Lake sediments around the Antarctic Peninsula : archives of climatic and environmental changes

Zale, Rolf

January 1993

Lakes and lake sediments from four areas around the Antarctic Peninsula are described. The concentrations of trace metals in sediment are found to be a useful tool in distinguishing between the different sedimentary phases during a transition from marine to limnic environment. A tephrochronology based on Deception Island tephra is developed, and used to cross date sediments from different lakes in order to overcome the radiocarbon dating problem of the area. The fluctuating concentrations of copper and phosphorus from penguin guano in the sediment of Lake Boeckella are used as a proxy for the penguin inpact on the sediment, and the size of the penguin rookery on the shores of the lake. Anthropogenic activities in the area, as well as climatic changes are discussed in relation to the rookery size. A radiocarbon dating model developed for the sediment of Lake Boeckella showed that the radiocarbon correction factor in the sediment depends on the amount and apparent age of the penguin guano washed down into the lake, and the amount of particulate carbon from the watershed present in the sediment. Neither the "old" meltwater from the glaciers nor dissolved carbonates contributes significantly to the correction factor. The model is used to achieve more accurate radiocarbon dates of the Lake Boeckella sediment. This model, or a modified version, may contribute to a higher dating accuracy and a better understanding of the dating problems in Antarctica. Deglaciation dates, as well as data on the climatic and environmental history of Byers Peninsula on Livingston Island, South Shetland Islands, of Hope Bay, Antarctic Peninsula and of Hidden Lake area, James Ross Island are given. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1993, härtill 6 uppsatser.</p> / digitalisering@umu

Lake sediments

Antarctic Peninsula

radiocarbon dating

climatic and environmental changes

sediment chemistry

The Commonwealth Trans-Antarctic Expedition 1955-58 - How the crossing of Antarctica moved New Zealand to recognise its Antarctic heritage and take an equal place among Antarctic nations

Hicks, Stephen Walter

January 2015

The thesis analyses the expedition (TAE) led by Dr.Vivian Fuchs and Sir Edmund Hillary from three vantage points: 1)the years from 1948 to 1955 leading up to the expedition 2) the interaction between the IGY and the TAE projects and 3) the role of the US Navy as the expedition unfolded. The thesis also investigates key events including the purchase of the ship Endeavour from Britain, the competition for leadership of the UK and NZ parties, the 'dash to the Pole' by Hillary, and the search for base sites and routes to the Polar Plateau. The thesis contains an overview historical introduction, a comprehensive literature review as well as a broad-based set of conclusions.

Antarctica

TAE

expedition

exploration

New Zealand

Fuchs

Hillary

Dufek

Scott Base

IGY

US Navy

Antarctic crossing

Climate-induced changes in carbon and nitrogen cycling in the rapidly warming Antarctic coastal ocean

Henley, Sian Frances

January 2013

The western Antarctic Peninsula (WAP) is a hotspot of climatic and oceanographic change, with a 6°C rise in winter atmospheric temperatures and >1°C warming of the surface ocean since the 1950s. These trends are having a profound impact on the physical environment at the WAP, with widespread glacial retreat, a 40% decline in sea ice coverage and intensification of deep water upwelling. The main objective of this study is to assess the response of phytoplankton productivity to these changes, and implications for the marine carbon and nitrogen cycles in the WAP coastal zone. An extensive suite of biogeochemical and physical oceanographic data was collected over five austral summer growing seasons in northern Marguerite Bay between 2004 and 2010. Concentrations and isotopic compositions ( 15N, 13C, 14C) of dissolved nitrate, dissolved inorganic carbon species, particulate nitrogen, organic carbon and chlorophyll a are used in the context of a substantial ancillary dataset to investigate nutrient supply, phytoplankton productivity and nutrient uptake, export flux and the fate of organic material, and the factors underpinning pronounced seasonal and interannual variability. High-resolution biogeochemical time-series data for surface and underlying seawater, sea ice brine, sediment trap material and coretop sediments allow detailed examination of carbon and nitrogen cycle processes under contrasting oceanographic conditions and the interaction between these marine processes and air-sea exchange of climate-relevant CO2. This study shows that the WAP marine environment is currently a summertime sink for atmospheric CO2 in most years due to high productivity and biological carbon uptake sufficient to offset the CO2 supply from circumpolar deep waters, which act as a persistent source of heat, nutrients and CO2 across the shelf. For the first time, CO2 sink/source behaviour is parameterised in terms of nitrate utilisation, by exploiting the relationship between CO2 and nitrate concentrations, and deriving the nitrate depletion at which surface ocean CO2 is undersaturated relative to atmosphere and carbon sink behaviour is achieved. This could have vast utility in examining CO2 sink/source dynamics over greater spatial and temporal scales than by direct CO2 measurements, of which availability is more limited. This study documents abrupt changes in phytoplankton productivity, nitrate utilisation and biological CO2 uptake during a period of rapid sea ice decline. In fact, nitrate utilisation, particulate organic matter production and biological CO2 uptake all decrease by at least 50 % between a sea ice-influenced, high productivity season and one of low sea ice and low productivity. The key driver of interannual variability in production and export of organic material is found to be upper ocean stratification and its regulation of light availability to phytoplankton. Productivity, CO2 uptake and export are maximal when stratification is sufficient to provide a stable well-lit surface environment for phytoplankton growth, but with some degree of mixing to promote export of suspended organic matter. Strong stratification causes intense initial production, but retention of suspended organic particles in the surface ocean induces a self-shading effect, and overall productivity, CO2 uptake and export fluxes are low. When stratification is weak, mixing of phytoplankton over a larger depth range exposes cells to a wider range of light levels and reduces photosynthetic efficiency, thus total productivity and CO2 uptake. A conceptual model is developed here, which attempts to describe the mechanism by which sea ice dynamics exert the principal control on stratification and therefore productivity and CO2 uptake at the WAP, with potential application to other regions of the Antarctic continental shelf. Although meteoric waters (glacial melt and precipitation) are more prevalent in surface waters throughout the study, sea ice meltwater variability is driven by large and rapid spring/early summer pulses, which stabilise the upper ocean and initiate phytoplankton growth. The timing and magnitude of these sea ice melt pulses then exert the key control on stratification and seasonal productivity. In a low sea ice year of this study, the sea ice trigger mechanism was absent and productivity was low. This strongly suggests that ongoing sea ice decline at the WAP and greater frequency of such low sea ice years is likely to drive a dramatic reduction in productivity and export, which would substantially reduce the capacity of the summertime CO2 sink in this region. Ongoing warming and ecosystem change are thus likely to have severe impacts on net CO2 sink/source behaviour at the WAP over the annual cycle, and the role of the Southern Ocean in regulating atmospheric CO2 and global climate. Finally, factors influencing the stable isotopic signature of particulate organic carbon ( 13CPOC), a common paleo-proxy, are assessed. 13CPOC is greatly influenced by seasonal shifts in diatom assemblages and isotopically heavy sea ice material, so cannot be used as a robust proxy for ambient CO2 in the coastal Southern Ocean.

551.5

The role of Southern Ocean fronts in the global climate system

Graham, Robert M.

January 2014

The location of fronts has a direct influence on both the physical and biological processes in the Southern Ocean. However, until recently fronts have been poorly resolved by available data and climate models. In this thesis we utilise a combination of high resolution satellite data, model output and ARGO data to improve our basic understanding of fronts. A method is derived whereby fronts are identified as local maxima in sea surface height gradients. In this way fronts are defined locally as jets, rather than continuous-circumpolar water mass boundaries. A new climatology of Southern Ocean fronts is presented. This climatology reveals a new interpretation of the Subtropical Front. The currents associated with the Subtropical Front correspond to the western boundary current extensions from each basin, and we name these the Dynamical Subtropical Front. Previous studies have instead suggested that the Subtropical Front is a continuous feature across the Southern Ocean associated with the super gyre boundary. A comprehensive assessment of the relationship between front locations and wind stress is conducted. Firstly, the response of fronts to a southward shift in the westerly winds is tested using output from a 100 year climate change simulation on a high resolution coupled model. It is shown that there was no change in the location of fronts within the Antarctic Circumpolar Current as a result of a 1.3° southward shift in the westerly winds. Secondly, it is shown that the climatological position of the Subtropical Front is 5-10° north of the zero wind stress curl line, despite many studies assuming that the location of the Subtropical Front is determined by the zero wind stress curl. Finally, we show that the nutrient supply at ocean fronts is primarily due to horizontal advection and not upwelling. Nutrients from coastal regions are entrained into western boundary currents and advected into the Southern Ocean along the Dynamical Subtropical Front. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Submitted.</p>

Southern Ocean

fronts

jets

Antarctic Circumpolar Current

wind stress

chlorophyll

iron

Last Glacial Maximum

Tracing Paleoclimate over the Past 25,000 Years Using Evidence from Radiogenic Isotopes

Xie, Ruifang

03 October 2013

The objective of this dissertation is to apply radiogenic isotopes extracted from marine sediments to investigate aspects of global climate change over the past 25 kyr, especially ocean and atmospheric circulation, continental aridity, and hydrology. By focusing on the geochemical records from marine sediments and authigenic precipitates preserved in these sediments, I aim to better understand climate forcing and feedback mechanisms, which are critical to models of climate change. Firstly, I have investigated the dynamics of the Intertropical Convergence Zone (ITCZ) over the past 25 kyr in the eastern equatorial Pacific by fingerprinting dust provenance using radiogenic isotopes (Nd, Sr, Pb) and trace elements (Fe, Si, Ba) in the detrital fraction of marine sediments along a transect across the equator at 110ºW. Results from this study suggest no glacial-Holocene difference in the mean position of the ITCZ, but a more northerly, possibly stronger, deglacial ITCZ. Secondly, I have applied Nd isotope ratios from authigenic precipitates extracted from marine sediments and those from fish debris to trace past intermediate water circulation changes on glacial-interglacial and millennial timescales. The authigenic Nd isotope record from the Florida Straits suggests a reduced circulation of Antarctic Intermediate Water (AAIW) into the tropical North Atlantic during the Younger Dryas (YD) and Heinrich 1 (H1) events, associated with a significant reduction in AMOC. However, in the Southern Caribbean, apparent deviations in the Nd isotopic compositions between the acid-reductive leachate and the fish debris suggest that the leachate method is not reliable at this location and that it needs to be tested in more detail in various oceanic settings. In the Southern Caribbean, the fish debris Nd isotope results suggest a two-step recovery of the upper North Atlantic Deep Water during the last deglaciation. Comparing our new fish debris Nd isotope data to authigenic Nd isotope data for sediments from the Florida Straits and the Demarara Rise, we propose that glacial and deglacial AAIW does not penetrate beyond the lower depth limit of modern AAIW in the tropical North Atlantic. Both studies suggest a tight connection between Atlantic intermediate water circulation variability and high-latitude North Atlantic climate change.

Intertropical Convergence Zone

Radiogeni isotopes

Antarctic Intermediate Water

Last Glacial Maximum

Deglaciation

Dust provenance

Dynamics of the Antarctic mesosphere and lower thermosphere / by A. Phillips

Phillips, A (Andre)

January 1989

Copies of author's previously published articles inserted / Bibliography: leaves 219-226 / xvi, 22l leaves, [5] leaves of plates : ill. (some col.), maps ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Mawson Institute for Antarctic Research, 1990

551.514/0989 20

Winds aloft Antarctic regions.

Atmospheric tides.

Rossby waves.

Mesosphere.

Thermosphere.

Antarctic Fish: Thermal Specialists or Adaptable Generalists?

Robinson, Esme Evelyn

January 2008

Antarctic fish from the suborder Notothenioidei inhabit what is perhaps the most thermally stable ocean environment on Earth. Evolutionary theory suggests that by specialising for this environment, Antarctic fish have traded-off their ability to respond to variations in temperature, and like their environment, have become extremely stenothermal. However, previous research has revealed that the Antarctic notothenioid fish Pagothenia borchgrevinki is not as thermally limited as evolutionary theory might predict, and is capable of acclimation to 4 ℃ during a one month period. The purpose of the current research was to investigate the physiological mechanisms that underpin this remarkable acclimatory ability. P. borchgrevinki were acclimated for one month to 4 ℃ and changes in oxygen consumption, prolonged swimming ability, cardiovascular function, enzyme activity and haematology were measured. Significant changes in resting oxygen consumption rate and prolonged swimming ability occurred during the acclimation period, and these changes were mediated by adjustments of enzyme activity and specific aspects of the haematology. By monitoring resting oxygen consumption and prolonged swimming ability over a much longer, six month, acclimation period it was confirmed that the adjustments evident during one month at 4 ℃ were sustainable in the long-term, and were not short-term compensatory mechanisms. Interestingly, fish infected with x-cell gill disease did not possess the same ability to acclimate as was demonstrated by healthy P. borchgrevinki. P. borchgrevinki are unusual among the notothenioids, possessing an active, pelagic lifestyle which differs from the sedentary, benthic lifestyle of most other species within the suborder. Therefore, it was hypothesised that the acclimatory ability demonstrated by this species may also be unusual among the notothenioids. To test this hypothesis, the acclimation ability of three sedentary, benthic notothenioids (Trematomus bernacchii, T. hansoni and T. pennellii) was investigated. Results confirmed the hypothesis, with all three species demonstrating very poor survival at 4 ℃ and absolutely no capacity for acclimation. Such results present a disturbing scenario for the future of Antarctic notothenioid fish in Earth?s rapidly warming climate, and highlights the need for continued research combined with immediate action to combat the warming which currently threatens Antarctic marine biodiversity.

Pagothenia borchgrevinki

Trematomus

climate change

antarctic fish

haematology

oxygen consumption

swimming performance

enzymes

Remote Site Design Management

Kestle, Linda

January 2009

The aim of this research was to develop and validate a conceptual design management model for international, collaborative remote site projects. In the last decade or so there has been an increasing number of remotely located and often environmentally sensitive sites becoming the focus for development work involving potential investors/entrepreneurs/stakeholders or government and non-government agencies. There were no previously documented empirical examples, nor theoretical models, for remote site design management. Projects on remote sites are frequently government funded, making the approval processes, and timelines for example, subject to political influence, which means that the projects are potentially more difficult to manage, at all levels of involvement. The conceptual model was developed in association with the development of a typology for remote sites, and an investigation of three previously completed eco-resort and Antarctic science projects located on environmentally sensitive world heritage sites. The model responded to and reflected the perceived need for a well-integrated management approach to remote site projects. The research aimed to also demonstrate the potential portability of the model, in terms of offering a basis for a relevant management framework for built environment projects, international scientific drilling projects and international humanitarian aid projects. Grounded theory and case-study methodology were adopted when developing the typology, the conceptual model and when validating the design management model, as it involved empirical enquiry that afforded investigation of the remote site design management phenomenon within a real-life contexts. Two main case studies were undertaken to test the model, one being an historical Antarctic Science Drilling Project and the other, a current UN Humanitarian Project in Sudan. The findings to date support the conceptual design management model as being relevant for not only non-profit and/or Humanitarian Aid projects in the Post-disaster Reconstruction context, but also for commercially based Antarctic Science projects. Subsequently, the model has also been applied to a Post-disaster Reconstruction project in Aceh managed by the Jesuit Refugee Services (JRS).

case studies

design

management

framework

reconstruction

environment

remote sites

Humanitarian Aid

Antarctic.

Australians in Antarctica : a study of organizational culture /

Sarris, Aspasia.

January 2002

Thesis (Ph.D.)--University of Adelaide, Dept. of Psychology, 2002. / Includes Organisational Culture Inventory (OCI) and 6 item subscales adapted from the OCI as appendices. Bibliography: leaves 240-255.

Transport de vapeur d’eau vers les hautes latitudes : mécanismes et variabilité d’après réanalyses et radiosondages / Water vapour transport to the high latitudes : mechanisms and variability from reanalyses and radiosoundings

Dufour, Ambroise

24 March 2016

La vapeur d’eau convergeant vers les régions polaires se condense en nuages quiretiennent la chaleur terrestre. Ces nuages donnent lieu à des précipitations, qui adoucissent les océans polaires et épaississent les calottes de glace. Sans changement des vents, le transport de vapeur d’eau est appelé à augmenter dans un climat plus chaud et donc les chutes de neige sur les calottes aussi. Le surplus d’humidité risque cependant de rétroagir sur le réchauffement de surface.Afin de contraindre les projections futures, cette thèse se propose d’évaluer la variabilité actuelle du cycle de l’eau dans les hautes latitudes. Elle s’appuie sur sept réanalyses globales et des observations par radiosondages allant de 1979 à 2013. Leurs biais intrinsèques et les approximations de calcul n’entament pas les conclusions principales de cette étude.En Arctique, mise à part une légère surestimation, le transport d’humidité dans les réanalyses est remarquablement proche des observations, aussi bien dans le temps que dans l’espace. Dans toutes les réanalyses, les vents dominants n’advectent qu’une fraction de la vapeur d’eau, de 6 à 11%, au profit des perturbations. D’après la plupart des sources, évaporation, précipitation et humidité atmosphérique augmentent en accord avec l’élévation des températures. Toutefois, les flux de vapeur d’eau ne suivent pas la loi de Clausius-Clapeyron car humidité et vents sont moins corrélés, notamment près de la surface.En Antarctique, le manque d’observations se fait sentir : la convergence de vapeur d’eau sur la calotte varie de 117 à 156 mm par an selon les réanalyses. Le transport côtier, très variable dans l’espace, résulte de l’alternance entre vents catabatiques et passage de perturbations. Sur la côte, les radiosondages signalent une augmentation significative des flux d’humidité vers le Sud. À l’échelle du continent en revanche, les réanalyses ne font étatde quasiment aucune tendance.Enfin, le rôle des phénomènes météorologiques d’échelle courte est évalué de nouveau, selon plusieurs méthodes. En particulier, les cyclones extratropicaux laissent dans les flux de vapeur d’eau une empreinte caractéristique qui peut être détectée et quantifiée. / The water vapour converging to the polar regions condenses into heat-trappingclouds and eventually precipitates, freshening the polar oceans and thickening the ice-sheets. Modulo circulation changes, the moisture transport is expected to increase in a warmer climate. While the extra precipitation could dampen the ice sheets’ contribution to sea level rise, the surplus of moisture could also feed back on the surface warming. However, the present variability of the polar moisture budgets must be known precisely before they can be projected with confidence into the future.This study examines the atmospheric water cycle of both the Arctic and the Antarctic in seven global reanalyses and in radiosonde observations covering the 1979-2013 period. The impacts of known model and assimilation flaws and of the various numerical approximations were evaluated and proven to be limited, at least for the moisture flux variable and the more recent reanalyses.In the Arctic, aside from a slight overestimation, the northward fluxes in reanalyses exhibit a remarkable agreement with the radiosoundings in terms of spatial and temporal patterns. In all reanalyses, transient eddies provide the bulk of the mid-latitude moisture imports – 89-94% at 70◦ N. In most datasets, evaporation, precipitation and precipitable water increase in line with what is expected from a warming signal. However fluxes do not scale with the Clausius-Clapeyron relation because the increasing humidity is not correlatedwith the meridional wind, particularly near the surface.The representations of the Antarctic atmospheric water cycle in reanalyses suffer from the scarcity of observations : the moisture convergence estimations vary from 117 to 156 mm per year. On the coast, the mean moisture flux results from the interplay between transient eddies and katabatic winds, which are particularly sensitive to the orography. The coastalradiosonde sites report significant increases of the southward moisture fluxes but otherwise there are practically no trends in reanalyses on a continental scale.Finally, the share of transient eddies in moisture advection is qualified using alternate methods. In particular, extratropical cyclones leave a characteristic imprint on the transport field, which can be detected and quantified.

Transports de vapeur d'eau

Arctique

Antarctique

Réanalyses

Radiosondages

Cyclones

Moisture transport

Arctic

Antarctic

Reanalyses

Radiosoundings

Cyclones

550