Remote sensing technologies and sampling methods in Arctic and Antarctica
In last four years scientists from the University of Latvia have carried out six scientific expeditions in the Arctic and the Antarctic focusing on geophysical studies of modern glaciers and performing interdisciplinary studies in the fields of geology, geomorphology, glaciology, soil science, remot...
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ftlinnaeusuniojs:oai:ojs.journals.lnu.se:article/1521 2023-11-12T04:07:57+01:00 Remote sensing technologies and sampling methods in Arctic and Antarctica Krievāns, Māris Lamsters, Kristaps Karušs, Jānis Ješkins, Jurijs Burlakovs, Juris 2018-11-14 application/pdf https://open.lnu.se/index.php/eco-tech/article/view/1521 eng eng Linnaeus University https://open.lnu.se/index.php/eco-tech/article/view/1521/1402 https://open.lnu.se/index.php/eco-tech/article/view/1521 Copyright (c) 2018 Māris Krievāns, Kristaps Lamsters, Jānis Karušs, Jurijs Ješkins, Juris Burlakovs https://creativecommons.org/licenses/by/4.0 Linnaeus Eco-Tech; 2018: Book of abstracts : Linnaeus ECO-TECH '18; 129 2002-8008 aerial unmanned vehicle three-dimensional models ground penetrating radar info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2018 ftlinnaeusuniojs 2023-10-18T10:32:36Z In last four years scientists from the University of Latvia have carried out six scientific expeditions in the Arctic and the Antarctic focusing on geophysical studies of modern glaciers and performing interdisciplinary studies in the fields of geology, geomorphology, glaciology, soil science, remote sensing, and microbiology. Scientific expeditions to Iceland were carried out in 2014, 2015, 2017 and 2018, and the expedition to Greenland was accomplished in 2016. In the last year’s (2017) expedition to Iceland, researchers tested new study methods and equipment, which were used for future research in the Arctic and Antarctic. The first Latvian scientific expedition to Antarctica was carried out in 2018. The main goal in these polar expeditions was an investigation of glacier thickness, structure and subglacial topography using ground penetrating radar (GPR). GPR measurements were performed by GPR Zond 12-e and 38 and 75 MHz antennas. Assuming that the average dielectric permittivity of ice is equal to 3.5, it allowed detecting the reflections of depth up to 160 m beneath the ice surface. The coordinates of each GPR profiles and sampling points were determined by GPS system Magellan Promark 3 or Emlid Reach RS+ that are composed of two GPS receivers. Working with this particular GPS allowed us to take measurements and post-process results with geodetic accuracy, with or without GSM or radio support. Surface topography of the glaciers is articulated, as a result, GPR data gathering and creation of precise surface elevation maps is difficult. Starting from Greenland expedition in 2016, aerial unmanned vehicle (UAV) is used to create three-dimensional models of the marginal zone of glaciers. Surface elevation maps of the surveyed part of the glaciers were created using a large number of aerial photographs captured with drone DJI Phantom 3 advanced and DJI Phantom 4 Pro V2.0. To anticipate bad weather and high risk of wind, in the last expedition to Iceland Dji Mavic Air was used as a reserve in case of possible ... Article in Journal/Newspaper Antarc* Antarctic Antarctica Arctic glacier glacier Greenland Iceland LnuOpen (Linnaeus University) Antarctic Arctic Greenland The Antarctic |
institution |
Open Polar |
collection |
LnuOpen (Linnaeus University) |
op_collection_id |
ftlinnaeusuniojs |
language |
English |
topic |
aerial unmanned vehicle three-dimensional models ground penetrating radar |
spellingShingle |
aerial unmanned vehicle three-dimensional models ground penetrating radar Krievāns, Māris Lamsters, Kristaps Karušs, Jānis Ješkins, Jurijs Burlakovs, Juris Remote sensing technologies and sampling methods in Arctic and Antarctica |
topic_facet |
aerial unmanned vehicle three-dimensional models ground penetrating radar |
description |
In last four years scientists from the University of Latvia have carried out six scientific expeditions in the Arctic and the Antarctic focusing on geophysical studies of modern glaciers and performing interdisciplinary studies in the fields of geology, geomorphology, glaciology, soil science, remote sensing, and microbiology. Scientific expeditions to Iceland were carried out in 2014, 2015, 2017 and 2018, and the expedition to Greenland was accomplished in 2016. In the last year’s (2017) expedition to Iceland, researchers tested new study methods and equipment, which were used for future research in the Arctic and Antarctic. The first Latvian scientific expedition to Antarctica was carried out in 2018. The main goal in these polar expeditions was an investigation of glacier thickness, structure and subglacial topography using ground penetrating radar (GPR). GPR measurements were performed by GPR Zond 12-e and 38 and 75 MHz antennas. Assuming that the average dielectric permittivity of ice is equal to 3.5, it allowed detecting the reflections of depth up to 160 m beneath the ice surface. The coordinates of each GPR profiles and sampling points were determined by GPS system Magellan Promark 3 or Emlid Reach RS+ that are composed of two GPS receivers. Working with this particular GPS allowed us to take measurements and post-process results with geodetic accuracy, with or without GSM or radio support. Surface topography of the glaciers is articulated, as a result, GPR data gathering and creation of precise surface elevation maps is difficult. Starting from Greenland expedition in 2016, aerial unmanned vehicle (UAV) is used to create three-dimensional models of the marginal zone of glaciers. Surface elevation maps of the surveyed part of the glaciers were created using a large number of aerial photographs captured with drone DJI Phantom 3 advanced and DJI Phantom 4 Pro V2.0. To anticipate bad weather and high risk of wind, in the last expedition to Iceland Dji Mavic Air was used as a reserve in case of possible ... |
format |
Article in Journal/Newspaper |
author |
Krievāns, Māris Lamsters, Kristaps Karušs, Jānis Ješkins, Jurijs Burlakovs, Juris |
author_facet |
Krievāns, Māris Lamsters, Kristaps Karušs, Jānis Ješkins, Jurijs Burlakovs, Juris |
author_sort |
Krievāns, Māris |
title |
Remote sensing technologies and sampling methods in Arctic and Antarctica |
title_short |
Remote sensing technologies and sampling methods in Arctic and Antarctica |
title_full |
Remote sensing technologies and sampling methods in Arctic and Antarctica |
title_fullStr |
Remote sensing technologies and sampling methods in Arctic and Antarctica |
title_full_unstemmed |
Remote sensing technologies and sampling methods in Arctic and Antarctica |
title_sort |
remote sensing technologies and sampling methods in arctic and antarctica |
publisher |
Linnaeus University |
publishDate |
2018 |
url |
https://open.lnu.se/index.php/eco-tech/article/view/1521 |
geographic |
Antarctic Arctic Greenland The Antarctic |
geographic_facet |
Antarctic Arctic Greenland The Antarctic |
genre |
Antarc* Antarctic Antarctica Arctic glacier glacier Greenland Iceland |
genre_facet |
Antarc* Antarctic Antarctica Arctic glacier glacier Greenland Iceland |
op_source |
Linnaeus Eco-Tech; 2018: Book of abstracts : Linnaeus ECO-TECH '18; 129 2002-8008 |
op_relation |
https://open.lnu.se/index.php/eco-tech/article/view/1521/1402 https://open.lnu.se/index.php/eco-tech/article/view/1521 |
op_rights |
Copyright (c) 2018 Māris Krievāns, Kristaps Lamsters, Jānis Karušs, Jurijs Ješkins, Juris Burlakovs https://creativecommons.org/licenses/by/4.0 |
_version_ |
1782328420231806976 |