Investigations into zooplankton assemblages off the west coast of Scotland

Richard, Jocelyn M.

January 1992

Zooplankton assemblages were examined from waters off the west coast of Scotland encompassing the Firths of Lorn and Clyde, the North Channel, and the Malin Shelf. Size fractionated samples (coarse, >1000μm; medium, 1000μm-330μm; fine, 330μm-180μm) were collected with a submersible pump from 10m and 30m depth in March (1987) and May (1986) providing a composite picture of the fauna in early and late spring conditions, respectively. The feasibility of using image analysis as a method for processing zooplankton samples was examined. Although a programme was successfully operated to obtain individual measurement data, much work is still required before a fully automated programme for routine use by planktologists is available. Total zooplankton numbers and biomass, and species distributions and relative abundances were examined. Species assemblages were identified using multivariate analyses. Biomass and abundance spectra by size were examined for the major station groupings. In general, meroplankton dominated the fauna in the Firth of Lorn while large numbers of Calanus spp. occurred in the Firth of Clyde. Small copepods such as Oithona spp. were characteristic of the assemblage on the Malin Shelf. Salinity, followed by temperature, showed the strongest association with the observed station clusters. Chlorophyll a and depth did not generally appear to influence station groupings. The potential for the mixing and exchange of zooplankton between the regions of the study area was evaluated. The results suggest that zooplankton may be entrained from the Firth of Clyde by the Scottish Coastal Current during the spring period. The Malin Shelf may also be an important source of zooplankton for the Firth of Lorn during winter months when an onshore flow of Atlantic water occurs.

551.46

Inter-annual variability of rainfall in Central America : Connection with global and regional climate modulators

Maldonado, Tito

January 2016

Central America is a region regularly affected by natural disasters, with most of them having a hydro-meteorological origin. Therefore, the understanding of annual changes of precipitation upon the region is relevant for planning and mitigation of natural disasters. This thesis focuses on studying the precipitation variability at annual scales in Central America within the framework of the Swedish Centre for Natural Disaster Science. The aims of this thesis are: i) to establish the main climate variability sources during the boreal winter, spring and summer by using different statistical techniques, and ii) to study the connection of sea surface temperature anomalies of the neighbouring oceans with extreme precipitation events in the region. Composites analysis is used to establish the variability sources during winter. Canonical correlation analysis is employed to explore the connection between the SST anomalies and extreme rainfall events during May-June and August-October. In addition, a global circulation model is used to replicate the results found with canonical correlation analysis, but also to study the relationship between the Caribbean Sea surface temperature and the Caribbean low-level jet. The results show that during winter both El Niño Southern Oscillation and the Pacific Decadal Oscillation, are associated with changes of the sea level pressure near the North Atlantic Subtropical High and the Aleutian low. In addition, the El Niño Southern Oscillation signal is intensified (destroyed) when El Niño and the Pacific Decadal Oscillation have the same (opposite) sign. Sea surface temperature anomalies have been related to changes in both the amount and temporal distribution of rainfall. Precipitation anomalies during May-June are associated with sea surface temperature anomalies over the Tropical North Atlantic region. Whereas, precipitation anomalies during August-September-October are associated with the sea surface temperature anomalies contrast between the Pacific Ocean and the Tropical North Atlantic region. Model outputs show no association between sea surface temperature gradients and the Caribbean low-level jet intensification. Canonical correlation analysis shows potential for prediction of extreme precipitation events, however, forecast validation shows that socio-economic variables must be included for more comprehensive natural disaster assessments.

Precipitation

climate variability

El Niño Southern Oscillation

Tropical North Atlantic

Canonical Correlation Analysis

EC-EARTH

Caribbean Low-Level Jet

La dynamique du courant profond de bord ouest dans l'Atlantique Nord et son influence sur la circulation méridienne moyenne / The Deep Western Boundary Current dynamics in North Atlantic and its impact on the mean meridional overturning circulation

Talandier, Claude

31 March 2015

Cette thèse s’intéresse au courant profond de bord ouest dans l’Atlantique Nord, le Deep Western Boundary Current (DWBC). Ce courant transporte des eaux denses, formées dans la gyre subpolaire, vers l’équateur et constitue une des composantes majeures de la circulation méridienne Atlantique, l’AMOC (pour Atlantic Meridional Overturning Circulation). Cette circulation contribue au transport de chaleur vers les hautes latitudes et stabilise le climat actuel. L’AMOC calculée dans différents modèles de circulation générale de l’océan présente une diversité dans son intensité, sa structure spatiale et sa variabilité temporelle. De nombreux facteurs peuvent expliquer cette hétérogénéité de réponses, dont les incertitudes qui subsistent sur le lien entre la formation d’eau dense par convection dans la gyre subpolaire, qui contribue à connecter les branches supérieure et inférieure de l’AMOC, et l’intensité de l’AMOC aux moyennes latitudes. Ces incertitudes proviennent en grande partie d’une méconnaissance de la circulation profonde dans l’Atlantique Nord, car difficile à observer et souvent incorrecte dans les modèles d’océan de faible résolution spatiale.L’objectif de cette thèse est donc d’étudier la dynamique du DWBC et son influence sur l’AMOC, à l’aide de simulations numériques réalistes d’un modèle de circulation générale de l’océan (NEMO). Dans cette optique, trois configurations de résolution horizontale croissante ont été mises en place en utilisant l’outil de raffinement de grille AGRIF : une grille globale de référencer à 1/2◦ de résolution (configuration ORCA), à laquelle a été ajouté une première grille raffinée à 1/8◦ couvrant l’Atlantique nord (configuration ERNA) incluant elle-même une seconde grille à 1/32◦ centrée sur la gyre subpolaire (configuration FER). ERNA et FER sont deux configurations originales, par la prise en compte du modèle de glace de mer dans l’emboîtement des grilles, et par la résolution horizontale de FER dans la gyre subpolaire.Dans un premier temps, nous étudions l’influence de la résolution horizontale sur la circulation moyenne en Atlantique Nord avec un intérêt particulier pour l’AMOC en contrastant les simulations issues des configurations ORCA et ERNA. L’augmentation de la résolution se traduit par l’amélioration de la dynamique des courants de bord ouest, en surface et également en profondeur. En effet, le transport du DWBC s’intensifie de l’ordre de 8Sv dans la gyre subpolaire, ce qui est en partie lié à une meilleure représentation de l’écoulement des eaux denses en provenance des Mers Nordiques. En outre, alors que dans ORCA le DWBC s’écoule vers le sud principalement le long de la ride médio-Atlantique, dans ERNA la route le long du bord ouest est privilégiée avec une circulation secondaire à l’intérieur de l’inetrgyre, ce qui est en meilleur accord avec les observations. Le chemin suivi par le DWBC le long du talus continental permet une intensification de l’AMOC et de la localisation de son maximum vers 35 ̊N. Ce résultat tend à réduire l’influence de la convection aux hautes latitudes sur l’intensité de l4AMOC par l’intermédiaire de l’interaction des courants de surface et de fond.Nous nous sommes intéressés par la suite à la structure dynamique et thermohaline du DWBC, en lien avec la représentation de la méso-échelle, dans la mer du Labrador, en utilisant la configuration FER. Dans cette configuration qui résout explicitement les processus de méso-échelle dans la gyre subpolaire, la dérive en température et salinité est nettement moins importante que dans ERNA. De plus, la structure verticale du courant de bord, notamment sa barotropisation entre l’est et l’ouest sde la section AR7W dans la mer du Labrador, est en très bon accord avec les observations. A partir d’une équation simplifiée de la vorticité relative, nous avons cherché à identifier les processus principaux qui contrôlent la dynamique du DWBC. Il ressort de cette analyse que le stretching associé aux vitesses […] / The present study tackles the Deep Western Boundary Current (DWBC) dynamics in the North Atlantic basin as its impact on the AMOC. The DWBC advects dense water masses equatorward, produced in the subpolar gyre, and is one of the major component of the Atlantic Meridional Overturning Circulation (AMOC). This circulation contributes to the northward heat transport to high latitudes and allows to stabilise climate. When computing the AMOC in different ocean general circulation models (OGCM), results cover a wide range of intensity, spatial shape and temporal variability. Such response diversity is due to several factors. One of them is the remaining uncertainty on the link between dense water formation due to convection in the subpolar gyre, which contributes to connect the AMOC upper and lower branches, and the AMOC intensity at mid-latitudes. Those uncertainties are largely due to the knowledge gap of the deep circulation in North Atlantic because its direct observation is difficult and incorrectly reproduced in ocean models with a low spatial resolution. The methodology used rely on realistic numerical simulations based on the NEMO ocean general circulation model. Three configurations with an increasing spatial resolution have been developped using the grid refinement tool AGRIF : a global grid at 1/2◦ resolution (ORCA configuration), within which a first refined grid at 1/8◦ covering the whole North Atlantic (ERNA configuration) in which a second grid at 1/32◦ over the subpolar gyre (FER configuration). Both ERNA and FER are advanced and original by two aspects; they include a Sea-Ice model within embedded grids and FER reaches a high horizontal resolution over the subpolar gyre. We study the spatial horizontal resolution impact on the mean circulation in the North Atlantic with a focus on the AMOC contrasting simulations obtained with ORCA and ERNA solutions. Increasing the resolution improves the western boundary current dynamics at surface and depth. Indeed, the DWBC transport is intensified by 8Sv in the subpolar gyre partly due to a better representation of overflows coming from Nordic Seas through the Denmark Strait. Furthermore in ORCA the DWBC flows to the south along the Mid-Atlantic ridge ; in ERNA the flow along western continental shelf is dominant while a secondary circulation within the subpolar gyre arises being in better agreement with observations. The path followed by the DWBC along the continental shelf allows an interaction between surface and deep currents which seems to result both in an AMOC intensification and a maxima located close to 35 ̊N. This result tends to limit the influence of the convection, occuring at high latitudes, on the AMOC intensity at mid latitudes, often raised, and shed light on a modulation process of the AMOC intensity through the surface and deep currents interaction. We then addressed the thermohaline and the dynamical structure of the DWBC, asssocia- ted with the mesoscale representation, within the Labrador Sea using the FER configuration. With this configuration, which solved explicitly mesoscale eddies in the subpolar gyre, tempera- ture and salinity drift are clearly reduced compare to ERNA. Furthermore the vertical DWBC structure, especially its barotropisation from the eatstern to western side of the AR7W section within the Labrador Sea, is in very good agrement with observations. Using a simplified equation for relative vorticity, we try to identify the main processes handling the DWBC dynamics. The analysis reveals that the stretching associated with vertical velocities above topography and exchanges between isopycnal layers within boundary current dominate the vorticity balance. We also identify two areas within the DWBC where diapynal flux occur : along the Labrador Current on the western side of the Labrador Sea and seaward of Cape Desolation where eddy activity is marked. These results are close to two previous studies based on conceptual model and […]

Atlantique Nord

Gyre subpolaire

DWBC

AMOC

Modélisation numérique de l'océan

North Atlantic

Subpolar gyre

DWBC

AMOC

Ocean modelling

551.462

Variabilité de la circulation méridienne dans l’Océan Atlantique Nord au cours des 2000 dernières années / Variability of the meridional circulation in the north Atlantic Ocean during the last 2000 years

Bouinot, Thomas

15 November 2011

L’objectif de ce travail était d’étudier la variabilité de la circulation océanique méridienne aux échelles de temps pluri décennales dans l’océan Atlantique nord au cours des deux mille dernières années, ainsi que son lien avec la variation de l’extension des gyres subtropicales et subpolaires. J’ai donc étudié, à partir de carottes de sédiments marins à fort taux de sédimentation, l’évolution de la température des eaux de surface et de la stratification de la colonne d’eau en lien avec le fonctionnement des gyres subpolaire et subtropicale.Compte tenu des difficultés spécifiques à la période de temps considérée, la première partie de mon travail a consisté à contraindre le milieu et la période de calcification des principaux foraminifères utilisés, à partir de la composition isotopique de l’oxygène analysée dans la coquille des foraminifères planctoniques. J’ai également précisé la calibration en Magnésium et en Calcium en fonction de la température. La deuxième partie de mon travail a consisté à reconstruire les conditions hydrologiques dans des zones clés de l’océan Atlantique Nord sur les deux mille dernières années. J’ai ainsi construit un index de la gyre subpolaire à partir d’un gradient de température Est-Ouest, qui traduit l’intensité dynamique de la gyre subpolaire et de la gyre subtropicale. L’apport de l’analyse des foraminifères planctoniques profonds a permis de reconstituer les variations de la colonne d’eau supérieure. La stratification plus ou moins marquée de la colonne d’eau est reliée directement à l’intensité des vents d’Ouest. Les similitudes entre les vents et l’index de gyre m’ont amené à proposer un couplage entre l’océan et l’atmosphère aux échelles de temps pluri décennales.La dernière partie de ma thèse s’est focalisée sur les conséquences des variations de la dynamique des gyres océaniques sur le transport de chaleur vers les hautes latitudes ainsi que sur l’impact des variations des vents d’Ouest sur le climat européen. / The purpose of this thesis was to study the surface oceanic circulation in the North Atlantic Ocean during the last 2,000 years, and its link with the intensity of the subpolar and the subtropical gyres. To fulfill these objectives, I studied sediment cores with a high sedimentation rate to reconstruct the multidecadal variability of the temperature and the water column stratification, controlled by the dynamic of oceanic gyres. To improve the marine paleoclimatic signal recorded from planktonic foraminifera, I constrained their growing season and their calcification depth by analyzing the oxygen isotopic composition of their calcitic shells. I also established calibrations between Mg/Ca ratio and temperature for the main species used.I applied these calibrations to reconstruct the hydrological conditions in key areas of the North Atlantic Ocean. I constructed an index of the subpolar gyre that traduces the dynamic intensity of the subpolar gyre and the subtropical gyre. I also studied the variability of the upper water column based on the analysis of deep-dwelling foraminifera. I interpret past changes in the water column stratification as resulting from changes in the intensity of Westerly winds. The similarities between the wind forcing evolution and the index of the subpolar gyre dynamics led me to propose a coupling between the ocean and the atmosphere on the multidecadal time scale. The consequences of the gyres dynamic on heat transport and the impacts of the change in westerly wind strength on European climate are studied in the last part of the manuscript.

Paléocéanographie

Océan Atlantique Nord

Micropaléontologie

Géochimie

Gyre subpolaire

Transport de chaleur

Paleoceanography

North atlantic ocean

Micropaleontology

Geochemistry

Subpolar gyre

Heat transport

NATO and the West - the discursive myths of salvation and conspiracy: a post-communist analysis of the Romanian case

Unknown Date

This thesis provides a critical cultural analysis of the discursive myths of salvation and conspiracy, using as a case study the North Atlantic Treaty Organization (NATO) during the transition period in Romania, from 1989 to 2007. The study offers an answer to the questions: how do NATO myths change? Why and with what discursive implications for the Romanian audience? The thesis uses a combination of methodological tools from three different disciplines - history, mythology, and rhetoric - with the intent of showing how the Romanians' public attitudes toward NATO change in four different political contexts: during the integration period until Romania's admission into the alliance, during the Kosovo war, after 9/11 events and during the installation of NATO troops on Romanian territory. This study demonstrates that NATO myths are effective operational strategies that offer Romanians a sense of identity in the critical period of transition. The thesis also explains how NATO, as a carrier of Western values, helps the democratization of the Romanian public sphere and the reconstruction of a national identity based on democratic principles. / by Daniela Popescu. / Thesis (M.A.)--Florida Atlantic University, 2011. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2011. Mode of access: World Wide Web.

North Atlantic Treaty Organization

Post-communism

Post-communism--Europe, Eastern

Politics and government

Politics and government

Caractérisation de la circulation autour, au-dessus et à travers (via des zones de fracture) la dorsale de Reykjanes / Characterization of the circulation around, above and across (through fracture zones) the Reykjanes Ridge

Petit, Tillys

15 November 2018

La dorsale de Reykjanes est une structure topographique majeure de l’océan Atlantique Nord qui s’étend de l’Islande à la zone de fracture de Charlie Gibbs. Située entre le bassin d’Islande et la mer d’Irminger, la dorsale de Reykjanes influence fortement la circulation du gyre subpolaire et est une porte d’entrée vers les zones de convection profondes. Cependant, la circulation et la répartition des masses d’eau à travers la dorsale de Reykjanes n’ont jamais été directement quantifiées, de sorte que la caractérisation de la connexion entre le bassin d’Islande et la mer d’Irminger est encore incomplète. Dans le cadre du projet « Reykjanes Ridge Experiment », nous avons été capables d’analyser la circulation autour, au-dessus et à travers la dorsale de Reykjanes. Essentiellement à partir de sections hydrographiques perpendiculaires et le long de l’axe de la dorsale, l’objectif de cette thèse a été de quantifier et caractériser la circulation 3-D et les propriétés des courants qui longent et traversent la dorsale de Reykjanes. Nous avons commencé par quantifier précisément le transport géostrophique à travers les sections, ce qui a permis d’améliorer le traitement des données S-ADCP. A travers la dorsale de Reykjanes, l’intensité de la branche du gyre subpolaire qui rejoint la mer d’Irminger a été estimée à 21.9 + 2.5 Sv en Juin – Juillet, avec des intensifications dans la zone de fracture Bight (BFZ) et à 59 – 62°N. Dans la BFZ, les masses d’eau profondes sont influencées par la bathymétrie, de sorte que leurs propriétés hydrologiques se modifient lorsqu’elles traversent la dorsale de Reykjanes. Enfin, la bathymétrie et la circulation horizontale cyclonique du bassin d’Islande contrôlent les courants qui longent la dorsale en bloquant certaines masses d’eau, et donc sont à l’origine de la répartition de ces masses d’eau le long de la dorsale. En plus des masses d’eau du Bassin d’Islande, le Courant d’Irminger comprend également des masses d’eau qui proviennent de la mer d’Irminger. / The Reykjanes Ridge is a major topographic feature of the North-Atlantic Ocean that extends from Iceland to the Charlie Gibbs Fracture Zone. Located between the Iceland Basin and the Irminger Sea, the Reykjanes Ridge strongly influences the subpolar gyre circulation and is a gate toward the deep convection areas. However, the circulation and distribution across the Reykjanes Ridge has never been directly quantified such that the characterization of the connection between the Iceland Basin and the Irminger Sea is still incomplete. As part of the Reykjanes Ridge Experiment project, we were able to analyze the circulation around, above and across the Reykjanes Ridge. Mainly based on hydrographic sections along and perpendicular to the ridge axis, the aim of this PhD thesis was thus to characterize the 3-D circulation and properties of the flow along and across the Reykjanes Ridge.We started by accurately quantifying geostrophic transports across the sections, which led to improvements in the treatment of S-ADCP data. Across the Reykjanes Ridge, the intensity of the wesward branch of the subpolar gyre was estimated at21.9 + 2.5 Sv in June – July 2015 with intensifications at the Bight Fracture Zone (BFZ) and at 59 – 62°N. At the BFZ, overflow waters are influenced by the bathymetry such as their hydrological properties evolve as they cross the Reykjanes Ridge. Finally, both the bathymetry and the cyclonic horizontal circulation of the Iceland Basin regulate the evoluton of the along-ridge flows by blocking water masses, and thus shaping the water mass distribution over the Reykjanes Ridge. In addition to waters from the crossridge flow, the Irminger Current incorporates waters from the center of the Irminger Sea.

Gyre subpolaire Nord-Atlantique

Bathymétrie

Masses d’eau

Circulation

Observations

North-Atlantic

Subpolar gyre

Bathymetry

Water masses

Circulation

Observations

551.462

Paleoclimatic and Paleoceanographic reconstruction of the Pleistocene­‐ Holocene through the study of planktonic foraminifera of two sedimentary cores collected in North Atlantic Ocean, southwest of the Azores Islands / Reconstitution paléocénographique et paléoclimatique du Pléistocène-Holocène par l'étude des foraminifères planctoniques de deux carottes sédimentaires prélevées dans l'océan Atlantique, au Sud-Ouest des Açores

Bonfardeci, Alessandro

22 February 2017

Dans le système climatique global, l’océan Atlantique Nord est considéré comme une région très sensible qui joue un rôle crucial pour la dynamique de l’hémisphère nord via la circulation méridienne de retournement de l'océan Atlantique (AMOC), dont fait partie le système de front/courant des Açores. La thèse a pour but d’analyser les interactions hydrographiques et climatiques complexes dans la région des Açores, pour le Pléistocène moyen­‐Holocène, par l’analyse des foraminifères planctoniques de deux carottes prélevées en 2013 (Oceanograflu 2013), dans le segment OH1 de la ride médio-atlantique. La thèse est structurée en trois chapitres/articles qui présentent les principaux résultats et leur interprétation. Le premier article a pour but d’établir le modèle d’âge le plus précis possible et de tracer l’histoire de la production/préservation des carbonates dans la région des Açores, au cours du dernier cycle glaciaire. Pour ce faire, les valeurs de carbonate et δ18OG.ruber des deux carottes ont été analysées à haute résolution. Par ailleurs, l’application de la «Modern Analog Technique» à l’analyse des assemblages des foraminifères planctoniques a permis d’estimer les variations de température des eaux de surface (SST-mat). Les courbes d’abondance des espèces résistantes et sensibles à la dissolution ont permis de mettre en évidence d’éventuels intervalles de plus forte dissolution. La partie supérieure de chaque carotte a été datée par spectrométrie de masse (AMS)14C sur les tests de foraminifères. Le modèle d’âge adopté se base également sur la corrélation entre les courbes de δ18OG.ruber et l’enregistrement haute résolution du δ18OG.bulloides de la carotte MD95-2042 (Shackleton et al. 2000) de la marge ibérique, récemment recalibrée en utilisant les données synthétiques LS16 de δ18O (Lisiecki and Stern 2016) relatives aux foraminifères benthiques. L’analyse spectrale a permis de démontrer que les oscillations des valeurs de carbonate et du δ18OG.ruber, lors des derniers 144ka, sont contrôlées par un forçage climatique (orbital et sub-orbital) dans la région des Açores. La comparaison des courbes de carbonate et celles des espèces résistantes à la dissolution, pour les deux carottes situées à des profondeurs différentes, a permis de montrer les variations verticales de la lysocline de la calcite, en particulier lors des évènements de refroidissement plus extrêmes, par exemple à 22,1 kyr avec une remontée de la lysocline de 1000m environ. Le deuxième article essaie de reconstituer la variabilité complexe de l’hydrographie et de la paléoproductivité de l’Atlantique centre Nord lors des derniers 144 kyr grâce à l’analyse des assemblages des foraminifères planctoniques combinée à celle des variations de la température des eaux de surface (SST­‐mat). Les fluctuations d’abondance d’espèces actuellement caractéristiques de masses d’eau et/ou des systèmes de front/courant dans l’Atlantique Nord ont été utilisées comme traceurs paléocéanographiques. Cette approche a permis d’évaluer la migration latitudinale/longitudinale du système de front/courant des Açores durant le Quaternaire récent ainsi que celle d’autres fronts et/ou courants caractéristiques de l’Atlantique centre Nord. Le troisième article se focalise sur la variabilité du groupe G. ruber gr. dans la région des Açores. G. ruber a été considéré comme un plexus regroupant plusieurs autres espèces et sous espèces. Plus récemment, des études moléculaires et géochimiques mis en évidence la présence de plusieurs génotypes au sein du plexus G. ruber, ce qui implique l’existence de plusieurs (sous­‐) espèces avec des modes de calcification et des préférences écologiques différentes. Malgré l’abondante littérature récente sur ce sujet, les liens entre ces différents génotypes, variants morphologiques, préférences écologiques, et modes de calcification ne sont pas encore très bien compris. (...) / In the global climatic system, the North Atlantic Ocean is considered as a highly sensitive region, which plays a crucial role in the Northern Hemisphere dynamics through the so­‐called Atlantic Meridional Overturning Circulation (AMOC) system, of which the Azores Front/Current System represents an important part. The main aim of the thesis is to reconstruct the complex hydrographic and climatic interactions in such a climatically­‐sensitive area during middle Pleistocene to Holocene through the analysis of the planktonic foraminifera from two cores collected in the OH1 segment of the Mid‐Atlantic Ridge (MAR) south‐westward of the Azores archipelago during the Oceanograflu 2013 cruise. The manuscript is structured in three chapters presenting the major results and their interpretation (...)

Foraminifères planctoniques

Paléoclimatologie

Paléocéanographie

Pléistocène moyen­‐Holocène

Atlantique du Nord

Açores

Planktonic foraminifera

Paleoclimatology

Paleoceanography

Middle Pleistocene‐Holocene

North Atlantic

Azores

Standing Stocks and Faunal Zonation of Deep-Sea Benthos: Patterns and Predictions across Scales

Wei, Chih-Lin

2011 May 1900

The deep ocean (> 200-m depth) covers more than 65 percent of earth's surface and is known as the largest active carbon sink of the planet. Photosynthesis fixes inorganic carbon into organic rich-compounds to fuel the biological production in the upper ocean. A small portion of the photosynthetic carbon eventually sinks to the seafloor to support diverse deep-sea life. In this dissertation, the phytoplankton production and export flux of particulate organic carbon (POC) to the seafloor were linked to standing stocks and compositional changes of the deep-sea soft bottom assemblages. The pattern and processes of energy transfer from the surface ocean to the deep sea was examined by modeling the global benthic bacteria, meiofauna, macrofauna, and megafauna biomass from remotely sensed ocean color images and the seafloor relief. The analysis was then scaled down to the macrofauna of the Gulf of Mexico (GoM) to examine the global pattern on regional oceanic features with contrasting productivity regimes. These results suggested a universal decline of benthic standing stocks down the continental margins that is caused by an exponential decrease of export POC flux with depth. A revisit of historical epibenthic invertebrate sampling in the North Atlantic showed that both individual species and multi-species assemblages occurred in narrow depth bands that hugged the topography from the upper continental slope out to the Hatteras Abyssal Plain. The continuum compositional change suggested that the continuous decline of benthic food supply with depth was the potential driving force for the pattern of bathymetric faunal zonation. A broad, systematic survey across multiple depth transects in the northern GoM suggested that macrofauna zonation is not only taking place across isobaths, but also form the northeast to the northwest GoM due to a horizontal productivity gradient created by the nutrient-laden Mississippi River. Analyses of long-term demersal fish data from 1964 to 2002 in the northern GoM showed no evidence of large-scale faunal change across different sampling times. Base on the pooled data, a shift in rate of fish species replacement may be caused by complex biological interactions or changes in environmental heterogeneity along depth or productivity gradients.

deep sea

standing stocks

abundance

biomass

faunal zonation

epibenthic invertebrates

demersal fishes

macrofauna

global pattern

Gulf of Mexico

North Atlantic

Holocene climate and atmospheric circulation changes in northern Fennoscandia : Interpretations from lacustrine oxygen isotope records

Jonsson, Christina E.

January 2009

This thesis investigates how variations in the oxygen isotopic composition of lake waters in northern Fennoscandia are recorded in lake sediment archives, especially diatoms, and how these variations can be used to infer past changes in climate and atmospheric circulation. Results from analyses of the oxygen isotopic composition of lake water samples (δ18Olakew) collected between 2001 and 2006 show that δ18O of northern Fennoscandian lakes is mainly controlled by the isotopic composition of the precipitation (δ18Op). Changes in local δ18Op depend on variations in ambient air temperature and changes in atmospheric circulation that lead to changes in moisture source, vapour transport efficiency, or winter to summer precipitation distribution. This study demonstrates that the amount of isotopic variation in lake water δ18O is determined by a combination of the original δ18Olakew, the amount and timing of the snowmelt, the amount of seasonally specific precipitation and groundwater, any evaporation effects, and lake water residence time. The fact that the same isotope shifts have been detected in various δ18Olakew proxies, derived from hydrologically different lakes, suggests that these records reflect regional atmospheric circulation changes. The results indicate that diatom biogenic silica isotope (δ18Odiatom) records can provide important information about changes in atmospheric circulation that can help explain temperature and precipitation changes during the Holocene. The reconstructed long-term Holocene decreasing δ18Op trend was likely forced by a shift from strong zonal westerly airflow (relatively high δ18Op) in the early Holocene to a more meridional flow pattern (relatively low δ18Op). The large δ18Olakew depletion recorded in the δ18O records around ca. 500 cal yr BP (AD 1450) may be due to a shift to more intense meridional airflow over northern Fennoscandia resulting in an increasing proportion of winter precipitation from the north or southeast. This climate shift probably marks the onset of the so-called Little Ice Age in this region. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 1: In press. Paper 2: Submitted. Paper 5: In progress.

oxygen isotope

diatom silica

lake sediment

atmospheric circulation

North Atlantic Oscillation

northern Fennoscandia

The Holocene

Little Ice Age

Physical geography

Naturgeografi

On the Horizontal Advection and Biogeochemical Impacts of North Atlantic Mode Waters and Boundary Currents

Palter, Jaime Beth

26 July 2007

Using a combination of hydrographic data and the trajectories and profiles of isobaric floats, this dissertation evaluates the connections between remote regions in the North Atlantic. First, I establish that the production and advection of the North Atlantic Subtropical Mode Water (STMW) introduces spatial and temporal variability in the subsurface nutrient reservoir of the subtropical gyre. As the mode water is formed, its nutrients are depleted by biological utilization. When the depleted water mass is exported to the gyre, it injects a wedge of low-nutrient water into the upper layers of the ocean. Contrary to intuition, cold winters that promote deep convective mixing and vigorous mode water formation may diminish downstream primary productivity by altering the subsurface delivery of nutrients. Next, the source of elevated nutrient concentrations in the Gulf Stream is assessed. The historical hydrographic data suggest that imported water advected into the Gulf Stream via the tropics supplies an important source of nutrients to the Gulf Stream. Because the high nutrients are likely imported from the tropics, diapycnal mixing need not be invoked to explain the Gulf Stream's high nutrient concentrations, as had been previously hypothesized. Furthermore, nutrients do not increase along the length of the Stream, as would be expected with strong diapycnal mixing.Finally, profiling float data are used to investigate how the Labrador Sea Water enters the Deep Western Boundary Current, one of the primary pathways by which it exits the subpolar gyre. With the trajectories and profiles of an extensive array of P-ALACE floats I evaluate three processes for their role in the entry of Labrador Sea Water in the Deep Western Boundary Current (DWBC): 1) LSW is formed directly in the DWBC, 2) Eddies flux LSW laterally from the interior Labrador Sea to the DWBC, and 3) A horizontally divergent mean flow advects LSW from the interior to the DWBC. Each of the three processes has the potential to remove heat from the boundary current, and both the formation of LSW directly in the boundary current and the eddy heat flux are possible sources of interannual variability in the exported LSW product. / Dissertation

Physical Oceanography

Biology, Oceanography

North Atlantic

nutrients

ocean color

Gulf Stream

Labrador Sea Water

Meridional Overturning Circulation