Features of the joint use of visible-range satellite and satellite radar data for monitoring arctic icebergs based on data from Franz Josef Land area

IF 1.6 4区 地球科学 Q4 ENVIRONMENTAL SCIENCES Arctic, Antarctic, and Alpine Research Pub Date : 2023-07-12 DOI:10.30758/0555-2648-2023-69-2-191-205
I. Bychkova, E. Platonova, V. Smirnov
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Abstract

Given the availability of data, in order to monitor icebergs in the vast Arctic region, it is necessary to ensure an optimal ratio of the satellite radar data cost (with a wide swath and high spatial resolution) and the reliability of the results obtained. The aim of the study was to evaluate the effectiveness of using only non-commercial satellite information for monitoring icebergs. To achieve this goal, an iceberg detection technique was applied based on statistical criteria of searching for gradient zones in analyzing two-dimensional fields of satellite images. As a source of information, we used high spatial resolution satellite data obtained from non – commercial satellites Sentinel-1 (radar data) and Landsat-8 (visible spectral range data) with a pixel size of 40 × 20 and 15 m, respectively.Through comparison with the data of the visible spectral range of ultra-high resolution, the error was estimated of measuring the size of icebergs using the visible range equipment of the Landsat-8 satellite and the radar of the Sentinel-1 satellite. Based on the analysis of satellite data of the visible spectral range and radar data, the spatial dimensions of icebergs formed by the outlet glaciers of Franz Josef Land n 2020–2022 were estimated. The materials were collected for the period August-September, corresponding to the conditions of minimum ice extent in the Franz Josef Land area and sufficient natural illumination for using the data of the visible spectral range in the Arctic. In total, about 100 satellite images were analyzed. The sources of error in the satellite measurements are discussed, as well as the reasons for the impossibility in some cases to identify Franz Josef Land icebergs on radar images. It is shown that the largest contribution to the iceberg runoff of Franz Josef Land is made by outflow glaciers located on Georg Land, Wilczek Land, Gall, Salisbury and Champa islands. According to the results of the study, it is concluded that radar data with a pixel size of 40 m allow one to obtain essentially reliable information on the spatial distribution of icebergs in the water area. However, it is not possible to obtain a reliable function of the distribution of icebergs by size since most of the icebergs in the Franz Josef Land water area have small and medium sizes and are rarely identified in images of such spatial resolution.
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基于弗朗茨约瑟夫地地区数据联合使用可见光卫星和卫星雷达数据监测北极冰山的特点
考虑到数据的可获得性,为了监测广阔的北极地区的冰山,有必要确保卫星雷达数据成本的最佳比例(具有宽幅和高空间分辨率)和获得的结果的可靠性。这项研究的目的是评估仅使用非商业卫星信息监测冰山的有效性。为了实现这一目标,在分析卫星图像二维场时,采用了基于梯度带搜索统计准则的冰山探测技术。作为信息来源,我们使用非商用卫星Sentinel-1(雷达数据)和Landsat-8(可见光谱距离数据)获得的高空间分辨率卫星数据,像素尺寸分别为40 × 20和15 m。通过与超高分辨率可见光波段数据的对比,估计了利用Landsat-8卫星可见光波段设备和Sentinel-1卫星雷达测量冰山尺寸的误差。基于可见光波段卫星数据和雷达数据的分析,估算了Franz Josef Land出口冰川在2020-2022年形成的冰山的空间维度。资料收集的时间为8 - 9月,对应于Franz Josef Land地区最小冰面积和充足自然光照的条件,可以使用北极可见光谱范围的数据。总共分析了大约100张卫星图像。讨论了卫星测量误差的来源,以及在某些情况下无法在雷达图像上识别弗朗茨约瑟夫岛冰山的原因。研究表明,弗朗茨约瑟夫地冰山径流的最大贡献是位于乔治岛、威尔切克岛、加尔岛、索尔兹伯里岛和昌帕岛的流出冰川。根据研究结果,得出的结论是,40 m像元大小的雷达数据可以获得有关该水域冰山空间分布的基本可靠信息。然而,由于Franz Josef Land水域的冰山大多数都是中小型冰山,在这种空间分辨率的图像中很少被识别出来,因此无法通过尺寸获得可靠的冰山分布函数。
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来源期刊
CiteScore
3.00
自引率
5.00%
发文量
37
审稿时长
7 months
期刊介绍: The mission of Arctic, Antarctic, and Alpine Research (AAAR) is to advance understanding of cold region environments by publishing original scientific research from past, present and future high-latitude and mountain regions. Rapid environmental change occurring in cold regions today highlights the global importance of this research. AAAR publishes peer-reviewed interdisciplinary papers including original research papers, short communications and review articles. Many of these papers synthesize a variety of disciplines including ecology, climatology, geomorphology, glaciology, hydrology, paleoceanography, biogeochemistry, and social science. Papers may be uni- or multidisciplinary but should have interdisciplinary appeal. Special thematic issues and proceedings are encouraged. The journal receives contributions from a diverse group of international authors from academia, government agencies, and land managers. In addition the journal publishes opinion pieces, book reviews and in memoria. AAAR is associated with the Institute of Arctic and Alpine Research (INSTAAR) the oldest active research institute at the University of Colorado Boulder.
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