Timelapse photographs from Arie to Isbjornhamna

A set of timelapse photographs from Arie slope to Isbjornhamna. The folder names are the year (YYYY), and the month (YYYYMM). The pictures' name is data with hours of capture (YYYYMMDD_HHMM_......). The text files include the names of all taking pictures. Pictures with clouds, fogs, dark, moisten, overexposed, etc. were deleted. Text file in the folder with the photo-station name includes information about camera geographical position.

Data and Resources

Additional Info

Field Value
GCMD keywords
  • name: EARTH SCIENCE > OCEANS > COASTAL PROCESSES > FJORDS
  • name: EARTH SCIENCE > CRYOSPHERE > SEA ICE
  • name: EARTH SCIENCE > CRYOSPHERE > SNOW/ICE
  • name: EARTH SCIENCE > LAND SURFACE > GEOMORPHIC LANDFORMS/PROCESSES > COASTAL LANDFORMS
  • name: EARTH SCIENCE > OCEANS > COASTAL PROCESSES
  • name: EARTH SCIENCE > OCEANS > OCEAN WAVES
  • name: EARTH SCIENCE > OCEANS > SEA ICE
  • name: EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > SNOW COVER
Dataset Center https://dataportal.igf.edu.pl
Maintainer Data Steward
Dataset PI
  • PI name: Mateusz Moskalik  PI email: mmoskfoo(at)igf.edu.pl  PI ORCID: 0000-0002-0615-9528  PI Institution: Institute of Geophysics, Polish Academy of Sciences  PI Department: Polar and Marine Research
  • PI name: Oskar Głowacki  PI email: oglowackifoo(at)igf.edu.pl  PI Institution: Institute of Geophysics, Polish Academy of Sciences  PI Department: Polar and Marine Research
  • PI name: Bartłomiej Luks  PI email: luksfoo(at)igf.edu.pl  PI Institution: Institute of Geophysics, Polish Academy of Sciences  PI Department: Polar and Marine Research
Dataset Owner
  • Owner name: Institute of Geophysics, Polish Academy of Sciences  Owner PIC (Participant Identification Code): 996625337  Owner address: Ksiecia Janusza 64, 01-452 Warszawa, Poland
Licence Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)
Dataset status In Work
Activity type
  • in-situ measurements
  • photographs
  • long-term monitoring
Access constraint Open
Embargo
Dataset modified 2022-02-18
Version
Metadata created 2022-02-18
Quality statement Quality controlled by manual inspection
Quality Editor
  • Editor name: Bartłomiej Luks  Editor email: luksfoo(at)igf.edu.pl  Editor Institution: Institute of Geophysics, Polish Academy of Sciences
Spatial distribution { "coordinates": [ [ [ 15.517, 77.011 ], [ 15.655, 77.005 ], [ 15.544, 76.983 ], [ 15.517, 77.011 ] ] ], "type": "Polygon" }
Region Svalbard, Spitsbergen, Hornsund
Start time 2015-07-14 00:00 UTC
End time 2020-12-31 23:59 UTC
Dataset citation Moskalik M., Głowacki O., Luks B. Timelapse photographs from Arie to Hansbukta.
Dataset DOI https://doi.org/
External resource
Publication
Project
  • Project title: Long-term OceaNoGraphic monitoring in HORnsuNd region (LONGHORN)  Project ID: RiS-ID 11029  Project description: Long-term OceaNoGraphic monitoring in HORnsuNd region (LONGHORN) has been realized since 2015. It is a continuation of a previous project led by the Department of Polar and Marine Researchers Institute of Geophysics Polish Academy of Sciences (DPMR IG PAS). This monitoring has been implemented to benefit scientific communities interested in processes which undergo in fjords, especially on the border between marine, glacial and coastal environment. Still a little is known about those processes, even though they are causally related to the observed climate change. However, the analysis of those processes is very problematic. Lack of long-term datasets from fjords with glaciers is one of the relevant problems. Data are typically obtained during research cruises or short-time measurement campaigns, usually performed in spring and summer. The location of the Stanislaw Siedlecki Polish Polar Station (PPS) in Hornsund gives an opportunity to establish long-term all-year oceanographic monitoring. In Hornsund, two sets of oceanographic and associated photographic monitoring are in progress. The first set of oceanographic monitoring is executed by PPS staff. It includes: measurements of temperature, salinity, turbidity, and dissolved oxygen in-depth profiles in stations covering the whole Hornsund; analyses of suspended sediment concentration and loss on ignition from water samples taken in-depth profiles in Hansbukta (forefield of Hansbreen); analyses of sediment flux and loss on ignition from sediment traps deployed in Hansbukta (forefield of Hansbreen). The second set of oceanographic monitoring is realized via autonomous underwater buoys set up by DPMR IG PAS researchers. It includes: - temperature and salinity all-year registration in a selected location in Hornsund; wave and tide all-year registration in a selected location in Hornsund; - ambient noise acoustic all-year registration in Hansbukta (forefield of Hansbreen). Autonomous photographic monitoring is realized via cameras localized on Ariekammen, Fugleberget, Fannytoppen, Baranowskiodden, and Fuglebergsletta. They are used in the analysis of sea state and ice conditions in Isbjornhamna and Hansbukta.  Project homepage: https://www.researchinsvalbard.no/project/7620  Project financing institution: Institute of Geophysics, Polish Academy of Sciences
  • Project title: The impact of the sea ice conditions in the nearshore zone and shore ice on the wave propagation and coastal morphodynamics in polar regions on the example of south-western Spitsbergen - the analysis of processes, modeling, and prediction. (2014.05.13-2018.12.12)  Project ID: UMO-2013/09/B/ST10/04141  Project description: The global Warming results in the decline of shore ice and pack ice growth, and along with the increasing number of storms in autumn and winter it poses a threat to the coasts of Arctic. Considering the rising interest in polar regions’ natural resources it is expected, that the coastal areas will be used as locations for land bases. Incorporation of sea ice and shore ice effects in the models of coastal erosion will be crucial for their security. In The State of Arctic Coasts report (2010) it is concluded, that the polar coasts are the very dynamic environment that is particularly sensitive to the climate change, mostly through constant adaptation to the changing conditions, which are: retreat of the glaciers, thawing permafrost, rise in sea temperature, prolonged periods with no sea ice and increasing number of storms. The coasts of Arctic are over 30% of the global shoreline’s length. Still, their dynamics is not known enough to fully understand the processes that control them. The scientific studies describing the above are insufficient in quantity and quality. It is estimated that only 1% of the Arctic coasts have been investigated. Those investigations concern mainly the thermal abrasion of the Alaskan, Canadian and Siberian coasts rich in permafrost, which are characterized by the most rapid erosion rates, exceeding 10 m/a. In comparison, the coasts of Svalbard and other archipelagos are under-investigated, and in scientific reports they are considered relatively stable. This project has delivered the new information describing the erosion processes on the coasts of the southwestern Spitsbergen. Moreover, the state of knowledge is in constant supplementation by the monitoring data from the two bays; Isbjornhamna and Hansbukta in Hornsund fjord. These are the key locations, considering the proximity of the Polish Polar Station which concentrates the execution of the research conducted by polish scientific facilities. In the number of the project – related studies, the special attention is turned to the increase in the extreme events count, particularly in winter. This observation is important due to the fact, that the decline of the sea ice and shore ice, which both protect the coasts from the wind waves, is also observed in this period. In the studies it was noted that the drift ice plays important role in the damping of the incoming waves. This type of ice is observed mainly in the spring, when the break-up of the sea ice in the Barents Sea occurs. Therefore, the ice’s protective function does not apply for the period of winter. The measured erosion rate for the coast is 1 m/a but it is linked to single, violent storm events. In other periods, the shore can be accreted with the sediment from other parts of the coast. Considering the main direction of the propagation of the wind waves in the North Atlantic, the northern coasts of the west coast of Spitsbergen are the most sensitive to the wave-induced erosion. This phenomenon has to be considered while planning the modernization of the Polish Polar Station. Despite all the effort in reinforcing the shore, the port building and the power generators’ fuel station are in danger. The fuel station is currently circa 10 m away from the winter berm, which is 2 times closer than 7 years ago. This erosion rate is expected to increase, but even when it will remain constant, the area is threatened by an ecological disaster, if the fuel station will not be moved. The initiated monitoring along with the published results of the project should be the starting point for further research including the preparation of the extension project to investigate the sea-ice-rich areas such as the eastern coasts of Spitsbergen.  Project financing institution: National Science Centre, Poland