hyper/thermophilic. Numerous lateral gene transfers have contributed to the evolutionary history of the Thermotogales, implying the potential involvement of viruses. Here, we will report the characterization of two new siphoviruses MCV1 and MCV2 that infect two strains of Marinitoga camini. Those bacterial strains were isolated from two deep-sea hydrothermal vents sites (Menez Gwen and Lucky strike) in the Mid Atlantic Ridge. These viruses are temperate with a high basal production of virions (>107 virions/mL). Comparative genomics with MPV1, a virus isolated from M. piezophila, was performed and show that those bacterioviruses share numerous similarities. A set of “core genes” shared by all these three viruses was identified and includes proteins involved in DNA metabolism, head and tail assembly and lysogenic cycle. Shared hypothetical proteins were also identified, suggesting that these unknown proteins probably provide important functions for these viruses. Interestingly, for genes with blastp matches in Genbank, over 60% have their top matches, outside the Thermotoga, to genes from Firmicutes and bacterioviruses associated to Firmicutes. We also analyzed the genome of Thermosipho sp. 1244 and studied his CRISPR-cas system. Our results indicated that thisThermosipho strain, with a complete and functional CRISPR-cas system, had already been infected by MCV1, MCV2 or a similar virus. The analyses presented here extend our knowledges about these newly discovered viruses in the deeply branching bacterial phylum Thermotogae. This bacterial order and associated mobile genetic elements are significant for addressing long-term evolutionary adaptation to fluctuant and extreme physicochemical conditions.

Bactériovirus

Thermotogales

Sources hydrothermales profondes

Éléments génétiques mobiles

Océans profonds

Bacterioviruses

Thermotogales

Deep sea

Hydrothermal vents

Mobile genetic elements

578.77

A Temporal Analysis of a Deep-Pelagic Crustacean Assemblage (Decapoda: Caridea: Oplophoridae and Pandalidae) in the Gulf of Mexico After the Deepwater Horizon Oil Spill

Nichols, Devan

11 May 2018

In 2010, the largest oil spill in U.S history occurred off the coast of Louisiana from April 20th to September 19th, when the well was declared officially sealed by the U.S Coast Guard, after releasing more than 4.4 million barrels of crude oil into the Gulf of Mexico (GOM) (McNutt et al., 2012). This spill was unique because it occurred in deep water approximately 1500 m below the ocean surface. Virtually nothing is known about the effects of oil spills on marine life in the deep sea, and there are limited data on mesopelagic and bathypelagic animals in the GOM before the Deepwater Horizon oil spill (DWHOS). The study presented here focuses on one of the most abundant and diverse groups of pelagic decapod crustaceans in the GOM – the family Oplophoridae and also includes one species from the family Pandalidae. Past studies on pelagic decapod crustaceans have been limited on both spatial and temporal scales. This study is unique because 1) it covers a large temporal range with data collected in 2011 and from 2015-2017, allowing for a more in-depth look at crustacean assemblage patterns, 2) it allows analysis of seasonality in reproduction, about which little is known for any deep-sea species, and 3) it assesses the potential effects of the Loop Current on species distribution and abundances, about which little is known. This information is important in understanding how the DWHOS may have affected the GOM ecosystem because pelagic decapod crustacean are intermediate components of the food web, and are in turn preyed upon by higher trophic levels. Unfortunately, there were little data on the mesopelagic ecosystem from this region before the spill, with the exception of a site in the eastern GOM (Standard Station, Hopkins et al., 1989; Hopkins et al., 1994). Therefore, these data, which incorporate samples taken one, five, six and seven years after the DWHOS, were analyzed with respect to year and season to determine if any trends were present. Results indicate that both biomass and abundance were significantly higher in 2011, than in subsequent years, indicating that the ecosystem has been declining since 2011. These two parameters were also lower in Loop Current water when compared to Common Water at all depths up to 1200 m, indicating that the Loop Current does have effects on deeper waters. The information obtained from this thesis will also act as a reference state for future studies in the GOM to monitor changes, or lack thereof, in the assemblage of deep-sea oplophorid and pandalid crustaceans.

Oplophoridae

Pandalidae

Pelagic Decapod Crustaceans

Seasonality

Deep Sea

Deepwater Horizon Oil Spill

Marine Biology

An investigation of the thermal structure in the vicinity of IPOD sites 417 and 418

Galson, Daniel Allen

January 1979

Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Science, 1979. / Microfiche copy available in Archives and Science. / Bibliography: leaves 114-116. / by Daniel Allen Galson. / M.S.

Earth and Planetary Sciences

Ocean bottom North Atlantic Ocean

Heat budget (Geophysics)