Dataset compilation by GRASS GIS for thematic mapping of Antarctica: Topographic surface, ice thickness, subglacial bed elevation and sediment thickness

IF 0.5 Q4 ECOLOGY
Polina Lemenkova
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引用次数: 8

Abstract

This paper presents the GRASS GIS-based thematic mapping of Antarctica using scripting approach and associated datasets on topography and geophysics. The state-of-the art in cartographic development points at two important aspects. The first one comprises shell scripting promoted repeatability of the GIS technique, increased automatization in cartographic workflow, and compatibility of GRASS with Python, PROJ and GDAL libraries which enables advanced geospatial data processing: converting formats, re-projecting and spatial analysis. The second aspect is that data visualization greatly influences geologic research through improving the interpretation between the Antarctic glaciation and surface. This includes the machine learning algorithms of image classification enabling to distinguish between glacier and non-glacier surfaces through automatically partitioning data and analysis of various types of surfaces. Presented detailed maps of Antarctic include visualized datasets from the ETOPO1, GlobSed, EGM96 and Bedmap2 projects. The grids include bed and surface elevation, ETOPO1-based bathymetry and topography, bed, ice and sediment thickness, grounded bed uncertainty, subglacial bed elevation, geoid undulations, ice mask grounded and shelves. Data show the distribution of the present-day glacier, geophysical fields and topographic landforms for analysis of processes and correlations between the geophysical and geological phenomena. Advances in scripting cartography are significant contributions to the geological and glaciological research. Processing high-resolution datasets of Southern Ocean retrieved by remote sensing methods present new steps in automatization of the digital mapping, as presented in this research, and promotes comprehensive monitoring of geological, permafrost and glacial processes in Antarctica. All maps have been plotted using GRASS GIS version 7.8. with technical details of scripts described and interpreted.
基于GRASS GIS的南极洲专题制图数据集编制:地形面、冰厚、冰下床高程和沉积物厚度
本文介绍了基于GRASS地理信息系统的南极专题制图,使用脚本方法和相关的地形和地球物理数据集。制图发展的最新技术集中在两个重要方面。第一个包括shell脚本,提高了GIS技术的可重复性,提高了制图工作流程的自动化,以及GRASS与Python、PROJ和GDAL库的兼容性,从而实现了高级地理空间数据处理:转换格式、重新投影和空间分析。第二方面,数据可视化通过改进南极冰川作用和地表之间的解释,极大地影响了地质研究。这包括图像分类的机器学习算法,该算法能够通过自动划分数据和分析各种类型的表面来区分冰川表面和非冰川表面。介绍的南极详细地图包括ETOPO1、GlobSed、EGM96和Bedmap2项目的可视化数据集。网格包括海床和地表高程、基于ETOPO1的测深和地形、海床、冰和沉积物厚度、搁浅海床的不确定性、冰下海床高程、大地水准面起伏、冰罩搁浅和陆架。数据显示了当今冰川的分布、地球物理场和地形地貌,用于分析地球物理和地质现象之间的过程和相关性。脚本制图学的进步是对地质和冰川学研究的重要贡献。通过遥感方法处理南大洋的高分辨率数据集,为本研究中提出的数字测绘自动化迈出了新的步伐,并促进了对南极洲地质、永久冻土和冰川过程的全面监测。所有地图均使用GRASS GIS 7.8版绘制。描述和解释了脚本的技术细节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Czech Polar Reports
Czech Polar Reports Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.30
自引率
10.00%
发文量
22
期刊介绍: Czech Polar Reports is an international, multidisciplinary, peer-reviewed journal. It is issued 2 times a year. The journal is dedicated to provide original research papers for sciences related to the polar regions and other planets with polar analogues. Czech Polar Reports covers the disciplines listed below. polar paleontology, geology, geochemistry, geomorphology, glaciology, climatology, hydrology, pedology, biochemistry, ecology, environmental science, microbiology, plant and animal biology including marine biology.
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