Rock glaciers as proxy for machine learning based debris-covered glacier mapping of Kinnaur District, Himachal Pradesh

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL Earth Surface Processes and Landforms Pub Date : 2024-06-19 DOI:10.1002/esp.5888
Ipshita Priyadarsini Pradhan, Kirti Kumar Mahanta, Nishant Tiwari, Dericks Praise Shukla
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Abstract

This research introduces an innovative approach by utilising rock glaciers (RGs) as a proxy for mapping debris-covered glaciers (DCGs). This approach focuses on the interconnected nature of glaciers, DCGs and RGs in a continuum where DCGs can transform into RGs over time due to various processes. This study utilises six machine learning models—logistic regression (LR), support vector machine (SVM), K-nearest neighbour (KNN), Naïve Bayes (NB), decision tree (DT) and random forest (RF)—combined with multispectral satellite data (Sentinel-2 and Landsat 8) and topographical data derived from ALOS PALSAR DEM. Performance metrics such as accuracy, area under the curve (AUC) score, precision, recall and F1-score were evaluated to assess model performance. This detailed mapping provides a precise estimation of the extent of DCGs in the Kinnaur district. The estimated DCG areas revealed intriguing variation across models, with RF (9.71%), KNN (9.67%) and NB (9.41%) yielding similar predictions. SVM (11.61%) projected a slightly larger DCG area, whereas DT (5.54%) and LR (25.55%) provided contrasting results. Validation against high-resolution satellite images, Google Earth images and glacier inventories confirmed the accuracy and reliability of our approach. Based on our findings for our specific study, the most effective method for mapping DCGs is RF, followed by KNN, NB, DT and SVM. The combination of machine learning models and RG data presents a novel and promising approach to remote sensing-based DCG mapping, with potential applications for other regions and broader environmental studies.

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基于机器学习的喜马偕尔邦金瑙尔地区碎屑覆盖冰川绘图以岩石冰川为代表
这项研究引入了一种创新方法,利用岩石冰川(RGs)作为绘制碎屑覆盖冰川(DCGs)的替代物。这种方法侧重于冰川、DCGs 和 RGs 之间的相互联系,DCGs 可以随着时间的推移在各种过程中转变为 RGs。本研究利用六种机器学习模型--逻辑回归(LR)、支持向量机(SVM)、K-近邻(KNN)、奈夫贝叶斯(NB)、决策树(DT)和随机森林(RF)--结合多光谱卫星数据(哨兵-2 号和大地遥感卫星 8 号)和 ALOS PALSAR DEM 得出的地形数据。为评估模型性能,对准确度、曲线下面积(AUC)得分、精确度、召回率和 F1 分数等性能指标进行了评估。这份详细的地图提供了对金瑙尔地区 DCG 范围的精确估算。对 DCG 面积的估算显示出不同模型之间的差异,RF(9.71%)、KNN(9.67%)和 NB(9.41%)的预测结果相似。SVM(11.61%)预测的 DCG 面积稍大,而 DT(5.54%)和 LR(25.55%)的结果则截然不同。根据高分辨率卫星图像、谷歌地球图像和冰川清单进行的验证证实了我们方法的准确性和可靠性。根据我们的具体研究结果,绘制 DCG 最有效的方法是 RF,其次是 KNN、NB、DT 和 SVM。机器学习模型与 RG 数据的结合为基于遥感的 DCG 测绘提供了一种新颖而有前景的方法,有望应用于其他地区和更广泛的环境研究。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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