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长江经济带生态修复示范关键技术及其应用

文章导航 > 中国地质 > 2021 > 48(5): 1305-1333

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姜月华, 倪化勇, 周权平, 程知言, 段学军, 朱志敏, 吴吉春, 任海彦, 范晨子, 杨晋炜, 陈超, 胡建, 王晓龙, 姜夏烨, 刘永兵, 杨海, 郭威, 冯乃琦, 魏广庆, 金阳, 杨辉, 刘林, 梅世嘉, 张鸿, 陈澎军, 袁继海, 齐秋菊, 吕劲松, 顾轩, 刘鹏. 2021. 长江经济带生态修复示范关键技术及其应用[J]. 中国地质, 48(5): 1305-1333. doi: 10.12029/gc20210501
引用本文: 姜月华, 倪化勇, 周权平, 程知言, 段学军, 朱志敏, 吴吉春, 任海彦, 范晨子, 杨晋炜, 陈超, 胡建, 王晓龙, 姜夏烨, 刘永兵, 杨海, 郭威, 冯乃琦, 魏广庆, 金阳, 杨辉, 刘林, 梅世嘉, 张鸿, 陈澎军, 袁继海, 齐秋菊, 吕劲松, 顾轩, 刘鹏. 2021. 长江经济带生态修复示范关键技术及其应用[J]. 中国地质, 48(5): 1305-1333. doi: 10.12029/gc20210501
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JIANG Yuehua, NI Huayong, ZHOU Quanping, CHENG Zhiyan, DUAN Xuejun, ZHU Zhimin, WU Jichun, REN Haiyan, FAN Chenzi, YANG Jinwei, CHEN Chao, HU Jian, WANG Xiaolong, JIANG Xiaye, LIU Yongbing, YANG Hai, GUO Wei, FENG Naiqi, WEI Guangqing, JIN Yang, YANG Hui, LIU Lin, MEI Shijia, ZHANG Hong, CHEN Pengjun, YUAN Jihai, QI Qiuju, LÜ Jinsong, GU Xuan, LIU Peng. 2021. Key technology of ecological restoration demonstration in the Yangtze River Economic Zone and its application[J]. Geology in China, 48(5): 1305-1333. doi: 10.12029/gc20210501
Citation: JIANG Yuehua, NI Huayong, ZHOU Quanping, CHENG Zhiyan, DUAN Xuejun, ZHU Zhimin, WU Jichun, REN Haiyan, FAN Chenzi, YANG Jinwei, CHEN Chao, HU Jian, WANG Xiaolong, JIANG Xiaye, LIU Yongbing, YANG Hai, GUO Wei, FENG Naiqi, WEI Guangqing, JIN Yang, YANG Hui, LIU Lin, MEI Shijia, ZHANG Hong, CHEN Pengjun, YUAN Jihai, QI Qiuju, LÜ Jinsong, GU Xuan, LIU Peng. 2021. Key technology of ecological restoration demonstration in the Yangtze River Economic Zone and its application[J]. Geology in China, 48(5): 1305-1333. doi: 10.12029/gc20210501
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长江经济带生态修复示范关键技术及其应用

  • 1.

    中国地质调查局南京地质调查中心, 江苏 南京 210016

  • 2.

    自然资源部流域生态地质过程重点实验室, 江苏 南京 210016

  • 3.

    中国地质科学院探矿工艺研究所, 四川 成都 611734

  • 4.

    江苏省地质矿产勘查局, 江苏 南京 210018

  • 5.

    中国科学院南京地理与湖泊研究所, 江苏 南京 210008

  • 6.

    中国地质科学院矿产综合利用研究所, 四川 成都 610041

  • 7.

    南京大学, 江苏 南京 210023

  • 8.

    南京农业大学, 江苏 南京 210095

  • 9.

    国家地质实验测试中心, 北京 100037

  • 10.

    江苏省有色金属华东地质勘查局, 江苏 南京 210007

  • 11.

    中国地质科学院郑州矿产综合利用研究所, 河南 郑州 450006

  • 12.

    苏州南智传感科技有限公司, 江苏 苏州 215124

  • 基金项目:
    中国地质调查局项目(DD20190260、DD20160246)资助
详细信息
    作者简介: 姜月华, 男, 1963年生, 博士, 研究员, 主要从事环境地质和水文地质工作; E-mail: 316664105@qq.com

  • 中图分类号: P737.1;TV147

Key technology of ecological restoration demonstration in the Yangtze River Economic Zone and its application

  • 1.

    Nanjing Center, China Geological Survey, Nanjing 210016, Jiangsu, China

  • 2.

    Key Laboratory of Watershed Eco-Geological Processes, Ministry of Natural Resources, Nanjing 210016, Jiangsu, China

  • 3.

    Institute of Exploration Technology, Chinese Academy of Geological Sciences, Chengdu 611734, Sichuan, China

  • 4.

    Jiangsu Geology & Mineral Exploration Bureau, Nanjing 210018, Jiangsu, China

  • 5.

    Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, Jiangsu, China

  • 6.

    Institute of Multipurpose Utilization of Mineral Resources, Chinese Academy of Geological Sciences, Chengdu 610041, Sichuan, China

  • 7.

    Nanjing University, Nanjing 210023, Jiangsu, China

  • 8.

    Nanjing Agricultural University, Nanjing 210095, Jiangsu, China

  • 9.

    National Research Center for Geoanalysis, Beijing 100037, China

  • 10.

    East China Mineral Exploration and Development Bureau for Non-ferrous Metals, Jiangsu Province, Nanjing 210007, Jiangsu, China

  • 11.

    Zhengzhou Institute of Multipurpose Utilization of Mineral Resources, Chinese Academy of Geological Sciences, Zhengzhou 450006, Henan, China

  • 12.

    Suzhou NanZee Sensing Technology Co., Ltd, Suzhou 215124, Jiangsu, China

  • Fund Project: Supported by the project of China Geological Survey (No.DD20160246, No.DD20190260)
More Information
    Author Bio: JIANG Yuehua, male, born in 1963, doctor, professor, engaged in environmental geology and hydrogeology; E-mail: 316664105@qq.com .

    摘要

  • 围绕长江大保护,笔者近年探索形成滨海盐碱地、长江滨岸湿地、沿江化工污染场地、重金属污染场地和废弃矿山等5种类型生态修复示范关键技术,取得重要进展和应用成效:(1)探索形成南通滨海盐碱地"工程、结构、生物和农艺改良"等关键技术体系,建立了盐碱地水-盐运移环境实时动态监测体系,实现海水稻、玉米和油菜等系列农产品产业化,有效服务沿海地区盐碱地优质利用与国土空间规划。(2)提出江苏启东长江沿江湿地"生境优化、植物优选、多样性调控"综合生态修复技术,形成湿地休闲观光区、湿地生物多样性保护区和湿地尾水深度净化区等三大生态功能区,修复成果取得较好生态与社会效益。(3)创新有机污染探测技术,查明某典型化工园区地下"隐性"污染,精确圈定主要污染物深度,明确以硝基苯、苯、苯胺等为主的污染物类型,提出了污染修复深化建议,得到当地市政府、环保部门采纳建议方案,有效支撑服务有机化工废弃场地再开发。(4)研发耐镉转基因特有植物材料与高效修复功能微生物,探索形成沿江高镉土壤微生物-植物互作修复模式,为下一步微生物改良剂研制和规模化修复奠定重要基础。(5)形成云南安宁磷矿尾矿堆场生态修复和四川攀枝花钒钛磁铁矿尾矿资源化、减量化利用关键技术,有力支撑废弃矿山生态保护修复和尾矿资源化利用。

    The key demonstration technology for ecological restoration of five types of ecological environments was explored to protect ecological environment of the Yangtze River, including coastal saline-alkali land, coastal wetland of the Yangtze River, chemical pollution sites along the Yangtze River, heavy metal pollution sites and abandoned mines. Through the construction of "engineering, structure, biology and agronomic improvement" and other key technology systems of coastal saline-alkali land, the real-time dynamic monitoring system of water-salt migration environment in coastal saline-alkali land has been established, and the industrialization of a series of agricultural products such as sea rice, corn and canola has been realized, which effectively serve the high-quality utilization and territorial space planning of coastal saline-alkali land. The comprehensive ecological restoration technology of "habitat optimization, plant selection and diversity control" was proposed for the wetlands along the Yangtze River in Qidong, Jiangsu Province. Three ecological function areas, namely wetland leisure and sightseeing area, wetland biodiversity protection area and wetland tailwater deep purification area, were formed. The restoration results achieved good ecological and social benefits. Some progress and results have been made, including innovation of organic pollution detection technology, identification of underground "hidden" pollution of one typical chemical park, accurate delineation of main pollutants depth, and clarification of aniline nitrobenzene and benzene. The proposed suggestions on deepening pollution remediation have been adopted by the local municipal government and environmental protection departments to effectively support and serve the redevelopment of abandoned organic chemical sites. Develop cadmium-resistant transgenic specific plant materials and highly effective remediation microorganisms were developed to explore the formation of a microbial-plant interaction remediation mode in high-cadmium soil along the Yangtze River, which lay an important foundation for the development of microbial amendments and large-scale remediation in the future. The developed key technologies for ecological restoration of Anning phosphate tailings storage yard in Yunnan and resource utilization and reduction of vanadium titanomagnetite tailings in Panzhihua of Sichuan strongly support ecological protection and restoration of abandoned mines and resource utilization of tailings.

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  • 图 1  长江经济带地貌分区图

    Figure 1. 

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    图 2  长江经济带生态修复示范区分布位置图

    Figure 2. 

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    图 3  生态修复示范工作流程图

    Figure 3. 

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    图 4  江苏沿海地区土壤盐度分级(左)及土壤养分(右)等级评价图

    Figure 4. 

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    图 5  盐碱地修复改良过程关键技术框架图

    Figure 5. 

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    图 6  生物质地膜覆盖图

    Figure 6. 

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    图 7  野外观测和实时监测图

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    图 8  修复前后的场地状况对比图

    Figure 8. 

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    图 9  淡水(微咸水)微循环模式

    Figure 9. 

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    图 10  稻鸭复合种养模式

    Figure 10. 

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    图 11  沿江湿地修复位置图

    Figure 11. 

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    图 12  修复区沿江工程地质剖面图

    Figure 12. 

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    图 13  底质改良与地形重塑示意图

    Figure 13. 

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    图 14  湿地修复功能区平面分布图

    Figure 14. 

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    图 15  湿地修复功能区剖面图

    Figure 15. 

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    图 16  先锋植物控繁示意图

    Figure 16. 

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    图 17  湿地修复效果展示图

    Figure 17. 

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    图 18  某化工场地位置和范围图

    Figure 18. 

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    图 19  化工储罐有机污染物渗漏示意图

    Figure 19. 

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    图 20  钻孔岩心和地下水中的有机污染物

    Figure 20. 

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    图 21  有机污染探测效果图

    Figure 21. 

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    图 22  地质结构及地下污染物分布图

    Figure 22. 

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    图 23  三维模型和数值模拟效果图

    Figure 23. 

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    图 24  有机污染场地生态修复技术模式

    Figure 24. 

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    图 25  土壤(左)和地下水(右)修复效果图(据肖业宁等,2015)

    Figure 25. 

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    图 26  修复前后效果对比图

    Figure 26. 

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    图 27  长江中下游沿江岸带镉异常分布图

    Figure 27. 

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    图 28  高镉土壤功能微生物采集与施用过程示意图

    Figure 28. 

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    图 29  海滨雀稗表达文库转化酵母获得的耐镉酵母单克隆(A)、耐镉单克隆的耐镉基因序列(B)、耐镉基因ORF再次转化酵母的耐镉鉴定(C)、表达分析(D)和PvHSFA4a的进化树分析(E)及氨基酸比对分析(F)

    Figure 29. 

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    图 30  镉胁迫下海滨雀稗根系的酰化修饰途径探索

    Figure 30. 

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    图 31  过表达基因对野生型植株(WT、NG)和转基因植株(OX1、OX2)在不同镉浓度下的根茎镉含量不同镉浓度下过表达基因对野生型植株(WT、NG)和转基因植株(OX1、OX2)的根茎镉含量

    Figure 31. 

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    图 32  过表达基因(Overexpress Gene)应用于作物后其果实中的镉含量比较

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    图 33  微生物-植物互作修复模式示意图

    Figure 33. 

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    图 34  云南安宁磷矿山生态环境修复位置(蓝色区域)示意图

    Figure 34. 

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    图 35  示范区生态植被恢复布局示意图

    Figure 35. 

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    图 36  示范区水土流失控制措施

    Figure 36. 

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    图 37  修复示范区自动监测技术示意图

    Figure 37. 

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    图 38  3个月后修复示范区效果图

    Figure 38. 

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    图 39  钒钛磁铁矿矿山尾矿综合利用位置示意图

    Figure 39. 

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    图 40  尾矿样品采集

    Figure 40. 

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    图 41  (a) 泡沫陶瓷隔断板(b)泡沫陶瓷保水砖

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    图 42  钒钛磁铁矿尾矿综合利用技术路线

    Figure 42. 

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    表 1  攀枝花钒钛磁铁矿尾矿的精矿产品及其指标

    Table 1.  Concentrate products and indexes of vanadium titanomagnetite tailings in the Panzhihua mine

    下载: 导出CSV
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