Investigation of coastal dynamics of the Antarctic Ice Sheet using sequential Radarsat SAR images

Tang, Sheng-Jung

15 May 2009

Increasing human activities have brought about a global warming trend, and cause global sea level rise. Investigations of variations in coastal margins of Antarctica and in the glacial dynamics of the Antarctic Ice Sheet provide useful diagnostic information for understanding and predicting sea level changes. This research investigates the coastal dynamics of the Antarctic Ice Sheet in terms of changes in the coastal margin and ice flow velocities. The primary methods used in this research include image segmentation based coastline extraction and image matching based velocity derivation. The image segmentation based coastline extraction method uses a modified adaptive thresholding algorithm to derive a high-resolution, complete coastline of Antarctica from 2000 orthorectified SAR images at the continental scale. This new coastline is compared with the 1997 coastline also derived from orthorectified Radarsat SAR images, and the 1963 coastline derived from Argon Declassified Intelligence Satellite Photographs for change detection analysis of the ice margins. The analysis results indicate, in the past four decades, the Antarctic ice sheet experienced net retreat and its areal extent has been reduced significantly. Especially, the ice shelves and glaciers on the Antarctic Peninsula reveal a sustained retreating trend. In addition, the advance, retreat, and net change rates have been measured and inventoried for 200 ice shelves and glaciers. A multi-scale image matching algorithm is developed to track ice motion and to measure ice velocity for a number of sectors of the Antarctic coast based on 1997 and 2000 SAR image pairs. The results demonstrate that a multi-scale image matching algorithm is much more efficient and accurate compared with the conventional algorithm. The velocity measurements from the image matching method have been compared with those derived from InSAR techniques and those observed from conventional ground surveys during 1970-1971. The comparison reveals that the ice velocity in the front part of the Amery Ice Shelf has increased by about 50-200 m/a. The rates of ice calving and temporal variation of ice flow pattern have been also analyzed by integrating the ice margin change measurement with the ice flow velocity at the terminus of the outlet glacier.

Remote Sensing

SAR

Antarctic Ice Sheet

Coastal Dynamics

ImageSegmentation

Image Matching

A Multidisciplinary Investigation of the Intermediate Depths of the Atlantic Ocean: AAIW delta^13C Variability During the Younger Dryas and Lithoherms in the Straits of Florida

Brookshire, Brian

2010 December 1900

A transect of cores ranging from 798 m to 1585 m water depth in the South Atlantic Ocean document the relative intermediate water mass nutrient geometry and stable isotopic variability of AAIW during the Younger Dryas cooling event. The data reveal concurrent delta^13 C and delta^18 O excursions of 0.59 ppt and 0.37 ppt within the core of Antarctic Intermediate Water (AAIW) centered at 11,381 calendar years before present based on radiometric age control. A portion of the delta^1 3C variability (0.22 ppt) can be explained by a shift in thermodynamic equilibrium concurrent with a drop in temperature of 1.8°C at the locus of AAIW formation. The remaining 0.37 ppt increase in delta^13 C most likely resulted from increased wind velocities, and a greater coupling between the ocean and the atmosphere at the locus of AAIW formation (increased efficiency of the thermodynamic process). Deepwater coral mounds are aggregates of corals, other organisms, their skeletal remains, and sediments that occur on the seafloor of the world’s oceans. In the Straits of Florida, these features have been referred to as lithoherms. We use digital, side-scan sonar data collected from the submarine NR-1 from an 10.9 km^2 area at ~650 m water depth to characterize quantitatively aspects of the morphology of 216. Their lengths, widths, heights, areas, orientations and concentration on the seafloor have been determined. Analysis indicates that the outlines of relatively small to medium sized lithoherms can be effectively described with a piriform function. This shape is less applicable to the largest lithoherms because they are aggregates of smaller lithoherms. Nearly all of the lithoherms studied have axes parallel to the northward flowing Florida Current, and the heads of 80 percent of these features face into the current. The shape and orientation of the lithoherms, and evidence of megaripples and scouring in the sonar data suggest that these features are formed by a unidirectional current. Following an extensive investigation of over 200 lithoherms via side-scan sonar imagery and direct observation, we have developed a qualitative model for the formation of the lithoherm type of deep-water coral mounds in the Straits of Florida. Lithoherm formation can be characterized by four main stages of development: nucleating, juvenile, mature singular, and fused. Fused lithoherms can form via transverse and/or longitudinal accretion, however, transverse accretion at the head of the mound is likely the most efficient mechanism. A comparison of lithoherm spatial relationship to local bathymetry agrees with previous observations of deep-water coral mound formations along the levied margins of density flow scour channels.

Antarctic Intermediate Water

Younger Dryas

Lithoherm

Deep-Water Coral

Carbonate Mound

Straits of Florida

<14>^C anatomy of algae in inland ponds and lakes, Antarctica

高橋, 浩, Takahashi, Hiroshi A., 和田, 秀樹, Wada, Hideki, 中村, 俊夫, Nakamura, Toshio, 三浦, 英樹, Miura, Hideki

03 1900

第11回名古屋大学タンデトロン加速器質量分析計シンポジウム(平成10 (1998)年度)報告 名古屋大学タンデトロン加速器質量分析計第1号機の研究実績と1号機,2号磯の利用計画

AMS ^<14>C measurement

Antarctic algae

^<14>C anomaly

reservoir effect

Planktonic propulsion: the hydrodynamics, kinematics, and design of metachrony

Murphy, David W.

03 July 2012

Locomotion is a key characteristic of almost all forms of life and is often accomplished, whether on land, in water, or in the air, by reciprocal motion of two or more appendages. Among the zooplankton, many species propel themselves by rhythmically beating multiple pairs of closely spaced leg-like appendages in a back-to-front (metachronal) pattern. The focus of this study is to understand the mechanical design, kinematic operation, and hydrodynamic result of metachrony in the zooplankton. In the first part of this study, Antarctic krill (Euphausia superba) are investigated as an ecologically important model species that metachronally beats its swimming legs (pleopods) to perform drag-based propulsion. Based on high speed videos of freely swimming Antarctic krill, hovering, fast forward swimming, and upside down swimming are identified as three distinct swimming modes with significantly different stroke amplitudes and beat frequencies. When transitioning between hovering and fast forward swimming, Antarctic krill first increase beat amplitude and secondarily increase beat frequency. In considering the design components that contribute to metachrony being a successful swimming technique, a comparison among many different species shows that the ratio between the appendage separation distance and appendage length is limited to a narrow range of values (i.e. 0.2 - 0.65). In the second part of this study, metachrony is examined at smaller length and time scales by examining the impulsive escape jump of a calanoid copepod (Calanus finmarchicus). The wake generated by the copepod's metachronally beating swimming legs is experimentally measured using a novel (and newly developed) tomographic particle image velocimetry (PIV) system capable of making volumetric 3D velocity measurements with high temporal and spatial resolution using IR illumination. The flow generated by the escaping copepod consisted of a stronger posterior vortex ring generated by the metachronally stroking swimming legs and a weaker one generated anteriorly around the body by the impulsive start of the escape, both of which decayed over time. The experiments also revealed azimuthal asymmetry in the vortices caused by body yawing and the action of the swimming legs, flow features not considered in previous axisymmetric computational and theoretical models of copepod jumps. While not accounting for this asymmetry, an impulsive stresslet is nonetheless useful in modeling the flow created by the escaping copepod and represents the flow more accurately than an impulsive Stokeslet. In the final part of this study, the flow associated with metachronal hovering in Antarctic krill is experimentally and theoretically investigated in regards to the energy requirements of the pelagic lifestyle. Volumetric flow measurements of a hovering Antarctic krill show that each stroking pleopod drags flow behind it such that a downward stream develops medially. The lateral exopodites induce tip vortices which add to the lift force on each appendage. Furthermore, the flow beneath the hovering krill develops into a pulsed jet with a Strouhal number in the 'high-efficiency zone' of 0.2 < St < 0.4. Actuator disk theory is used to make theoretical estimates of the induced power necessary to hover, the results of which match induced power values calculated from measured flow gradients contributing to viscous energy dissipation.

Propulsion

Antarctic krill

Copepod

Tomographi PIV

Metachronal

Zooplankton

Plankton

Kinematics

Hydrodynamics

Understanding Transport Variability of the Antarctic Circumpolar Current Using Ocean Bottom Pressure

Makowski, Jessica

01 January 2013

Previous studies have suggested that ocean bottom pressure (OBP) can be used to measure the transport variability of the Antarctic Circumpolar Current (ACC). The OBP observations from the Gravity Recovery and Climate Experiment (GRACE) are used to calculate transport along the choke point between Antarctica and Australia. Statistical analysis will be conducted to determine the uncertainty of the GRACE observations using a simulated data set. There has been some evidence to suggest that Southern Hemisphere winds and the Southern Annular Mode (SAM) or the Antarctic Oscillation (AAO) play a significant role in accelerating/decelerating ACC transport, along with some contribution from buoyancy forcing. We will examine whether average zonal wind stress, wind stress curl, local zonal winds, or the SAM are representative of the low frequency zonal mass transport variability. Preliminary studies suggest that seasonal variation in transport across the Australia-Antarctica choke point is driven by winds along and north of the northern front of the ACC, the Sub Tropical front (STF). It also appears that interannual variations in transport are related to wind variations centered south of the Sub Antarctic Front (SAF). We have observed a strong negative correlation/positive correlation across the STF of the ACC in the Indian Ocean, which suggests wind stress curl may also be responsible for transport variations.

Antarctic Circumpolar Current

GRACE

Ocean Bottom Pressure

Ocean Transport

Southern Ocean

Oceanography

Chemical Investigation of two Antarctic Invertebrates, Synoicum adareanum (Chordata: Ascidiaceae; Enterogona; Polyclinidae) and Austrodoris kergulenensis (Molusca; Gastropoda; Nudibranchia; Dorididae)

Diyabalanage, Thushara Kelum Kaviraj

01 June 2006

Synoicum adareanum is a colonial tunicate commonly found on the benthos around Palmer Station on Anvers Island, Antarctica. A comprehensive chemical investigation of the lipophilic extract of the frozen tunicates gave a new series of polyketide macrolides, palmerolides A-E and H. The structure elucidation of these compounds was accomplished by extensive NMR and mass spectral studies.The palmerolides are unusual 20-membered macrolides displaying functionality more commonly found in sponges or cyanobacteria. Palmerolide A, the major member of the group, shows significant and selective in vitro cytotoxicity against melanoma with three orders of greater sensitivity relative to other cell lines tested, in the National Cancer Institute (NCI) 60 human cancer cell-line panel. In addition, it displays potent cytostatic activity against several other cancer cell lines. Based on NCI's COMPARE analysis, palmerolide A was investigated as a V-ATPase inhibitor and shown to bind the V0 subunit with 2 nM inhibition.Austrodoris kerguelenensis is a common Antarctic nudibranch widely distributed in the High Antarctic and Sub Antarctic Zone. It is characterized by the presence of terpenoid glyceryl esters which are supposed to be involved in defense. Chemical investigations of several specimens of A. kerguelenensis collected near Palmer station Antarctica afforded hitherto undescribed series of clerodane diterpenoid glycerides. The structure elucidation of three major compounds of this series, palmadorin A, B and C was accomplished.

Antarctic tunicate

Palmerolide macrolide

Cytotoxicity

Nudibranch

Palmadorin

American Studies

Arts and Humanities

Phytoplankton ecology and biogeochemistry of the warming Antarctic sea-ice zone

Annett, Amber

January 2013

Marine productivity along the western Antarctic Peninsula (WAP) is declining. The WAP is site of the fastest regional warming in the southern hemisphere, and has experienced atmospheric and oceanic temperature increases leading to increased glacial inputs and reduced winter sea-ice cover. Sea-ice is a key link between climate and phytoplankton production, as melting sea-ice stratifies the water column and provides a source of micronutrients to surface waters. Reductions in ice cover have been accompanied by declining chlorophyll (chl; a proxy for phytoplankton biomass), and a shift to smaller cell sizes in phytoplankton communities. These reductions have implications for carbon drawdown and production available to higher trophic levels. However, little is known about phytoplankton shifts at the community level, as existing studies are based on satellite records and photosynthetic pigment analyses. To elucidate the nature of the changes within phytoplankton assemblages, high-resolution time-series data of diatom speciation are coupled to environmental data from five years in Ryder Bay (Adelaide Island, WAP). Long-term monitoring at this site by the British Antarctic Survey has identified a strong relationship between chl and water column stratification, and this study spans a wide range of physical conditions and biological production. By comparing high- and low-chl phytoplankton assemblages, this study investigates the mechanisms underlying productivity changes and the manner in which these changes impact nutrient cycling, drawdown and trophic transfer. The results presented here are the first full season in-situ records documenting differences in phytoplankton and diatom assemblages between highand low-chl years. The primary difference between chl conditions is a dramatic decline in diatom abundance. This analysis indicates that the mechanism producing low-chl seasons is less stratified surface waters, where light levels are much more variable than in high-chl years. Overall production is reduced, and small increases are seen in biomass of prymnesiophytes, which are better adapted to variable light. These shifts in phytoplankton composition and size structure are consistent with a southward propagation of observed climate change effects. Within the diatom community, changes in seasonal succession and a decrease in species richness occurred following low winter sea-ice. As the main component of high productivity and that most efficiently transferred to higher trophic levels, variation in diatom production due to environmental conditions is a mechanism to explain the observed WAP ecosystem changes and chl decline. Changes in phytoplankton stocks and composition also affect nutrient use, and here the use of silicon and iron (Si and Fe, respectively, which limit productivity in large areas of the Southern Ocean) is investigated. Seasonal Si budgets estimated from Si isotopes indicate a 40 – 70% decline in Si use between high-chl and intermediate-chl years, in agreement with other indices of productivity. The consequences of reduced demand and changing supply suggest future accumulation of Si in WAP surface waters. This should increase Si export away from the WAP shelf, which may act as a mechanism to enhance productivity and carbon drawdown in the wider Southern Ocean. Sources of Fe were assessed by direct measurement and naturally occurring radioisotopes of radium. These reveal significant inputs at the surface (due to glacial sources) and to deep waters (from shelf/slope sediments), which dominate supply to the surface mixed layer at different times. Iron availability and nutrient drawdown indicate that Fe is supplied to WAP surface waters in excess of biological demand. Projected changes to Fe sources and sinks indicate that continued warming will increase the WAP Fe inventory. As for Si, this excess Fe may also be advected away from the shelf, making this region a net Fe source to the Southern Ocean.

579.8

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.

Seasonal and inter-annual changes in the computation of Aura MLS HCl depletion and PSC-induced areas in the Antarctic polar stratosphere: 2005-2010 climate-chemistry assessment: the role of clouds in the Antarctic middle atmosphere

Arevalo Torres, Andolsa

January 2012

An examination of the seasonal and spatial distribution of Polar Stratospheric Clouds (PSCs) inferred from standard temperature profiles in the lower-middle atmosphere above Antarctica, as derived from the Earth Observing System (EOS) Aura Microwave Limb Sounder (MLS) satellite observations and NCEP/NCAR assimilations, is provided. Chemical volume mixing ratio (VMR) observations of EOS Aura MLS v2.2 hydrogen chloride (HCl) were used to show the interannual variability of PSC formation with respect to stratospheric chlorine partitioning during five Southern Hemisphere Antarctic seasons from 2005 to 2009. A remarkable first set of results, obtained from an algorithm developed for modelling HCl depletion areas in the Antarctic polar vortex region, and based on satellite observations, is presented. In particular, the analysis of HCl concentration data obtained from 2006 indicated that the area processed for HCl was larger than the area of PSC during some periods of Antarctic winter, and that this result was robust with respect to the various PSC formation and HCl depletion thresholds utilized. The results suggest that an underestimation in chlorine activation area can occur when temperature thresholds for PSC formation thresholds are employed. The work presented here also evaluated chlorine activation via sulfate aerosol (SA) in the Southern Hemisphere 2006 stratosphere, based on satellite measurements of water vapor (H2O) and constant values of SA, by implementing the TACL formula of Drdla and Müller [2010] in contrast to the TNAT formula of Hanson and Mauersberger [1988]. The results indicated that the former formula was not completely sufficient for accurately modeling areas of depleted HCl and chlorine deactivation for all pressure surfaces in the Antarctic stratosphere. Based on the results of this study, the role of SA in chlorine activation appears to be more important at lower altitudes than for areas higher in the stratosphere.

Chlorine activation

Polar Stratospheric Clouds

satellite observations

Antarctic stratosphere

hydrogen chloride

sulfate aerosol.

Uso del espacio, dieta y estado corporal del skua pardo (Stercorarius antacticus lonnbergi) durante su período reproductivo en Antártida

Graña Grilli, Maricel

27 March 2015

Los hábitats reproductivos y de alimentación, los patrones de movimientos, así como los recursos alimenticios y las condiciones nutricionales y corporales son factores clave en la historia de vida de las aves marinas que se interrelacionan e influyen en el desarrollo reproductivo. Se estudiaron estas características en los skuas pardos (Stercorarius antarcticus lonnbergi) que reproducen en Península Potter, Isla 25 de Mayo, Islas Shetland del Sur, Antártida, durante las temporadas 2012/13 y 2013/14. Esta población permanece en la zona entre octubre y abril y luego migra hacia el norte, y mientras permanece en su sitio reproductivo se alimenta principalmente en las colonias de pingüinos. El período reproductivo se dividió en tres etapas: incubación (In), cuidado temprano del pichón (Pi) y pichón volantón (Pv). En cada etapa se colocaron unidades GPS y luego de 10 días se los recuperó, se extrajo una muestra de sangre y se registró la masa corporal. Con los datos de posición se determinó el área de acción, la distancia de desplazamiento diario y el patrón de presencia de los padres a diferentes distancias del nido. Se estudió la dieta por medio del análisis de isótopos estables de C y N en células rojas y plasma. Además, se determinaron parámetros bioquímicos sanguíneos, las condiciones inmunológicas a través de la evaluación de frotis sanguíneos y se determinó el estado corporal por medio de un índice. El área de acción se redujo luego del nacimiento de los pichones y se expandió a la edad de emplume. El nivel de actividad indicado por la distancia de desplazamiento diario aumentó a lo largo del período reproductivo, como también lo hizo el tiempo que los skuas pardos dejaron el nido solo, lo cual se puede relacionar con las necesidades de cuidados y alimentación creciente de los pichones a medida que se desarrollan. En relación con el cambio en las características del movimiento mencionadas, durante el transcurso del período reproductivo hubo un aumento en el aporte de recursos marinos a la dieta, que puede estar vinculado con la disminución en la ingesta de grasas y el aumento en el consumo de reservas proteicas corporales. Este consumo de reservas corporales, sin embargo, no se reflejó en cambios en el estado corporal. La dieta y estado corporal y nutricional no mostraron diferencias entre los sexos. El estado inmunológico indicó un mayor nivel de estrés en las hembras, lo cual podría estar relacionado con su mayor tiempo de presencia en el nido. El resto de los parámetros de movimientos y uso del espacio no mostraron diferencias entre los sexos. Ni las características de los movimientos ni el patrón de presencia de los padres en el nido estuvieron relacionados con la probabilidad de éxito en la eclosión de huevos. De la misma manera, ni la dieta ni el estado corporal, nutricional o inmunológico mostraron relación con el éxito de eclosión. Sin embargo, cuando el comienzo de la reproducción de los pingüinos coincidió con el comienzo del período reproductivo de los skuas pardos, el éxito de eclosión estuvo relacionado con la sincronización entre la fecha de postura y el pico de postura de los pingüinos. Por el contrario, cuando los pingüinos comenzaron su reproducción en fechas más tempranas, la fecha de postura de los pingüinos no se vinculó con la probabilidad de éxito. Esto sugiere una fuerte dependencia del éxito reproductivo de los skuas pardos a la disponibilidad de alimento en las colonias de pingüinos. La necesidad de recuperación del estado corporal luego de la migración podría impedir adelantar el comienzo de su reproducción para mantenerse en fase con los pingüinos, y la necesidad de realizar una migración posterior podría empujarlos a abandonar el cuidado de los pichones, si hacerlo compromete su posibilidad de supervivencia futura. Nuevas investigaciones sobre la manera en que la cronología reproductiva de los pingüinos y la disponibilidad de alimento en ellas impactan sobre el éxito reproductivo de los skuas pardos, así como sobre el modo en que los movimientos y el comportamiento de los skuas influyen en la probabilidad de pérdida de nidos en etapa de incubación serían muy importantes frente a un escenario de cambio climático que podría modificar el período reproductivo de los pingüinos, y de bajo éxito reproductivo en los skuas pardos.

aves marinas

antarctic seabirds

skua pardo

brown skuas

Ciencias Naturales

Reproducción

Alimentación