Iceberg danger in the seas of the Russian Federation Arctic Zone under modern climate change conditions-Reference-Cited by-同舟云学术

Iceberg danger in the seas of the Russian Federation Arctic Zone under modern climate change conditions

Published:2024-03-31 Issue:1 Volume:70 Page:71-86
ISSN:2618-6713
Container-title:Arctic and Antarctic Research
language:
Short-container-title:Problemy Arktiki i Antarktiki

Author:

Bychkova I. A.¹^ORCID,Smirnov V. G.¹^ORCID,Mikhaltseva S. V.¹,Platonova E. V.¹^ORCID

Affiliation:

1. State Scientific Center of the Russian Federation Arctic and Antarctic Research Institute

Abstract

The aim of the research was to study the relationship between the intensity of iceberg formation in the Russian Arctic including the number of icebergs calving annually from outlet glaciers and surface air temperature anomalies. The research was carried out on the basis of satellite monitoring using non-commercial, freely distributed satellite information from optical-electronic satellites Landsat-8 (spatial resolution 15 m) and Sentinel-2 (spatial resolution 10 m) and the radar satellite Sentinel-1 (pixel size 20×40 m). To achieve the aim, an iceberg detection technique was used based on statistical criteria for searching for gradient zones in the analysis of two-dimensional fields of satellite images. Based on the analysis of satellite data of the visible spectral range of the Landsat-8 and Sentinel-2 satellites and Sentinel-1 radar data the maximum spatial dimensions of icebergs formed by the outlet glaciers of Severnaya Zemlya, Franz Josef Land (ZFI) and Novaya Zemlya in 2012–2022 were estimated. Satellite monitoring of the Severnaya Zemlya region was carried out using visible range images in the spring season (March–May), characterized by the best observation conditions in terms of cloudiness, natural light, and monitoring of icebergs most of which are located in fast ice at this time. Monitoring of the ZFI area was carried out using radar data in the period August-September, corresponding to the minimal ice cover conditions. Satellite monitoring of the Novaya Zemlya region was carried out using visible images in the summer season. In total, about 500 satellite images were analyzed. The discusses the dependence of the intensity of the iceberg formation process on the ice shelf and outlet glaciers with a floating edge on the surface air temperature and the maximum thickness of fast ice. It is shown that the abnormally warm weather that set in 2020 during the period of ice melting led to a sharp intensification of the process of glacier melting in the Russian Arctic and the formation of almost 8,000 icebergs near Severnaya Zemlya, more than 6,600 icebergs near ZFI and over 1,000 icebergs near the western coast of Novaya Zemlya. For all the areas of the Russian Arctic studied in the period 2012–2022 an increase was noted in the maximum observed sizes of icebergs calving from glaciers. The largest iceberg, whose length was 5 km, broke off in 2020 from the Matusevich ice shelf.

Publisher

FSBI Arctic and Antarctic Research Institute (FSBI AARI)

Reference14 articles.

1. Shaposhnikov V.M., Aleksandrov A.V., Matantsev R.A., Ivanovskaya O.D. Iceberg risk analysis for the Northern sea route: LNG carrier study case. Arctic: ecology and economy. 2017;(2):76–81. (In Russ.). https://doi.org/10.25283/2223-4594-2017-2-76-81

2. Filchuk K.V., Korobov V.B., Yulin A.V., Sheveleva N.V. Influence of climate changes on navigation and development of the continental shelf in the Russian Arctic seas. Russian Arctic. 2022;(17):21–33. (In Russ.). https://doi.org/10.24412/2658-4255-2022-2-21-33

3. Pavlova E.A., Alekseeva T.A., Mironov E.U., Smolyanitsky V.M. Specific features of iceberg distribution according to shipborne observations in the Kara Sea in 2004-2019. Russian Arctic. 2020;(10):30–36. (In Russ.). https://doi.org/10.24411/2658-4255-2020-12103

4. Abramov V. Atlas of Arctic icebergs: the Greenland, Barents, Kara, Laptev, East-Siberian and Chukchi seas and the Arctic basin. NJ, USA: Backbone Publishing company; 1996. 70 p.

5. MAIRES. Monitoring Arctic Land and Sea Ice using Russian and European Satellites. Seventh Framework Programme FP7-SPACE-2010-1. EU-Russia Cooperation in GMES (SICA). Grant agreement no. 263165. D5.1: Iceberg map from satellite data. 2014. 18 p.