Towards more consistent volcano morphometry datasets: Assessing boundary delineation and DEM impact on geometric and drainage parameters

IF 3.1 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Roos M.J. van Wees , Daniel O'Hara , Gabor Kereszturi , Pablo Grosse , Pierre Lahitte , Pierre-Yves Tournigand , Matthieu Kervyn
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引用次数: 0

Abstract

Composite volcanoes are dynamic landforms that require comprehensive morphological analysis to understand their formation, degradation and associated controlling processes. Establishing Digital Elevation Model (DEM) source, spatial resolution and edifice delineation method are the first essential steps to quantify volcano morphometry. The delineation and quantification of the morphology is a complex endeavor as a volcano’s edifice is the result of overlapping eruptive products, intrusions, and degradation by a range of erosional processes and thus needs to be assessed in different volcanic environments.

In this study, sixteen volcanoes from four volcanic arcs are used to quantify and compare twelve different geometric and drainage parameters. We first perform an edifice delineation analysis where we compare the similarity of volcano boundaries drawn by seven volcano geomorphology experts. Afterwards, a second set of boundaries is drawn based on a slope threshold to guide the delineation between boundaries, which proves beneficial in enhancing consistency between expert-driven manual delineation. For the same volcanoes, we also extract automatic delineation algorithm-derived NETVOLC boundaries to complement the comparison. Afterwards, a comparative analysis of morphologic parameters is conducted for four free and globally available 30-m-resolution DEMs: ALOS (AW3D30), SRTM (SRTMGL1), ASTER (GDEM 003) and TanDEM-X. The impact of resolution is also assessed using the 12 m and 30 m grid TanDEM-X DEMs on the same parameters.

Our results show that precise and consistent delineation of the volcanic edifice boundaries, and to a lesser degree the resolution of the DEM, holds greater significance than the specific DEM type used to extract morphometric parameters. The slope cost function of NETVOLC shows the lowest deviation from the expert-defined boundaries. The metrics most sensitive to the defined boundary are volumes and basin width, and the parameters that significantly differ between 12 m and 30 m TanDEM-X are irregularity index, eroded volume, slope and drainage density. Our analysis thus emphasizes the necessity of meticulous consideration when selecting the DEM, and more importantly, adopting a consistent approach to delineating edifice boundaries in comparative morphometric analyses of volcanoes.

实现更一致的火山形态测量数据集:评估边界划分和 DEM 对几何和排水参数的影响
复合火山是一种动态地貌,需要进行全面的形态分析,以了解其形成、退化和相关控制过程。确定数字高程模型(DEM)来源、空间分辨率和火山口划分方法是量化火山形态的第一步。火山形态的划分和量化是一项复杂的工作,因为火山的火山口是喷发产物、侵入物和一系列侵蚀过程造成的退化重叠的结果,因此需要在不同的火山环境中进行评估。在这项研究中,来自四个火山弧的十六座火山被用来量化和比较十二个不同的几何和排水参数。我们首先对七位火山地貌专家绘制的火山边界进行了相似性比较,然后进行了第二组边界分析。随后,我们根据坡度阈值绘制了第二组边界,以指导边界之间的划分,事实证明这有利于提高专家手工划分的一致性。对于相同的火山,我们还提取了自动划分算法得出的 NETVOLC 边界,作为对比的补充。随后,我们对四种全球可用的免费 30 米分辨率 DEM 进行了形态参数比较分析:ALOS(AW3D30)、SRTM(SRTMGL1)、ASTER(GDEM 003)和 TanDEM-X。我们的结果表明,与用于提取形态测量参数的特定 DEM 类型相比,精确一致地划定火山大厦边界以及较低程度的 DEM 分辨率具有更重要的意义。NETVOLC 的斜率成本函数与专家定义的边界偏差最小。对定义边界最敏感的指标是体积和盆地宽度,而在 12 米和 30 米的 TanDEM-X 之间存在显著差异的参数是不规则指数、侵蚀体积、坡度和排水密度。因此,我们的分析强调了在选择 DEM 时进行细致考虑的必要性,更重要的是,在火山形态计量对比分析中采用一致的方法来划定火山口边界。
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
Geomorphology
Geomorphology 地学-地球科学综合
CiteScore
8.00
自引率
10.30%
发文量
309
审稿时长
3.4 months
期刊介绍: Our journal''s scope includes geomorphic themes of: tectonics and regional structure; glacial processes and landforms; fluvial sequences, Quaternary environmental change and dating; fluvial processes and landforms; mass movement, slopes and periglacial processes; hillslopes and soil erosion; weathering, karst and soils; aeolian processes and landforms, coastal dunes and arid environments; coastal and marine processes, estuaries and lakes; modelling, theoretical and quantitative geomorphology; DEM, GIS and remote sensing methods and applications; hazards, applied and planetary geomorphology; and volcanics.
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