Dynamics of Antarctic and Greenland ice sheets using the borehole, radio sounding and space observations

Марков, А. Н.; Dahl-Jensen, Dorthe; Котляков, В. М.; Голубев, В. А.; Leonov, M. G.; Lukin, Valeriy

doi:10.15356/2076-6734-2016-3-309-332

Cited by 3 publications

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References 1 publication

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“…The accuracy and especially sensitivity of measurement systems based on the applied construction solutions allow, besides the fulfillment of the technical objectives of monitoring the condition of the borehole, to also attain the required highly-accurate measurements to accomplish real scientific objectives (Bons and others, 2016; Markov and others, 2016; Dahl-Jensen and others, 2017), for registration the following parameters and phenomena: Temperature characteristics of the ice sheet; The Earth's heat flow in the borehole area; The structure of the ice-sheet current (based on the results of highly-accurate monitoring of changes in the direction of the borehole's axis (inclinometry)); The anisotropic mechanical properties of ice around the borehole (based on the results of highly-accurate monitoring of the changing radius of the borehole cross-section). …”

Section: Discussionmentioning

confidence: 99%

Borehole multi-functional logger for geophysical high-precision monitoring in Antarctic and Greenland ice sheets and glaciers

et al. 2021

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This article presents the main aspects of the design solutions (based on the application of sensors MEMS and cantilevers), testing and applying of the multi-functional borehole logger ANTTIC (Antarctic Thermo-barometer, Inclinometer, Caliper) for geophysical high-precision monitoring (when simultaneous registering of temperature, pressure, axis inclination angle and radii of borehole cross-sections at 12 points), which is designed specifically for ultra-low temperatures and ultra-high pressures, and to determine an elliptical borehole shape and registration anisotropy factor in deep ice boreholes in the central region of Eastern Antarctica, in the areas of dome A at the Kunlun station (China) and/or of lake Vostok at the Vostok station (Russia).

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Section: Discussionmentioning

confidence: 99%

Borehole multi-functional logger for geophysical high-precision monitoring in Antarctic and Greenland ice sheets and glaciers

et al. 2021

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Motion of the Dålk Glacier (Prydz Bay, East Antarctica): Application of unmanned aerial survey

2023

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Determination of glacier surface displacements through multi-temporal UAV data

Skrypitsyna

2022

G&C

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The shelf and outlet glaciers fluctuation characteristics are classically performed by comparing multi-temporal mapping sources, geophysical and remote sensing methods. The unmanned aerial vehicles (UAVs) usage equipped with GNSS receivers and digital photographic cameras enables obtaining georeferenced information and images. This data can be successfully employed for characterizing the movement of the glacier. The author proposes a modified pseudo-parallax method, which uses the multi-temporal survey materials obtained from the UAVs to determine the spatial displacements of the glacier surface. Its efficiency is demonstrated on the movement pattern determination example of the Dålk Glacier (North Antarctica) in the period from January, 20 to February, 9, 2017. Through that we can determine the total displacement vector on a point by three coordinates, they are measured by pseudo-stereopair obtained from different-time orthophotomaps and DEM. Modern automated techniques for identifying the corresponding points on a pair of images allow obtaining a sufficiently dense measurement network with predictable accuracy and precision. The investigation made it possible to determine the glacier displacement in 10 days and the distribution nature of these offsets without ground-based geodetic measurements. The average drift was 6,28 m, with a scatter from 0,07 m to 10,8 m. A method for estimating the shifts without ground control measurements was proposed and the main sources of systematic and random errors in coordinates and points heights determination were described.

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Dynamics of Antarctic and Greenland ice sheets using the borehole, radio sounding and space observations

Cited by 3 publications

References 1 publication

Borehole multi-functional logger for geophysical high-precision monitoring in Antarctic and Greenland ice sheets and glaciers

Borehole multi-functional logger for geophysical high-precision monitoring in Antarctic and Greenland ice sheets and glaciers

Motion of the Dålk Glacier (Prydz Bay, East Antarctica): Application of unmanned aerial survey

Determination of glacier surface displacements through multi-temporal UAV data

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