189 research outputs found
Satellite investigations of ice-ocean interactions in the Amundsen Sea sector of West Antarctica
This thesis analyses satellite-based radar data to improve our understanding of
the interactions between the Antarctic Ice Sheet and the ocean in the Amundsen
Sea Sector of West Antarctica. Over the last two decades, the European Remote
Sensing (ERS) Satellites have provided extensive observations of the marine and
cryospheric environments of this region. Here I use this data record to develop
new datasets and methods for studying the nature and drivers of ongoing change
in this sector. Firstly, I develop a new bathymetric map of the Amundsen Sea,
which serves to provide improved boundary conditions for models of (1) ocean
heat transfer to the ice sheet margin, and (2) past ice sheet behaviour and extent.
This new map augments sparse ship-based depth soundings with dense gravity
data acquired from ERS altimetry and achieves an RMS depth accuracy of 120
meters. An evaluation of this technique indicates that the inclusion of gravity data
improves the depth accuracy by up to 17 % and reveals glaciologically-important
features in regions devoid of ship surveys. Secondly, I use ERS synthetic aperture
radar observations of the tidal motion of ice shelves to assess the accuracy of tide
models in the Amundsen Sea. Tide models contribute to simulations of ocean
circulation and are used to remove unwanted signals from estimates of ice shelf
flow velocities. The quality of tide models directly affects the accuracy of such
estimates yet, due to a lack of in situ records, tide model accuracy in this region is
poorly constrained. Here I use two methods to determine that tide model accuracy
in the Amundsen Sea is of the order of 10 cm. Finally, I develop a method to map 2-d ice shelf flow velocity from stacked conventional and multiple aperture
radar interferograms. Estimates of ice shelf flow provide detail of catchment
stability, and the processes driving glaciological change in the Amundsen Sea.
However, velocity estimates can be contaminated by ocean tide and atmospheric
pressure signals. I minimise these signals by stacking interferograms, a process
which synthesises a longer observation period, and enhances long-period (flow)
displacement signals, relative to rapidly-varying (tide and atmospheric pressure)
ones. This avoids the reliance upon model predictions of tide and atmospheric
pressure, which can be uncertain in remote regions. Ice loss from Amundsen
Sea glaciers forms the largest component of Antarctica’s total contribution to sea
level, yet because present models cannot adequately characterise the processes
driving this system, future glacier evolution is uncertain. Observations and models
implicate the ocean as the driver of glaciological change in this region and have
focussed attention on improving our understanding of the nature of ice-ocean
interactions in the Amundsen Sea. This thesis contributes datasets and methods
that will aid historical reconstructions, current monitoring and future modelling
of these processes
Greenland ice sheet motion coupled with daily melting in late summer
We use ground-based and satellite observations to detect large diurnal and longer-period variations in the flow of the Greenland Ice Sheet (GrIS) during late summer that are strongly coupled with changes in its surface hydrology. The diurnal signals are associated with periodic changes in surface melting, and the longer-period signals are associated with the episodic drainage of supra-glacial lakes. Ice velocity doubles around 2 hours after peak daily melting and returns approximately to wintertime levels around 12 hours afterwards, demonstrating an intimate link between the surface and basal hydrology. During late summer, the ice sheet accelerates by 35% per positive degree-day of melting. The observed link between surface melting and enhanced flow is typical of Alpine glaciers, which may provide an appropriate analogue for the evolution of the GrIS in a warming climate
Mapping ice-shelf flow with interferometric synthetic aperture radar stacking
International audienc
An inventory of supraglacial lakes and channels across the West Antarctic Ice Sheet
Quantifying the extent and distribution of supraglacial hydrology, i.e. lakes and streams, is important for understanding the mass balance of the Antarctic ice sheet and its consequent contribution to global sea-level rise. The existence of meltwater on the ice surface has the potential to affect ice shelf stability and grounded ice flow through hydrofracturing and the associated delivery of meltwater to the bed. In this study, we systematically map all observable supraglacial lakes and streams in West Antarctica by applying a semi-automated Dual-NDWI (normalised difference water index) approach to >2000 images acquired by the Sentinel-2 and Landsat-8 satellites during January 2017. We use a K-means clustering method to partition water into lakes and streams, which is important for understanding the dynamics and inter-connectivity of the hydrological system. When compared to a manually delineated reference dataset on three Antarctic test sites, our approach achieves average values for sensitivity (85.3 % and 77.6 %), specificity (99.1 % and 99.7 %) and accuracy (98.7 % and 98.3 %) for Sentinel-2 and Landsat-8 acquisitions, respectively. We identified 10 478 supraglacial features (10 223 lakes and 255 channels) on the West Antarctic Ice Sheet (WAIS) and Antarctic Peninsula (AP), with a combined area of 119.4 km2 (114.7 km2 lakes, 4.7 km2 channels). We found 27.3 % of feature area on grounded ice and 54.9 % on floating ice shelves. In total, 17.8 % of feature area crossed the grounding line. A recent expansion in satellite data provision made new continental-scale inventories such as these, the first produced for WAIS and AP, possible. The inventories provide a baseline for future studies and a benchmark to monitor the development of Antarctica's surface hydrology in a warming world and thus enhance our capability to predict the collapse of ice shelves in the future. The dataset is available at https://doi.org/10.5281/zenodo.5642755 (Corr et al., 2021)
Spatial organisation of groundwater dynamics and streamflow response from different hydropedological units in a montane catchment
Funding was provided by the Leibniz Association (SAW-2012-IGB 4167) within the International Leibniz Graduate School: Aquatic boundaries and linkages- Aqualink. We would like to thank the NRI staff for their help during field work.Peer reviewedPostprin
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Benefits and lessons learned from the Sentinel-3 tandem phase
During its commissioning phase, the Copernicus Sentinel-3B satellite has been placed in a tandem formation with Sentinel-3A for a period of 6 months. This configuration allowed a direct comparison of measurements obtained by the two satellites. The purpose of this paper was to present the range of analyses that can be performed from this dataset, highlighting methodology aspects and the main outcomes for each instrument. We examined, in turn, the benefit of the tandem in understanding instrument operational modes differences, in assessing inter-satellite differences, and in validating measurement uncertainties. The results highlighted the very good consistency of the Sentinel-3A and B instruments, ensuring the complete inter-operability of the constellation. Tandem comparisons also pave the way for further improvements through harmonization of the sensors (OLCI), correction of internal stray-light sources (SLSTR), or high-frequency processing of SRAL SARM data. This paper provided a comprehensive overview of the main results obtained, as well as insights into some of the results. Finally, we drew the main lessons learned from the Sentinel-3 tandem phase and provided recommendations for future missions
A General Theory of Egg Production
8 pages, 1 article*A General Theory of Egg Production* (Fitz-Earle, Malcolm; McMillan, Ian; Butler, Leonard; Robson, Douglas) 8 page
The essential value of long-term experimental data for hydrology and water management
We would like to thank the European Research Council ERC for funding the VeWa project and most of Tetzlaff's time (project GA 335910 VeWa). No data were used in producing this manuscript.Peer reviewedPublisher PD
Intrafamilial genotyping of helicobacter pylori from faecal DNA
Helicobacter pylori infection, often acquired in early childhood, is a global cause of undernutrition, gastritis, peptic ulcer disease and gastric carcinoma. This study tested the feasibility of using H. pylori shed in the faeces as a source of DNA for non-invasive epidemiological studies. H. pylori DNA was chemically recovered and isolated using a specific biotinylated oligonucleotide probe with magnetic capture from 28 H. pylori positive faecal samples obtained from children attending hospital for the investigation of suspected H. pylori infection, together with close family members. Random amplification of polymorphic DNA (RAPD) was subsequently used to discriminate each isolate. 93% of stool samples selected were typeable. Parent, child and sibling samples were compared and similarities determined. Phylogenetic analysis showed that H. pylori DNA obtained from the faeces can be used to genotype individual strains, offering a means of studying intrafamilial transfer of this microorganism
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