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评估煤火区的土地覆盖变化和地面沉降:来自多源监测的见解

Evaluating land-cover change and land subsidence in coal fire zones: Insights from multi-source monitoring.

作者信息

Xie Desheng, Zeng Fantao, Liu Baozhu, Fang Quan, Dong Yongwei, Wu He, Liu Peng, Wang Ke, Li Gensheng

机构信息

The 9th Geological Brigade, Xinjiang Geological and Mineral Exploration and Development Bureau, Urumqi, China.

Xinjiang Urban Construction (Group) Co., Ltd., Urumqi, China.

出版信息

PLoS One. 2025 May 28;20(5):e0322284. doi: 10.1371/journal.pone.0322284. eCollection 2025.

DOI:10.1371/journal.pone.0322284
PMID:40435205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12118845/
Abstract

Coal fires are a significant environmental and geological threat, causing extensive ecological damage and loss of resources. Existing monitoring methods, though effective, have limitations in terms of precision and adaptability. This study integrates multiple monitoring techniques, including remote sensing, thermal infrared imaging, UAV based surveys, and field investigations, to assess the environmental and geological consequences of coal fires. The results indicate that: 1) Vegetation cover in the affected regions decreased from 0.43 to 0.38 between 2017 and 2024, with Fire Zone 1 showing minimal recovery and Fire Zone 3 exhibiting moderate improvement, though the overall low vegetation area expanded due to ongoing fires; 2) The Remote Sensing Ecological Index (RSEI) declined from 0.41 to 0.38, with poor-rated areas increasing significantly, particularly in Fire Zone 3, reflecting the ongoing degradation of ecological conditions caused by both fire activity and climate factors; 3) The Flat Spectral Shape Index (FSSI) showed stability, but fluctuations in the areas with moderate and high probability of exposed coal, especially in Fire Zone 3, pointed to the expanding fire footprint and worsening ecological degradation; 4) Surface subsidence varied considerably, with Fire Zone 3 experiencing the most severe subsidence, indicating unstable geological conditions exacerbated by fire activity. The study underscores the importance of continuous monitoring and effective disaster risk management strategies. Despite localized improvements in soil potassium levels, coal fires have caused significant declines in soil nutrients and moisture content. This research contributes to the development of more effective strategies for managing coal fire impacts and supporting ecological restoration efforts in affected regions.

摘要

煤火是一种重大的环境和地质威胁,会造成广泛的生态破坏和资源损失。现有的监测方法虽然有效,但在精度和适应性方面存在局限性。本研究整合了多种监测技术,包括遥感、热红外成像、无人机调查和实地调查,以评估煤火造成的环境和地质后果。结果表明:1)2017年至2024年期间,受影响地区的植被覆盖率从0.43降至0.38,1号火区恢复最少,3号火区有适度改善,但由于持续燃烧,整体低植被面积有所扩大;2)遥感生态指数(RSEI)从0.41降至0.38,评级较差的区域显著增加,尤其是在3号火区,这反映了火灾活动和气候因素共同导致的生态状况持续退化;3)平坦光谱形状指数(FSSI)显示稳定,但暴露煤炭可能性中等和高的区域存在波动,特别是在3号火区,这表明火区范围在扩大,生态退化加剧;4)地表沉降差异很大,3号火区沉降最为严重,表明火灾活动加剧了地质条件的不稳定。该研究强调了持续监测和有效灾害风险管理策略的重要性。尽管土壤钾含量有局部改善,但煤火已导致土壤养分和水分含量大幅下降。本研究有助于制定更有效的策略来管理煤火影响,并支持受影响地区的生态恢复工作。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1cdd/12118845/36353430a0d2/pone.0322284.g010.jpg
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