Faunal composition and community structure of the world\'s deepest whale-fall community: shedding light on the ecological role of Osedax (Polychaeta: Siboglinidae) and whale-fall biogeography / Composição Faunística e estrutura da comunidade da carcaça de baleia mais profunda do mundo: esclarecendo o papel ecológico de Osedax (Polychaeta: Siboglinidae) e a biogeografia de carcaças de baleia

Lucas, Joan Manel Alfaro

30 November 2015

This study aims to describe the faunal composition and community structure of the world\'s deepest whale fall and the first found in the South Atlantic Ocean. This discovery adds very important data on the poorly known whale-fall biogeography and provides new insights on the ecological role of the \"bone-eating\" worm Osedax (Polychaeta: Siboglinidae) on associated biota. The whale fall was serendipitously found in April 24th, 2013 at the base of São Paulo Ridge at 4204 m depth in the SW Atlantic Ocean using the HOV Shinkai 6500 during the Brazil-Japan joint Iatá-Piúna Oceanographic Expedition on board RV Yokosuka (Japan Agency for Marine-Earth Science and Technology, JAMSTEC). Detailed video surveys of the carcass were made using high-definition video cameras. Vertebrae, surrounding sediments and fauna were also collected using the submersible manipulators and a slurp gun. The partial skeleton belonged to an Antarctic Minke whale, Balaenoptera bonaerensis, and was composed of nine caudal vertebrae, whose degradation state suggests it was on the bottom for at least 5 years. Most of the 41 invertebrate species found are new to science, with ca. 12% of the genera shared with NE Pacific whale falls, vent and seep ecosystems. This similarity strongly supports the hypothesis that whale falls act as \"stepping-stones\" for the dispersion of chemosynthetic fauna and that some whale-fall specialists are widespread worldwide at genus level. Detailed investigation of inner bone assemblages indicates that Osedax degradation deeply affects their diversity and structure. Bones colonized by Osedax support distinct, significantly more diverse and abundant assemblages. This renders Osedax the status of ecosystem engineer, creating new microhabitats and enhancing biodiversity in deep-sea whale-fall communities. / O presente estudo descreve a composição faunística e a estrutura da comunidade de carcaça de baleia mais profunda do mundo e a primeira a ser encontrada no Oceano Atlântico Sul. A descoberta adiciona dados importantes à quase desconhecida biogeografia destas comunidades, assim como aumenta o conhecimento sobre o papel ecológico dos vermes-zumbis do gênero Osedax (Polychaeta: Siboglinidae), especialistas no consumo e degradação de ossos. A carcaça foi fortuitamente descoberta em 24 de Abril de 2013, na base da Dorsal de São Paulo a 4204 m de profundidade (Atlântico Sudoeste), utilizando-se o submersível de pesquisa tripulado Shinkai 6500 (Agência Japonesa para o Estudo das Ciências do Mar e da Terra e Tecnologia, JAMSTEC na sigla em inglês). Os mergulhos fizeram parte da Expedição Oceanográfica Iatá-Piúna, fruto de um acordo bilateral de cooperação científica em Ciências do Mar entre Brasil e Japão. Durante dois mergulhos foram feitos vídeos detalhados da carcaça através de uma câmera de alta definição. Também foram coletadas vértebras, sedimentos e fauna por meio dos braços manipuladores e de um sugador. O esqueleto parcial pertencia a uma baleia Minke Antártica, Balaenoptera bonaerensis, e era composto por nove vértebras, cujo estado de degradação sugere que a baleia estava no assoalho marinho por pelo menos 5 anos. A maioria das 41 espécies de invertebrados encontradas são novas para a ciência e cerca de 12% dos gêneros são compartilhados com ambientes redutores do Pacífico Nordeste, como carcaças, fontes hidrotermais e exsudações frias. Tal semelhança corrobora fortemente a hipótese de que carcaças de baleia atuam como \"pedras de dispersão\" para a fauna de ambientes quimiossintetizantes e que alguns organismos especialistas de carcaças de baleia possuem distribuição mundial em nível genérico. A investigação detalhada da endofauna dos ossos indicou que a degradação promovida por Osedax afeta profundamente sua diversidade e estrutura. Ossos colonizados por Osedax sustentam assembleias de organismos significativamente mais diversas e abundantes. Isso faz com que Osedax seja considerado um engenheiro ecossistêmico, pois cria novos microhábitats promovendo o aumento da biodiversidade em comunidades de carcaças de baleia no mar profundo.

Osedax

Osedax

Ambientes redutores

Biodiversidade

Biodiversity

Carcaças de baleia

Deep-sea

Hipótese das pedras de dispersão

Mar profundo

Reducing environments

Stepping-stone hypothesis

Whale fall

Distribuição dos foraminíferos bentônicos vivos no talude continental e Platô de São Paulo, Bacia de Campos (23º 12'-24º 30'S e 39º59'-41º 20'W): fatores ambientais condicionantes / Distribution of living benthic foraminifera on the continental slope and Plateau of São Paulo, Campos Basin (23º 12\'24º 30\' and 39º 59\'41º20\"): controlling environmental factors

Yamashita, Cintia

15 June 2011

O presente estudo compreende a análise de distribuição dos foraminíferos bentônicos vivos no talude continental da Bacia de Campos e Platô de São Paulo, procurando compreender os fatores ambientais condicionantes dessa distribuição. Amostras de sedimento foram coletadas, entre 400 e 3000 m de profundidade, no outono/inverno de 2008, e verão de 2009. Dados sedimentológicos, geoquímicos e microfaunísticos permitiram identificar dois setores na área de estudo. O Setor I inclui amostras do talude superior e médio (400-1300 m de profundidade), e é caracterizado por valores altos de densidade, diversidade, densidade das espécies de foraminíferos bentônicos indicadoras de produtividade (BFHP), de carbono orgânico, e pela presença de espécies como Adercotryma wrighti, Globocassidulina subglobosa e Pullenia bulloides, refletindo maior disponibilidade de alimento, com fluxos episódicos de fitodetritos. O setor II, constituído de amostras do talude inferior e Platô de São Paulo (1300-3000 m de profundidade), é caracterizado por baixos valores de densidade, diversidade, BFHP e de carbono orgânico, com predomínio de espécies epifaunais, indicando condições mais oligotróficas. O oxigênio não se mostrou um fator restritivo à distribuição da microfauna, entretanto, constatou-se que os processos hidro-sedimentares (p.e ação da CB junto ao fundo) e a morfologia de fundo são fatores controladores das condições tróficas no ambiente, determinando assim variações latitudinais e temporais da microfauna de foraminíferos bentônicos vivos na Bacia de Campos. / The present study comprise the analysis of the distribution of living benthic foraminifera on the continental slope of Campos Basin and Plateau of São Paulo to understand the environmental factors determining this distribution. Sediment samples were collected between 400 m and 3000 m water depth, in the austral autumn/winter of 2008, and summer of 2009. Sedimentological, geochemical and microfauna data indicated the existence of two sectors in the study area. Sector I includes samples from the upper and middle slope (400-1300 m water depth), and is characterized by high levels of density, diversity, Benthic Foraminifera High Productivity (BFHP), organic carbon and the presence of species such as Adercotryma wrighti, Pullenia bulloides and Globocassidulina subglobosa, reflecting greater availability of food, with episodic phytodetritus fluxes. Sector II, consisting of samples of the lower slope and Plateau of São Paulo (1300-3000 m water depth), is characterized by low values of density, diversity, BFHP and organic carbon, with species predominant epifaunal, indicating more oligotrophic conditions. Oxygen was not a limiting factor to the distribution of the microfauna, however the hydro-sedimentary (BC influence in the sea floor) and morphology processes are background factors controlling trophic conditions of the environment, determining the temporal and latitudinal variations of the microfauna of living benthic foraminifera in Campos Basin.

Bacia de Campos

Brazilian continental margin

deep sea Campos Basin

ecologia

ecology

Foraminíferos bentônicos vivos

Living benthic foraminifera

mar profundo

margem continental Brasileira

Etude de la dynamique temporelle et environnementale contrôlant la mégafaune profonde vivant dans le Canyon de Barkley grâce à l'utilisation de l'observatoire Ocean Network Canada / Temporal dynamic and environnemental control of deep-sea megafauna in Barkley Canyon using Ocean Network Canada Observatory

Chauvet, Pauline

07 December 2018

La dynamique temporelle des communautés de mégafaune épibenthique associées aux marges continentales demeurent peu connue. Face à ce constat, l’objectif de cette thèse est de mettre en évidence les échelles temporelles, les facteurs environnementaux et les processus qui régissent la dynamique des communautés vivant entre 400 et 1000 m de profondeur sur la pente et dans le Canyon de Barkley (Colombie-Britannique, Canada). Pour répondre à cet objectif, nous avons utilisé les séquences vidéo et les données océanographiques fournies sur chaque site par l’observatoire NEPTUNE d’Ocean Networks Canada. Ces données ont été couplées aux paramètres météorologiques et océanographiques de surface fournis par la bouée La Perouse bank, ainsi qu’aux images satellitaires (NASA) de concentration en chlorophylle de surface. Le gradient bathymétrique et oxique entre la pente et les sites du canyon sont vraisemblablement responsables de la composition spécifique distincte de ces communautés. Les variations saisonnières dominaient de la même manière la dynamique temporelle des trois communautés. Celles-ci ont été associées à la variation de production primaire de surface qui semble exercer son influence au travers de nombreux processus tels que l’arrivée de nourriture sur le fond ou par effets de cascade via la chaîne trophique. Nous avons également montré au travers de l’étude du cycle de vie du crabe tanneur Chionoecetes tanneri l’importance des cycles de vie des espèces et l’influence potentielle des interactions biotiques dans cette dynamique des communautés. Des indices concernant des phénomènes de plus longue durée, probablement de l’ordre de la décennie, confirment l’importance de continuer ce type de suivi sur un plus long terme. / The temporal dynamics of epibenthic megafaunal communities inhabiting continental margins remain poorly studied. The objectives of this thesis were to describe the time scales, environmental factors and processes influencing the temporal dynamic of the communities living at 900 and 1000 m depth at the wall and the axis (respectively) of Barkley Canyon and at the adjacent slope at 400m depth (British Columbia, Canada). To this end, we used video sequences and oceanographic data acquired at each site by Ocean Networks Canada's NEPTUNE observatory. These data were combined with meteorological and oceanographic surface parameters provided by the LaPerouse bank buoy and the NASA satellite images for surface chlorophyll concentration.The bathymetric and oxic gradients between the slope and the canyon sites are likely responsible for the distinct species compositions observed for these communities. Seasonal variations equally dominated the temporal dynamics of the three communities.These results were associated with the variations in primary surface production through many processes such as the arrival of food at the bottom and/or by cascading effects via the trophic food chain. The study of the life cycle of the tanner crab Chionoecetes tanneri revealed the importance of species life cycles and the potential influence of biotic interactions in communities’ temporal dynamics. Some clues on phenomena of longer duration, probably decadal, confirmed the importance of maintaining long-term monitoring in the area.

Chionoecetes tanneri

Dynamique de communauté

Dynamique de population

Environnement profond

Imagerie

Zone de minimum d’oxygène

Community dynamic

Chionoecetes tanneri

Deep-sea

Population dynamic

Imagery

Oxygen minimum zone

Biodiversités électroactives issues de sources hydrothermales profondes

Pillot, Guillaume

14 December 2018

Les sources hydrothermales profondes sont des édifices géologiques formés par l’infiltration d’eau de mer dans la croûte océanique, formant un fluide chaud (>400 °C), riche en métaux qui précipite pour former des cheminées dans lesquelles circulent un courant électrique. Les travaux de recherche présentés ici avaient pour objectif de révéler la présence de microorganismes capable de participer à la production de ce courant électrique ou d’utiliser cette électricité pour vivre au sein de ces cheminées électriquement conductrices. Nous nous sommes focalisés sur les microorganismes capables de survivre à haute température (entre 60 et 95°C). Différentes communautés microbienne en interaction et électroactives ont pu être cultivées permettant de poser des hypothèses crédibles quant à la colonisation primaire de ces environnements extrêmes. Ces hypothèses pourraient également s’appliquer aux théories d’origine de la vie en contexte hydrothermal. / Deep hydrothermal vents are geologic structures formed by the infiltration of seawater into the oceanic crust, forming a hot metal-rich fluid (> 400 ° C) that precipitates to form chimneys in which an electric current flows. The purpose of the research presented here was to reveal the presence of microorganisms capable of participating in the production of this electric current or of using this electricity to live within these electrically conductive chimneys. We focused on microorganisms able to survive at high temperatures (between 60 and 95 ° C). Different interacting and electroactive microbial communities have been cultivated, allowing the building of credible hypotheses about the primary colonization of these extreme environments. These hypotheses could also be applied to theories of origin of life in a hydrothermal context.

Source hydrothermale profonde

Ecologie microbienne

Biofilm électro-Actif

Pile à combustible microbienne

Electrosynthèse microbienne

Deep-Sea Hydrothermal Vent

Microbial Ecology

Electroactive Biofilm

Microbial Fuel Cell

Microbial Electrosynthesis

550

Faunal composition and community structure of the world\'s deepest whale-fall community: shedding light on the ecological role of Osedax (Polychaeta: Siboglinidae) and whale-fall biogeography / Composição Faunística e estrutura da comunidade da carcaça de baleia mais profunda do mundo: esclarecendo o papel ecológico de Osedax (Polychaeta: Siboglinidae) e a biogeografia de carcaças de baleia

Joan Manel Alfaro Lucas

30 November 2015

This study aims to describe the faunal composition and community structure of the world\'s deepest whale fall and the first found in the South Atlantic Ocean. This discovery adds very important data on the poorly known whale-fall biogeography and provides new insights on the ecological role of the \"bone-eating\" worm Osedax (Polychaeta: Siboglinidae) on associated biota. The whale fall was serendipitously found in April 24th, 2013 at the base of São Paulo Ridge at 4204 m depth in the SW Atlantic Ocean using the HOV Shinkai 6500 during the Brazil-Japan joint Iatá-Piúna Oceanographic Expedition on board RV Yokosuka (Japan Agency for Marine-Earth Science and Technology, JAMSTEC). Detailed video surveys of the carcass were made using high-definition video cameras. Vertebrae, surrounding sediments and fauna were also collected using the submersible manipulators and a slurp gun. The partial skeleton belonged to an Antarctic Minke whale, Balaenoptera bonaerensis, and was composed of nine caudal vertebrae, whose degradation state suggests it was on the bottom for at least 5 years. Most of the 41 invertebrate species found are new to science, with ca. 12% of the genera shared with NE Pacific whale falls, vent and seep ecosystems. This similarity strongly supports the hypothesis that whale falls act as \"stepping-stones\" for the dispersion of chemosynthetic fauna and that some whale-fall specialists are widespread worldwide at genus level. Detailed investigation of inner bone assemblages indicates that Osedax degradation deeply affects their diversity and structure. Bones colonized by Osedax support distinct, significantly more diverse and abundant assemblages. This renders Osedax the status of ecosystem engineer, creating new microhabitats and enhancing biodiversity in deep-sea whale-fall communities. / O presente estudo descreve a composição faunística e a estrutura da comunidade de carcaça de baleia mais profunda do mundo e a primeira a ser encontrada no Oceano Atlântico Sul. A descoberta adiciona dados importantes à quase desconhecida biogeografia destas comunidades, assim como aumenta o conhecimento sobre o papel ecológico dos vermes-zumbis do gênero Osedax (Polychaeta: Siboglinidae), especialistas no consumo e degradação de ossos. A carcaça foi fortuitamente descoberta em 24 de Abril de 2013, na base da Dorsal de São Paulo a 4204 m de profundidade (Atlântico Sudoeste), utilizando-se o submersível de pesquisa tripulado Shinkai 6500 (Agência Japonesa para o Estudo das Ciências do Mar e da Terra e Tecnologia, JAMSTEC na sigla em inglês). Os mergulhos fizeram parte da Expedição Oceanográfica Iatá-Piúna, fruto de um acordo bilateral de cooperação científica em Ciências do Mar entre Brasil e Japão. Durante dois mergulhos foram feitos vídeos detalhados da carcaça através de uma câmera de alta definição. Também foram coletadas vértebras, sedimentos e fauna por meio dos braços manipuladores e de um sugador. O esqueleto parcial pertencia a uma baleia Minke Antártica, Balaenoptera bonaerensis, e era composto por nove vértebras, cujo estado de degradação sugere que a baleia estava no assoalho marinho por pelo menos 5 anos. A maioria das 41 espécies de invertebrados encontradas são novas para a ciência e cerca de 12% dos gêneros são compartilhados com ambientes redutores do Pacífico Nordeste, como carcaças, fontes hidrotermais e exsudações frias. Tal semelhança corrobora fortemente a hipótese de que carcaças de baleia atuam como \"pedras de dispersão\" para a fauna de ambientes quimiossintetizantes e que alguns organismos especialistas de carcaças de baleia possuem distribuição mundial em nível genérico. A investigação detalhada da endofauna dos ossos indicou que a degradação promovida por Osedax afeta profundamente sua diversidade e estrutura. Ossos colonizados por Osedax sustentam assembleias de organismos significativamente mais diversas e abundantes. Isso faz com que Osedax seja considerado um engenheiro ecossistêmico, pois cria novos microhábitats promovendo o aumento da biodiversidade em comunidades de carcaças de baleia no mar profundo.

Osedax

Ambientes redutores

Biodiversidade

Carcaças de baleia

Hipótese das pedras de dispersão

Mar profundo

Osedax

Biodiversity

Deep-sea

Reducing environments

Stepping-stone hypothesis

Whale fall

Evolutionary and Population Dynamics of Crustaceans in the Gulf of Mexico

Timm, Laura

07 June 2018

Evolution occurs and can be conceptualized along a spectrum, bounded on one extreme by the relationships between deep lineages – such as phyla, classes, and orders – and on the other by the molecular dynamics of operational taxonomic units within a species, defined as population genetics. The purpose of this dissertation was to better understand the evolutionary and population dynamics of crustaceans within the Gulf of Mexico. In the second chapter of my dissertation, I provide a guide to best phylogenetic practice while reviewing infraordinal relationships within Decapoda, including the promise held by next-generation sequencing (NGS) approaches such as Anchored Hybrid Enrichment. Chapter III is a phylogenetic study of species relationships within the economically important shrimp genus, Farfantepenaeus, targeting three mitochondrial genes and uncovering an intriguing pattern of latitudinal speciation. As the first inclusive molecular phylogeny of the genus, we find support for the newly described species F. isabelae, but a lack of support for the species status of F. notialis. Additionally, our results suggest the existence of two distinct subspecies of F. brasiliensis. Chapter IV investigates the relative impacts of habitat heterogeneity and the presence of a possible glacial refugium in determining population dynamics of the Giant Deep-Sea Isopod, Bathynomus giganteus in the northern Gulf of Mexico. Through hybrid population genetics/genomics analyses and Bayesian testing of population models, we find strong evidence for habitat heterogeneity determining population dynamics for this charismatic deep-sea invertebrate. Chapter V further investigates the role of environment in determining and maintaining genetic diversity and population connectivity, specifically focused on establishing biological baselines with which we can diagnose health and resilience of the Gulf of Mexico. This was accomplished through a comparative NGS population genomics study of three species of mesopelagic crustaceans: Acanthephyra purpurea, Systellaspis debilis, and Robustosergia robusta. While diversity and connectivity differs in each species, the comparative results bespeak the importance of access to the Gulf Loop Current in determining and maintaining population dynamics. Overall, my work significantly contributes to our knowledge of Crustacea at the phylogenetic- and population genetic-level.

Crustacea

Decapoda

Evolution

Phylogeny

Population Genetics/Genomics

Farfantepenaeus

Shrimp

Giant Deep-Sea Isopod

Mesopelagic

Gulf of Mexico

Biology

Evolution

Genomics

Marine Biology

Molecular Genetics

Population Biology

The mineralogy and chemistry of modern shallow-water and deep-sea corals

Farfan, Gabriela A.(Gabriela Aylin)

January 2019

Thesis: Ph. D., Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2019 / Cataloged from PDF version of thesis. / Includes bibliographical references. / The architecture of coral reef ecosystems is composed of coral skeletons built from the mineral aragonite (CaCO3). Coral reefs are currently being threatened by ocean acidification (OA), which may lower calcification rates, reduce skeletal density, and increase aragonite dissolution. Crystallography and chemistry are what govern the materials properties of minerals, such solubility and strength. Thus, understanding the mineralogical nature of coral aragonite and how it forms are important for predicting bulk skeletal responses under climate change. Different models based on geochemical versus biological controls over coral skeleton biomineralization propose conflicting predictions about the fate of corals under OA. Rather than investigating the mechanism directly, I use a mineralogical approach to study the aragonite end-products of coral biomineralization. / I hypothesize that coral mineralogy and crystallography will lend insights into how coral aragonite crystals form and how sensitive coral aragonite material properties may be to OA. Here I compare the crystallography, bonding environments, and compositions of coral aragonite with aragonite produced by other organisms (mollusk), synthetically (abiogenic precipitation in aragonite-supersaturated seawater and freshwater), and in natural geological settings (abiogenic). Coral aragonite crystallography does not resemble mollusk aragonite (aragonite formed with a strong biological influence), but rather is identical to abiogenic synthetic aragonite precipitated from seawater. I predict that the material properties of coral aragonite are similar to that of abiogenic synthetic seawater aragonites and that coral aragonite formation is sensitive to surrounding seawater chemistry. / To test the effect OA on coral aragonites, I studied deep-sea corals from a natural [omega][subscript sw], gradient (1.15-1.44) in the Gulf of Mexico and shallow-water corals across a natural [omega][subscript sw] (2.3-3.7) and pH (7.84-8.05) gradient in Palau. Minor shifts in crystallography are expressed by coral aragonite in these natural systems, likely governed by skeletal calcite contents, density, and [omega] of the coral calcifying fluid. My results are most consistent with a geochemical model for biomineralization, which implies that coral calcification may be sensitive to OA. However, further work is required to determine whether the modest crystallographic shifts I observe are representative on a global scale and whether they could influence bulk skeletal material properties. / by Gabriela A. Farfan. / Ph. D. / Ph.D. Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution)

Woods Hole Oceanographic Institution.

Corals.

Deep sea corals.

Mineralogy.

CoralsEcology.

CoralsComposition.

CoralsAnatomy.

CoralsGrowth.

How to find the one that got away : predicting the distribution of temperate demersal fish from environmental variables

Chatfield, Brenton Sean

January 2008

Knowing where species are and understanding why is paramount for developing relevant and sustainable conservation and resource management strategies. The need for this information is becoming urgent as fishing activity, resource extraction and the impacts of coastal developments continue to put marine resources under increasing pressure. As logistical and financial constraints can restrict our ability to collect data in the marine environment, the ability to predict distributions based on known associations with different environmental variables would enhance our capacity to manage these resources. Before attempting to predict the distribution of species and groups of species, the underlying species-environment relationships must be examined to determine whether associations between species and the environment can: (i) be identified, (ii) be used to develop models that can accurately predict distributions, and (iii) are general enough to allow accurate predictions beyond the sampled area. Most studies to date have compared the composition of fish assemblages between sites to determine how different environmental variables influence distribution. While widely applied, these methods do not consider how individual species respond to multiple environmental gradients and they lack the ability to predict distributions across different combinations of variables along those gradients. This lack of prediction also limits our capacity to assess what marine biodiversity is presently threatened by global, regional, and local human pressures on marine ecosystems. '...' Thus, summarising and modelling species data at higher levels would result in models with poorer predictive accuracy and a loss of ecological information. The generality of the species-environment relationships defined by the models were assessed by evaluating the transferability of models between different areas. Models developed from data collected over a wider geographic extent could more accurately predict the distribution of species across a smaller spatial extent than vice versa. This indicated that while general theories of the ecology of temperate demersal fish can be defined, the actual patterns of distribution may vary from site to site, suggesting caution when using predictions beyond the sampled area for management purposes. Overall, species distribution modelling identified how different species and groups of species responded to the combined influence of multiple environmental gradients and was able to accurately predict distributions based on the defined associations. Their application has led to a greater understanding of the species environment relationships and will help to identify those areas that may be important for conservation. Their predictive ability will allow general predictions of distribution of fish species across unsurveyed areas and provides the ability to assess the potential impact from implementing different policy and management strategies.

Deep-sea fishes

Fishery resources

Fishes -- Ecology

Species distribution models

Predictive modelling

Demersal fish

Species-environment relationships

The biogeochemical source and role of soluble organic-Fe(III) complexes in continental margin sediments

Beckler, Jordon Scott

12 January 2015

In the past couple of decades, the discovery that iron is a limiting nutrient in large regions of the ocean has spurred much research into characterizing the biogeochemical controls on iron cycling. While Fe(II) is soluble at circumneutral pH, it readily oxidizes to Fe(III) in the presence of oxygen. Fe(III) is highly insoluble at circumneutral pH, presenting organisms with a bioavailability paradox stemming from the physiological challenge of using a solid phase mineral for assimilatory or dissimilatory purposes. Interestingly, dissolved organic-Fe(III) complexes can be stable in seawater in the presence of oxygen, and an active flux of these complexes has recently been measured in estuarine sediments. Their sources and biogeochemical role, however, remain poorly understood. In this work, a suite of field and laboratory techniques were developed to quantify diagenetic processes involved in the remineralization of carbon in marine sediments in situ, investigate the role of these organic-Fe(III) complexes in sediment biogeochemistry, and characterize the composition of the ligands possibly involved in the solubilization of Fe(III) in marine sediments. The first-of-its-kind in situ electrochemical analyzer and HPLC was used to better constrain diagenetic processes that may lead to the formation of dissolved organic-Fe(III) complexes in the Altamaha estuary and Carolina slope. An intensive study of the Satilla River estuary reveals that dissimilatory iron-reduction contributes to the formation of sedimentary organic-Fe(III) complexes, which are demonstrated to serve as an electron acceptor in subsequent incubations with a model iron-reducing microorganism. Similar observations in deep-sea slope and abyssal plain sediments fed by the Mississippi and Congo Rivers suggest that dissimilatory iron reduction may represent an important component of carbon remineralization in river-dominated ocean margin sediments that may be currently underestimated globally. To confirm that these organic-Fe(III) complexes are produced during microbial iron reduction, novel separation schemes were developed to extract and identify Fe(III)-binding ligands from sediment pore waters. Preliminary results reveal the presence of a few select low-molecular weight compounds in all pore waters extracted, suggesting they might be endogenous ligands secreted by iron-reducing bacteria to non-reductively dissolve Fe(III) minerals prior to reduction.

Iron

Ocean

Marine

Organic ligands

HPLC

In-situ measurements

Congo fan

Louisiana slope

Hatteras slope

Satilla River

IMAC

HP-SEC

LC/ESI-MS

Anions

Shewanella

Deep-sea sediment

Distribuição dos foraminíferos bentônicos vivos no talude continental e Platô de São Paulo, Bacia de Campos (23º 12'-24º 30'S e 39º59'-41º 20'W): fatores ambientais condicionantes / Distribution of living benthic foraminifera on the continental slope and Plateau of São Paulo, Campos Basin (23º 12\'24º 30\' and 39º 59\'41º20\"): controlling environmental factors

Cintia Yamashita

15 June 2011

O presente estudo compreende a análise de distribuição dos foraminíferos bentônicos vivos no talude continental da Bacia de Campos e Platô de São Paulo, procurando compreender os fatores ambientais condicionantes dessa distribuição. Amostras de sedimento foram coletadas, entre 400 e 3000 m de profundidade, no outono/inverno de 2008, e verão de 2009. Dados sedimentológicos, geoquímicos e microfaunísticos permitiram identificar dois setores na área de estudo. O Setor I inclui amostras do talude superior e médio (400-1300 m de profundidade), e é caracterizado por valores altos de densidade, diversidade, densidade das espécies de foraminíferos bentônicos indicadoras de produtividade (BFHP), de carbono orgânico, e pela presença de espécies como Adercotryma wrighti, Globocassidulina subglobosa e Pullenia bulloides, refletindo maior disponibilidade de alimento, com fluxos episódicos de fitodetritos. O setor II, constituído de amostras do talude inferior e Platô de São Paulo (1300-3000 m de profundidade), é caracterizado por baixos valores de densidade, diversidade, BFHP e de carbono orgânico, com predomínio de espécies epifaunais, indicando condições mais oligotróficas. O oxigênio não se mostrou um fator restritivo à distribuição da microfauna, entretanto, constatou-se que os processos hidro-sedimentares (p.e ação da CB junto ao fundo) e a morfologia de fundo são fatores controladores das condições tróficas no ambiente, determinando assim variações latitudinais e temporais da microfauna de foraminíferos bentônicos vivos na Bacia de Campos. / The present study comprise the analysis of the distribution of living benthic foraminifera on the continental slope of Campos Basin and Plateau of São Paulo to understand the environmental factors determining this distribution. Sediment samples were collected between 400 m and 3000 m water depth, in the austral autumn/winter of 2008, and summer of 2009. Sedimentological, geochemical and microfauna data indicated the existence of two sectors in the study area. Sector I includes samples from the upper and middle slope (400-1300 m water depth), and is characterized by high levels of density, diversity, Benthic Foraminifera High Productivity (BFHP), organic carbon and the presence of species such as Adercotryma wrighti, Pullenia bulloides and Globocassidulina subglobosa, reflecting greater availability of food, with episodic phytodetritus fluxes. Sector II, consisting of samples of the lower slope and Plateau of São Paulo (1300-3000 m water depth), is characterized by low values of density, diversity, BFHP and organic carbon, with species predominant epifaunal, indicating more oligotrophic conditions. Oxygen was not a limiting factor to the distribution of the microfauna, however the hydro-sedimentary (BC influence in the sea floor) and morphology processes are background factors controlling trophic conditions of the environment, determining the temporal and latitudinal variations of the microfauna of living benthic foraminifera in Campos Basin.

Bacia de Campos

ecologia

Foraminíferos bentônicos vivos

mar profundo

margem continental Brasileira

Brazilian continental margin

deep sea Campos Basin

ecology

Living benthic foraminifera