三峡水库消落带土壤侵蚀与生态重建研究进展
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摘要
三峡水库消落带对库岸稳定性、入库泥沙和水库水质有重要意义,但土壤侵蚀等过程复杂,治理与保护难度大,缺乏高效简便的治理技术。作者基于水文资料、调查数据和长期野外土壤侵蚀观测数据,结合相关研究文献,分析三峡水库消落带土壤侵蚀现状及其时空分异规律,侵蚀模数高达9万4 887 t/(km2·a),比周围环境高出16倍,但土壤侵蚀强度在近年来减弱。研究影响消落带土壤侵蚀主要因素为波浪冲蚀。梳理陡坡固土挡护、坡面植生护坡、平缓坡地快速排水等土壤基质稳固与整治途径,概述抗旱耐淹且具护坡效应的乔灌草等适宜植物选育进展和品种组配模式,提出不同生态型植被的海拔分区配置模式,凝练自然恢复、景观植被生态恢复、分区固土护岸、生态湿地拦沙截污、季节性环境友好利用、生态渔业饲草种植等6种三峡水库土质消落带生态治理综合模式,并展望消落带急需开展的研究内容。
[Background]Compared to the riparian zones of unregulated rivers,the riparian zone of the Three Gorges Reservoir(TGR) experiences relatively longer-duration artificial flooding and with high dynamic morphological changes. Reservoir riparian zone represents a hydrogeomorphological and biogeochemical ecotone between aquatic and terrestrial ecosystems and have been well recognized as a key area for maintaining ecosystem goods and services. However,this zone is ecologically fragile due to issues caused by frequent water level fluctuations. Little knowledge of successful management of environmental problems related to reservoirs riparian zone is currently available. Furthermore,there is lack of low-cost,high-benefit and easy-to-implement management technology. [Methods]Soil erosion intensities along 12 transects in the reservoir riparian zone were continuously measured between 2008 and 2016 using erosion pins. The factors mainly influencing soil erosion were assessed using hydrological data,survey data,and long-term in situ soil erosion observation data. Based on authors' sci-tech achievements,combined with literatures, various ecological restoration technologies and site-specific modes were summarized.[Results]Soil erosion modulus on riparian-zone slope was up to 94 887 t/(km2·a),16 times on the counterpart of upland slope. Soil erosion intensity fortunately has been decreasing in recent years. The dominant driving force was wave erosion which was generated by wind and ship transportation,especially in mainstream riparian zone. The main measures for controlling soil erosion,stabilizing slope and restoring eco-system was to rebuild vegetation. Species selection for planting should be emphasized on the mechanisms attributing to adaptation of species to the extreme submergence stress,the growth recovery ability of species following release from submergence. In addition to focusing on improving the survival rate of plants and vegetation coverage,the effects of vegetation restoration on the bank stability,surface runoff regulation,sediment trapping,pollutant absorption,and plant diversity conservation should be considered. Six modes of ecological restoration at the TGR riparian zone were suggested: natural restoration,landscape vegetation ecological restoration,zonal soil consolidation and bank protection,ecological wetland,seasonal environment-friendly land utilization,and forage planting of ecological fishery. [Conclusions] The TGR riparian zone is a new geomorphological unit,and its structure and function are still unstable. Soil erosion,landscape changing and ecological degrading have been all remarkable during the study period. Long-term monitoring and studies are needed to figure out the landscape processes and the ecosystem evolution.
[Background]Compared to the riparian zones of unregulated rivers,the riparian zone of the Three Gorges Reservoir(TGR) experiences relatively longer-duration artificial flooding and with high dynamic morphological changes. Reservoir riparian zone represents a hydrogeomorphological and biogeochemical ecotone between aquatic and terrestrial ecosystems and have been well recognized as a key area for maintaining ecosystem goods and services. However,this zone is ecologically fragile due to issues caused by frequent water level fluctuations. Little knowledge of successful management of environmental problems related to reservoirs riparian zone is currently available. Furthermore,there is lack of low-cost,high-benefit and easy-to-implement management technology. [Methods]Soil erosion intensities along 12 transects in the reservoir riparian zone were continuously measured between 2008 and 2016 using erosion pins. The factors mainly influencing soil erosion were assessed using hydrological data,survey data,and long-term in situ soil erosion observation data. Based on authors' sci-tech achievements,combined with literatures, various ecological restoration technologies and site-specific modes were summarized.[Results]Soil erosion modulus on riparian-zone slope was up to 94 887 t/(km2·a),16 times on the counterpart of upland slope. Soil erosion intensity fortunately has been decreasing in recent years. The dominant driving force was wave erosion which was generated by wind and ship transportation,especially in mainstream riparian zone. The main measures for controlling soil erosion,stabilizing slope and restoring eco-system was to rebuild vegetation. Species selection for planting should be emphasized on the mechanisms attributing to adaptation of species to the extreme submergence stress,the growth recovery ability of species following release from submergence. In addition to focusing on improving the survival rate of plants and vegetation coverage,the effects of vegetation restoration on the bank stability,surface runoff regulation,sediment trapping,pollutant absorption,and plant diversity conservation should be considered. Six modes of ecological restoration at the TGR riparian zone were suggested: natural restoration,landscape vegetation ecological restoration,zonal soil consolidation and bank protection,ecological wetland,seasonal environment-friendly land utilization,and forage planting of ecological fishery. [Conclusions] The TGR riparian zone is a new geomorphological unit,and its structure and function are still unstable. Soil erosion,landscape changing and ecological degrading have been all remarkable during the study period. Long-term monitoring and studies are needed to figure out the landscape processes and the ecosystem evolution.
引文
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[2] FU Bojie,WU Bingfang,LYihe,et al. Three Gorges Project:Efforts and challenges for the environment[J].Progress in Physical Geography,2010,34(6):741.
[3] SU Xiaolei,NILSSON C,PILOTTO F,et al. Soil erosion and deposition in the new shorelines of the Three Gorges Reservoir[J]. Science of Total Environnent,2017(599/600):1485.
[4] BAO Yuhai,GAO Peng,HE Xiubin,et al. The waterlevel fluctuation zone of Three Gorges Reservoir:A unique geomorphological unit[J]. Earth-Science Reviews,2015(150):14.
[5] BAO Yuhai,HE Xiubin,WEN Anbang,et al. Dynamic changes of soil erosion in a typical disturbance zone of China's Three Gorges Reservoir[J]. Catena,2018(169):132.
[6]张虹.三峡库区消落带土地资源特征分析[J].水土保持通报,2008,28(1):47.ZHANG Hong. Characteristic analyses of the water-levelfluctuating zone in the Three Gorges Reservoir[J]. Bulletin of Soil and Water Conservation,2008,28(1):47.
[7]孙荣,袁兴中.三峡水库消落带湿地碳储量及空间格局特征[J].重庆师范大学学报(自然科学版),2012,29(3):77.SUN Rong,YUAN Xingzhong. The distribution of carbon storage in drawdown area of Three Gorges Reservoir[J].Journal of Chongqing Normal University(Natural Science),2012,29(3):77.
[8]周永娟,王效科,吴庆标,等.三峡库区消落带生态环境脆弱性与生态保护模式[M].北京:中国环境科学出版社,2010:36.ZHOU Yongjuan,WANG Xiaoke,WU Qingbiao,et al.Ecological vulnerability and protection in the drawdown area of the Three Gorges Reservoir[M]. Beijing:China Environmental Science Press,2010:36.
[9]汪涛.三峡库区土壤侵蚀遥感监测及其尺度效应[D].武汉:华中农业大学,2011:1.WANG Tao. Remote sensing monitoring and scale effect of soil erosion in the Three Gorges Reservoir area[D].Wuhan:Huazhong Agricultural University,2011:1.
[10]重庆市水利局.重庆市水土保持公报:2016年[R/OL].(2017-12-05)[2018-10-28]. http://www. cqwater. gov. cn/slsj/stbcgb/Pages/Default. aspx.Chongqing Water Resources Bureau. Chongqing municipal bulletin of soil and water conservation:2016[R/OL].(2017-12-05)[2018-10-28]. http://www. cqwater. gov. cn/slsj/stbcgb/Pages/Default. aspx.
[11] SHI Zhonglin,WEN Anbang,ZHANG Xinbao,et al.Comparison of the soil losses from 7Be measurements and the monitoring data by erosion pins and runoff plots in the Three Gorges Reservoir region,China[J]. Applied Radiation and Isotopes,2011,69(10):1347.
[12] BAO Yuhai,HE Xiubin,WEI Jie,et al. Soil erosion under different land uses in the riparian zone of the Three Gorges Reservoir,China[C]∥COLLINS A L,GOLOSOV V,HOROWITZ A J,et al. Erosion and sediment yields in the changing environment. Oxfordshire:IAHS Press,2012:200.
[13] BAO Yuhai,TANG Qiang,HE Xiubin,et al. Soil erosion in the riparian zone of the Three Gorges Reservoir,China[J]. Hydrology Research,2015,46(2):218.
[14]谭淑端,王勇,张全发.三峡水库消落带生态环境问题及综合防治[J].长江流域资源与环境,2008,17(增刊1):101.TAN Shurui,WANG Yong,ZHANG Quanfa. Environmental challenges and countermeasures of the water-level-fluctuation zone(WLFZ)of the Three Gorges Reservoir[J]. Resources and Environment in the Yangtze Basin,2008,17(Supp. 1):101.
[15]张爱英,熊高明,樊大勇,等.三峡水库蓄水对长江干流河岸植物组成的影响[J].长江流域资源与环境,2018,27(1):145.ZHANG Aiying,XIONG Gaoming,FAN Dayong,et al.Effects of three gorges dam on riparian vascular plants of the main stream of Yangtze river[J]. Resources and Environment in the Yangtze Basin,2018,27(1):145.
[16]卢志军,李连发,黄汉东,等.三峡水库蓄水对消涨带植被的初步影响[J].武汉植物学研究,2010,28(3):303.LU Zhijun,LI Lianfa,HUANG Handong,et al. Preliminary effects of impounding on vegetation in drawdown zone of the Three Gorges Reservoir region[J]. Journal of Wuhan Botanical Research,2010,28(3):303.
[17]李鹏.黄土区草地植被水土保持作用机理试验研究[D].陕西杨凌:西北农林科技大学,2003:95.LI Peng. Experimental studies on the functional mechanics of soil and water conservation of grassland vegetation in loess area[D]. Yangling,Shaanxi:Northwest SciTech University of Agriculture and Forestry,2003:95.
[18]常超,谢宗强,熊高明,等.三峡水库蓄水对消落带土壤理化性质的影响[J].自然资源学报,2011,26(7):1236.CHANG Chao,XIE Zongqiang,XIONG Gaoming,et al. The effect of flooding on soil physical and chemical properties of riparian zone in the Three Gorges Reservoir[J]. Journal of Natural Resources,2011,26(7):1236.
[19]吕发友,鲍玉海,贺秀斌,等.三峡水库消落带淹水:落干交替下紫色土力学特性变化模拟[J].水土保持学报,2017,31(3):79.LV Fayou,BAO Yuhai,HE Xiubin,et al. Simulation of the changes in purple soil mechanical properties in response to alternate submergence and exposure in the riparian zone of the Three Gorges Reservoir[J]. Journal of Soil and Water Conservation,2017,31(3):79.
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