Vegetation restoration and dynamic evolution analysis of landslide activity in the Wenchuan Earthquake area
-
摘要:
强烈的山区地震往往会引发大量同震滑坡,对当地植被覆盖和生长造成直接破坏。作为表现滑坡活动强度的重要指标,同震滑坡体表面的植被恢复情况对评估震后地质灾害的活动情况具有重要意义。然而,受观测资料所限,当前对于震区植被恢复进程的研究多为小尺度范围,而对大区域内植被演化机制以及植被与地质灾害活动性的关系认识不足。因此,采用多时相、长时序(2000—2020年)的高精度遥感影像对汶川地震强震区大范围内的植被恢复过程进行研究,计算得到不同时期植被恢复率,以此探究大范围内植被恢复的普适性规律,同时分析植被恢复与滑坡活动强度变化的关系。研究发现:截至2020年,71.34%区域的同震滑坡表面植被已处于恢复程度较好阶段;高活动强度、中活动强度、低活动强度和基本稳定的滑坡面积比分别为17.6%、12.4%、17.7%和52.3%。同震滑坡地表恢复趋势表明,汶川震区植被预计在震后约17 a恢复至震前平均水平。然而,植被恢复过程和滑坡活动性的变化往往受多种因素的综合影响。虽然滑坡地表植被恢复在一定程度上反映了地震后滑坡活动性的下降,但地震对滑坡活动性的影响将比地表植被恢复到震前水平所持续的时间更长。参考前人研究成果,本研究认为震后滑坡活动将持续25 a或更长时间。研究成果可为汶川震区震后地质灾害评估、防治工作提供参考。
Abstract:A great mountain seismic often triggers a large number of co-seismic landslides, causing direct damage to local vegetation cover and growth. As an important indicator of landslide activity intensity, the vegetation recovery is of great significance for the activity of post-earthquake geo-hazards. However, due to the limitation of observational data, the current research on vegetation restoration process in earthquake areas is mostly on a small scale. In addition, there is insufficient understanding of the vegetation evolution mechanism in a large area and the relationship between vegetation and the activity of geological disasters. Therefore, this paper uses multi-temporal and long-time series (2000−2020) high-precision remote sensing images to study the vegetation restoration process in the Wenchuan earthquake area. By calculating vegetation recovery rates in different periods, we explore the universal law of vegetation restoration in a large range, and analyze the relationship between vegetation restoration and the change of landslide activity intensity. The results show that by 2020, 71.34% of the landslide area in the earthquake area has been better restored. The proportions of highly active, moderately active, low active and basically stable landslides are 17.6%, 12.4%, 17.7% and 52.3%, respectively. The surface recovery trend of co-seismic landslide indicates that the vegetation in the Wenchuan earthquake area is expected to recover to the pre-earthquake average level about 17 years after the earthquake. However, the process of vegetation recovery and changes in landslide activity are often subject to the combined effects of multiple factors. Although the vegetation recovery of landslide surface reflects the decline of landslide activity after the earthquake to some extent, the effects of the earthquake on landslide activity will last longer than the recovery of surface vegetation to the pre-earthquake level. Referring to the results of previous studies, this paper suggests that the post-earthquake landslide activity will last 25 years or more.The conclusion can provide reference for the assessment and prevention of post earthquake geological disasters in Wenchuan earthquake area.
-
Key words:
- Wenchuan earthquake /
- co-seismic landslide /
- vegetation restoration /
- landslide activity
-
-
表 1 基础数据来源统计
Table 1. Statistic of the basic data source
类型 数据来源 收集时间 分辨率 用途 遥感影像 Landsat5 2000—2010年 30 m 提取NDVI Landsat7 2011—2013年 Landsat8 2014—2020年 同震滑坡数据集 Tang等[21] 2009年3月 — 研究对象 地形数据 https://earthdata.nasa.gov/ — 30 m 因子分析 降雨 https://giovanni.gsfc.nasa.gov/giovanni/ 2008—2019年 0.25° 岩性 成都理工大学地质灾害防治与地质环境保护国家重点实验室 — — 
下载: 导出CSV
-
[1] 王涛,刘甲美,栗泽桐,等. 中国地震滑坡危险性评估及其对国土空间规划的影响研究[J]. 中国地质,2021,48(1):21 − 39. [WANG Tao,LIU Jiamei,LI Zetong,et al. Seismic landslide hazard assessment of China and its impact on national territory spatial planning[J]. Geology in China,2021,48(1):21 − 39. (in Chinese with English abstract) doi: 10.12029/gc20210102
[2] 铁永波,张宪政,卢佳燕,等. 四川省泸定县Ms6.8级地震地质灾害发育规律与减灾对策[J]. 水文地质工程地质,2022,49(6):1 − 12. [TIE Yongbo,ZHANG Xianzheng,LU Jiayan,et al. Characteristics of geological hazards and it’s mitigations of the Ms6.8 earthquake in Luding County,Sichuan Province[J]. Hydrogeology & Engineering Geology,2022,49(6):1 − 12. (in Chinese with English abstract)
[3] 白永健,倪化勇,葛华. 青藏高原东南缘活动断裂地质灾害效应研究现状[J]. 地质力学学报,2019,25(6):1116 − 1128. [BAI Yongjian,NI Huayong,GE Hua. Advances in research on the geohazard effect of active faults on the southeastern margin of the Tibetan Plateau[J]. Journal of Geomechanics,2019,25(6):1116 − 1128. (in Chinese with English abstract) doi: 10.12090/j.issn.1006-6616.2019.25.06.095
[4] 张佳佳,李海兵,赵国华,等. 2013年四川芦山地震次生山地灾害发育规律[J]. 地质通报,2015,34(5):898 − 907. [ZHANG Jiajia,LI Haibing,ZHAO Guohua,et al. Features of secondary mountain hazards triggered by the 2013 Lushan Earthquake,Sichuan Province[J]. Geological Bulletin of China,2015,34(5):898 − 907. (in Chinese with English abstract) doi: 10.3969/j.issn.1671-2552.2015.05.010
[5] XU Chong,XU Xiwei,YAO Xin,et al. Three (nearly) complete inventories of landslides triggered by the May 12,2008 Wenchuan Mw 7.9 earthquake of China and their spatial distribution statistical analysis[J]. Landslides,2014,11(3):441 − 461. doi: 10.1007/s10346-013-0404-6
[6] 唐川,李为乐,丁军,等. 汶川震区映秀镇“8·14”特大泥石流灾害调查[J]. 地球科学,2011,36(1):172 − 180. [TANG Chuan,LI Weile,DING Jun,et al. Field investigation and research on giant debris flow on August 14,2010 in Yingxiu Town,epicenter of Wenchuan earthquake[J]. Earth Science,2011,36(1):172 − 180. (in Chinese with English abstract)
[7] 李明威,唐川,陈明,等. 汶川震区北川县泥石流流域崩滑体时空演变特征[J]. 水文地质工程地质,2020,47(3):182 − 190. [LI Mingwei,TANG Chuan,CHEN Ming,et al. Spatio-temporal evolution characteristics of landslides in debris flow catchment in Beichuan County in the Wenchuan earthquake zone[J]. Hydrogeology & Engineering Geology,2020,47(3):182 − 190. (in Chinese with English abstract)
[8] 杨琴,范宣梅,许强,等. 北川唐家湾滑坡变形历史与形成机制研究[J]. 水文地质工程地质,2018,45(2):136 − 141. [YANG Qin,FAN Xuanmei,XU Qiang,et al. A study of the deformation history and mechanism of the Tangjiawan landslide[J]. Hydrogeology & Engineering Geology,2018,45(2):136 − 141. (in Chinese with English abstract)
[9] 王东伟,游勇,李道凌,等. 汶川县绵虒镇板子沟“8·20”大型泥石流堵河特征及危害性预测[J]. 中国地质灾害与防治学报,2022,33(1):58 − 66. [WANG Dongwei,YOU Yong,LI Daoling,et al. The river blockage characteristics of “8·20” large-scale debris flow and the hazard prediction in Banzi gully in Miansi Town,Wenchuan County[J]. The Chinese Journal of Geological Hazard and Control,2022,33(1):58 − 66. (in Chinese with English abstract)
[10] SHEN P,ZHANG L M,FAN R L,et al. Declining geohazard activity with vegetation recovery during first ten years after the 2008 Wenchuan earthquake[J]. Geomorphology,2020,352:106989. doi: 10.1016/j.geomorph.2019.106989
[11] LIN Chaoyuan,LO Huangmu,CHOU Wenchieh,et al. Vegetation recovery assessment at the jou-jou mountain landslide area caused by the 921 earthquake in Central Taiwan[J]. Ecological Modelling,2004,176(1/2):75 − 81.
[12] YANG Chiming, CHEN Janchang,PENG Lanlin,et al. Chi-Chi earthquake-caused landslide:Grey prediction model for pioneer vegetation recovery monitored by satellite images[J]. Botanical Bulletin of Academia Sinica,2002,43(1):69 − 75.
[13] YANG Wentao,QI Wenwen,ZHOU Jinxing. Decreased post-seismic landslides linked to vegetation recovery after the 2008 Wenchuan earthquake[J]. Ecological Indicators,2018,89:438 − 444. doi: 10.1016/j.ecolind.2017.12.006
[14] YUNUS A P,FAN Xuanmei,TANG Xiaolu,et al. Decadal vegetation succession from modis reveals the spatio-temporal evolution of post-seismic landsliding after the 2008 Wenchuan earthquake[J]. Remote Sensing of Environment,2020,236:111476. doi: 10.1016/j.rse.2019.111476
[15] TANG C,VAN WESTEN C J,TANYAS H,et al. Analysing post-earthquake landslide activity using multi-temporal landslide inventories near the Epicentral area of the 2008 Wenchuan earthquake[J]. Natural Hazards and Earth System Sciences,2016,16(12):2641 − 2655. doi: 10.5194/nhess-16-2641-2016
[16] NI Zhongyun,YANG Zhenyu,LI Weile,et al. Decreasing trend of geohazards induced by the 2008 Wenchuan earthquake inferred from time series NDVI data[J]. Remote Sens,2019,11:2192. doi: 10.3390/rs11192192
[17] 唐川. 汶川地震区暴雨滑坡泥石流活动趋势预测[J]. 山地学报,2010,28(3):341 − 349. [TANG Chuan. Activity tendency prediction of rainfall induced landslides and debris flows in the Wenchuan earthquake areas[J]. Journal of Mountain Science,2010,28(3):341 − 349. (in Chinese with English abstract) doi: 10.3969/j.issn.1008-2786.2010.03.012
[18] 龙玉洁,李为乐,黄润秋,等. 汶川地震震后10 a绵远河流域滑坡遥感自动提取与演化趋势分析[J]. 武汉大学学报(信息科学版),2020,45(11):1792 − 1800. [LONG Yujie,LI Weile,HUANG Runqiu,et al. Automatic extraction and evolution trend analysis of landslides in Mianyuan River basin in the 10 years after Wenchuan earthquake[J]. Geomatics and Information Science of Wuhan University,2020,45(11):1792 − 1800. (in Chinese with English abstract)
[19] 孟秋,高宽,陈启志,等. 2008年汶川大地震孕震、同震及震后变形和应力演化全过程的数值模拟[J]. 地质力学学报,2021,27(4):614 − 627. [MENG Qiu,GAO Kuan,CHEN Qizhi,et al. Seismogenic,coseismic and postseismic deformation and stress evolution of the 2008 Wenchuan earthquake:Numerical simulation analysis[J]. Journal of Geomechanics,2021,27(4):614 − 627. (in Chinese with English abstract) doi: 10.12090/j.issn.1006-6616.2021.27.04.051
[20] 李甜甜. 汶川地震极重灾区生态恢复研究[D]. 湘潭: 湖南科技大学, 2012
LI Tiantian. The ecological restoration eesearch of the severest disaster area of Wenchuan earthquake[D]. Xiangtan: Hunan University of Science and Technology, 2012. (in Chinese with English abstract)
[21] TANG Chuan, VAN WESTEN C J. Atlas of Wenchuan-earthquake geohazards: Analysis of co-seismic and post-seismic geohazards in the area affected by the 2008 Wenchuan earthquake[M]. Beijing: Science Press, 2018.
[22] LIN Wentzu,CHOU Wenchieh,LIN Chaoyuan,et al. Vegetation recovery monitoring and assessment at landslides caused by earthquake in Central Taiwan[J]. Forest Ecology and Management,2005,210(1/2/3):55 − 66.
[23] XU Chong,XU Xiwei,SHEN Lingling,et al. Optimized volume models of earthquake-triggered landslides[J]. Scientific Reports,2016,6:29797. doi: 10.1038/srep29797
[24] XIONG Jiang,TANG Chuan,GONG Lingfeng,et al. How landslide sediments are transferred out of an alpine basin:Evidence from the epicentre of the Wenchuan earthquake[J]. CATENA,2022,208:105781. doi: 10.1016/j.catena.2021.105781
[25] CHEN Ming,TANG Chuan,XIONG Jiang,et al. The long-term evolution of landslide activity near the epicentral area of the 2008 Wenchuan earthquake in China[J]. Geomorphology,2020,367:107317. doi: 10.1016/j.geomorph.2020.107317
[26] HUANG Runqiu,LI Weile. Post-earthquake landsliding and long-term impacts in the Wenchuan earthquake area,China[J]. Engineering Geology,2014,182:111 − 120. doi: 10.1016/j.enggeo.2014.07.008
[27] LIN Wentzu,LIN Chaoyuan,CHOU Wenchieh. Assessment of vegetation recovery and soil erosion at landslides caused by a catastrophic earthquake:A case study in Central Taiwan[J]. Ecological Engineering,2006,28(1):79 − 89. doi: 10.1016/j.ecoleng.2006.04.005
[28] SHOU K J,WU C C,FEI L Y,et al. Dynamic environment in the Ta-Chia river watershed after the 1999 Taiwan Chi-Chi earthquake[J]. Geomorphology,2011,133(3/4):190 − 198.
[29] SABA S B,VAN DER MEIJDE M,VAN DER WERFF H. Spatiotemporal landslide detection for the 2005 Kashmir earthquake region[J]. Geomorphology,2010,124(1/2):17 − 25.
[30] TIAN Yingying, OWEN L A, XU Chong, et al. Landslide development within 3 years after the 2015 Mw 7.8 Gorkha earthquake, Nepal[J]. Landslides, 2020, 17(5): 1251-1267.
-
图(12)
表(1)
计量
- 文章访问数: 1419
- PDF下载数: 33
- 施引文献: 0