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Progress and prospect of ecogeological research |
NIE Hongfeng1, XIAO Chunlei1, REN Weixiang1,2,3, LIU Jianyu1, DAI Meng1 |
1. China Aero Geophysical Survey & Remote Sensing Center for Natural Resources, Beijing 100083, China; 2. China University of Geosciences, Beijing 100083, China; 3. Chinese Academy of Geological Sciences, Beijing 100037, China |
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Abstract Ecological geology is an interdisciplinary subject to study the relationship between ecosystem and geological environment. which plays an important theoretical support role in the ecological protection and restoration of land and space. The ecogeology in China is still in the exploratory stage after years of development and sedi-mentierung. The authors in this paper summarize the relevant research progress of ecogeology at home and abroad, based on a large number of previous studies. Internationally, Russia has established an ecogeological survey and research system, and the United States has conducted the research on the earth’s critical zone, which is a theme very consistent with the ecogeological research. In China, ecogeological researches mainly focus on the process and mechanism of ecology-geology interaction and systematic ecological restoration under the influence of geological environment. On this basis, the authors in this study put forward the understanding of the meaning of ecogeology and the understanding and thinking of the research content, method and technology innovation of ecogeology and the construction of discipline system, which would provide reference for serving the overall protection of mountains, rivers, forests, farmlands, lakes, and grasslands, system restoration, comprehensive management and deepening research of ecogeological system.
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Received: 16 October 2021
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[1] 张惠远,李圆圆,冯丹阳,等.明确内容标准强化实施监管——山水林田湖草生态保护修复的路径探索[J].中国生态文明,2019,30(1):66-69. Zhang H Y,Li Y Y,Feng D Y,et al.Clarify the content standard and strengthen the implementation of supervision:Exploring the path of ecological protection and restoration of mountain-river-forest-field-lake-grassland[J].China Ecol Civilizat,2019,30(1):66-69. [2] 聂洪峰,肖春蕾,戴蒙,等.生态地质调查工程进展与主要成果[J].中国地质调查,2021,8(1):1-12. Nie H F,Xiao C L,Dai M,et al.Progresses and main achievements of ecogeological survey project[J].Geol Survey China,2021,8(1):1-12. [3] 张箫,牟雪洁,王夏晖,等.国土空间生态修复分区研究——以海南岛为例[J].生态经济,2021,37(2):183-189. Zhang X,Mou X J,Wang X H,et al.Study on the ecological restoration zoning of territorial space:Taking Hainan Island as an example[J].Ecol Economy,2021,37(2):183-189. [4] 王军,钟莉娜.生态系统服务理论与山水林田湖草生态保护修复的应用[J].生态学报,2019,39(23):8702-8708. Wang J,Zhong L N.Application of ecosystem service theory for ecological protection and restoration of mountain-river-forest-field-lake-grassland[J].Acta Ecol Sin,2019,39(23):8702-8708. [5] 白中科. 生态优先绿色发展——生态文明理念下的国土空间生态保护与修复[J].自然资源科普与文化,2021(3):4-11. Bai Z K.Ecology gives priority to green development:Ecological protection and restoration of national space under the concept of ecological civilization[J].Sci Cultur Popularizat Nat Resour,2021(3):4-11. [6] 聂洪峰,肖春蕾,郭兆成.探寻生态系统运行与演化的秘密——生态地质调查思路及方法解读[J].国土资源科普与文化,2019(4):4-13. Nie H F,Xiao C L,Guo Z C.Explore the secret of the operation and evolution of ecosystem:The interpretation of ideas and methods of ecogeological survey[J].Sci Cultur Popularizat Land Resour,2019(4):4-13. [7] 燕乃玲,虞孝感.生态系统完整性研究进展[J].地理科学进展,2007,26(1):17-25. Yan N L,Yu X G.Summary comments on ecosystem integrity[J].Progr Geogr,2007,26(1):17-25. [8] Green S M,Dungait J A J,Tu C L,et al.Soil functions and ecosystem services research in the Chinese karst critical zone[J].Chem Geol,2019,527:119107. [9] Correa-Burrows J P,Navarrete-Calvo Á,Valenzuela-Díaz M J,et al.The role of local geochemical and mineralogical backgrounds as essential information to build efficient sediment quality guidelines at high-mountainous hydrothermally-altered basins (Mapocho basin,Chile)[J].Sci Total Environ,2021,785:147266. [10] 李博,杨持,林鹏.生态学[M].北京:高等教育出版社,2000. Li B,Yang C,Lin P.Ecology[M].Beijing:Higher Education Press,2000. [11] 戈峰. 现代生态学[M].2版.北京:科学出版社,2008:1-7. Ge F.Modern Ecology[M].2nd ed.Beijing:Science Press,2008:1-7. [12] Trofimov V T,Ziling D G.Ecological geology in the program of “Universities of Russia”[J].Geoecologiya,1994,3:117-120. [13] 王长生,王大可.生态地质学的创立及其在大巴山区的初步应用[J].大自然探索,1998,17(4):69-71. Wang C S,Wang D K.Production of ecological geology and its app-lications in the Daba Mountain[J].Explorat Nat,1998,17(4):69-71. [14] 汪振立. 生态地质[M].2版.北京:地质出版社,2016. Wang Z L.Ecological Geology[M].2nd ed.Beijing:Geological Publishing House,2016. [15] 林景星,张静,史世云,等.生态环境地质学——21世纪新兴的地球学科[J].地质通报,2003,22(7):459-469. Lin J X,Zhang J,Shi S Y,et al.Ecoenvironmental geology:A rising branch of earth science during the 21st century[J].Geol Bull China,2003,22(7):459-469. [16] Trofimov V T.Ecological geology:A novel branch of geological sciences[J].Earth Science Frontiers,2001,8(1):27-35. [17] Vartanyan G.The Geological Environment and Ecosystems[G]//Zektser I S,Marker B,Ridgway J,et al.Geology and Ecosystems.Boston:Springer,2006:9-14. [18] Trofimov V T.The ecological-geological system,its types and position in the structure of an ecosystem[J].Moscow Univ Geol Bull,2009,64(2):111-115. [19] Trofimov V T.Ecological-geological conditions and factors of their formation[J].Moscow Univ Geol Bull,2010,65(1):54-57. [20] Korolev V A,Buslaeva O V.A system of proper environmental geo-logy categories[J].Moscow Univ Geol Bull,2012,67(5):298-307. [21] Dmitrievich P A,Aleksandrovich P I.Engineering-geological or geoecological processes and phenomena;their development in the present-day environment[J].Vestn MGSU,2012(9):191-196. [22] Tsakalotos D E.The inner friction of the critical zone[J].Zeitschr Physikal Chem Stochiometr Verwandtschaftsl,1909,68:32-38. [23] Cameron E N.Structure and rock sequence of the critical zone of the eastern bushveld complex[J].Mineral Soc Am Spec,1963(1):93-107. [24] Consensus Study Report.Basic Research Opportunities in Earth Science[M].Washington D C:The National Academies Press,2001:168. [25] Lin H.Earth’s critical zone and hydropedology:Concepts,characteristics,and advances[J].Hydrol Earth Syst Sci,2010,14(1):25-45. [26] Richter D D,Billings S A.‘One physical system’:Tansley’s ecosystem as earth’s critical zone[J].New Phytol,2015,206(3):900-912. [27] Banwart S A,Bernasconi S M,Blum W E H,et al.Soil functions in earth’s critical zone:Key results and conclusions[J].Adv Agronomy,2017,142:1-27. [28] Zhu Y G,Gillings M,Simonet P,et al.Human dissemination of genes and microorganisms in earth’s critical zone[J].Glob Change Biol,2018,24(4):1488-1499. [29] Zhang Z C,Chen X,Cheng Q B,et al.Coupled hydrological and biogeochemical modelling of nitrogen transport in the karst critical zone[J].Sci Total Environ,2020,732:138902. [30] 朱永官,李刚,张甘霖,等.土壤安全:从地球关键带到生态系统服务[J].地理学报,2015,70(12):1859-1869. Zhu Y G,Li G,Zhang G L,et al.Soil security:From Earth’s critical zone to ecosystem services[J].Acta Geograph Sin,2015,70(12):1859-1869. [31] Goldhaber M B,Mills C T,Morrison J M,et al.Hydrogeochemistry of prairie pothole region wetlands:Role of long-term critical zone processes[J].Chem Geol,2014,387:170-183. [32] Akob D M,Küsel K.Where microorganisms meet rocks in the earth’s critical zone[J].Biogeosciences,2011,8(12):3531-3543. [33] Reiss M,Chifflard P.An opinion on spring habitats within the earth’s critical zone in headwater regions[J].Water,2017,9(9):645. [34] Bui E N.Data-driven critical zone science:A new paradigm[J].Sci Total Environ,2016,568:587-593. [35] 李正积. 岩土植物大系统研究[M].北京:科学出版社,1996. Li Z J.The Largescale System Studies of Rock-Soil-Plant[M].Beijing:Science Press,1996. [36] 陈树旺,Zhukovskaya A A,邢德和,等.铁岭地区生态地质研究[M].北京:地质出版社,2011. Chen S W,Zhukovskaya A A,Xing D H,et al.Eco-geological Study in Tieling Aera[M].Beijing:Geological Publishing House,2011. [37] 陈树旺,邢德和,丁秋红,等.生态地质调查评价——以辽宁铁岭地区为例[J].地质与资源,2012,21(6):540-545. Chen S W,Xing D H,Ding Q H,et al.Ecogeological survey and evaluation:A case study of Tieling area,Liaoning Province[J].Geol Resour,2012,21(6):540-545. [38] 张慈,赵银兵,欧阳渊,等.青藏高原东缘地质环境对植被覆盖度的影响研究:以冕宁县为例[J/OL].沉积与特提斯地质,2021:1-11.[2021-07-17].https://doi.org/10.19826/j.cnki.1009-3850.2021.03010. Zhang C,Zhao Y B,Ouyang Y,et al.Influence of geological environment on vegetation coverage in the eastern edge of Qinghai-Tibet Plateau:A case study of Mianning[J/OL].Sediment Geol Tethyan Geol,2021:1-11.[2021-07-17].https://doi.org/10.19826/j.cnki.1009-3850.2021.03010. [39] 曾锐,张陶,蒲俊兵,等.典型岩溶断陷盆地农作物生态需水研究——以蒙自地区为例[J].中国岩溶,2020,39(6):873-882. Zeng R,Zhang T,Pu J B,et al.Ecological water requirements of crops in typical karst fault-depression basins:A case study of the Mengzi area,Yunnan Province[J].Carsol Sin,2020,39(6):873-882. [40] 冯瑞章,周万海,龙瑞军,等.江河源区不同退化程度高寒草地土壤物理、化学及生物学特征研究[J].土壤通报,2010,41(2):263-269. Feng R Z,Zhou W H,Long R J,et al.Characteristics of soil phy-sical, chemical and biological properties on degraded alpine mea-dows in the headwater areas of the Yangtze and Yellow Rivers,Qinghai-Tibetan Plateau[J].Chin J Soil Sci,2010,41(2):263-269. [41] 干友民,李志丹,泽柏,等.川西北亚高山草地不同退化梯度草地土壤养分变化[J].草业学报,2005,14(2):38-42. Gan Y M,Li Z D,Ze B,et al.The changes of grassland soil nutrition at different degradation subalpine meadow of north-west in Sichuan[J].Acta Pratacult Sci,2005,14(2):38-42. [42] 杨军,刘秋蓉,王向涛.青藏高原高山嵩草高寒草甸不同退化阶段植物群落与土壤养分[J].应用生态学报,2020,31(12):4067-4072. Yang J,Liu Q R,Wang X T.Plant community and soil nutrient of alpine meadow in different degradation stages on the Tibetan Pla-teau,China[J].Chin J Appl Ecol,2020,31(12):4067-4072. [43] 陈秋捷,张楠楠,仲波,等.若尔盖高寒草地退化沙化过程中土壤养分与团聚体结构的变化特征[J].生态科学,2019,38(4):13-20. Chen Q J,Zhang N N,Zhong B,et al.Change of soil nutrient and aggregate structure during the desertification process of grassland in Zoige[J].Ecol Sci,2019,38(4):13-20. [44] 陈敬忠. 米槁果实化学成分的地理变异及道地性成因分析[D].贵阳:贵州大学,2020. Chen J Z.Geographical variation of chemical composition of Cinnamomum migao and cause analysis of its geoherbalism[D].Guiyang:Guizhou University,2020. [45] 周志,刘扬,张黎明,等.武夷茶区茶园土壤养分状况及其对茶叶品质成分的影响[J].中国农业科学,2019,52(8):1425-1434. Zhou Z,Liu Y,Zhang L M,et al.Soil nutrient status in Wuyi tea region and its effects on tea quality-related constituents[J].Sci Agric Sin,2019,52(8):1425-1434. [46] 刘昌义,胡夏嵩,李希来,等.黄河源区高寒草地根-土复合体抗剪强度与土壤营养元素分布关系[J].山地学报,2020,38(3):349-359. Liu C Y,Hu X S,Li X L,et al.Relationship between shear strength of root-soil composite systems of alpine grassland and distribution of soil nutrient elements in the source region of the Yellow River,China[J].Mount Res,2020,38(3):349-359. [47] 傅伯杰. 国土空间生态修复亟待把握的几个要点[J].中国科学院院刊,2021,36(1):64-69. Fu B J.Several key points in territorial ecological restoration[J].Bull Chin Acad Sci,2021,36(1):64-69. [48] 段华超,郑鑫华,李世民,等.云南石漠化地区植被恢复模式及优化建议[J/OL].中国岩溶,2021.(2021-04-13)[2021-07-17].http://kns.cnki.net/kcms/detail/45.1157.P.20210413.1323.002.html. Duan H C,Zheng X H,Li S M,et al.Vegetation restoration model and optimization suggestions in rocky desertification area of Yunnan Province[J/OL].Carsol Sin,2021.(2021-04-13)[2021-07-17].http://kns.cnki.net/kcms/detail/45.1157.P.20210413.1323.002.html. [49] 肖林颖,吴秀芹,周金星,等.岩溶断陷盆地典型县域石漠化治理综合效益评价——以云南建水县为例[J].地球学报,2021,42(3):444-450. Xiao L Y,Wu X Q,Zhou J X,et al.Comprehensive benefit evaluation of rocky desertification control in the typical county of karst fault basin:A case study of Jianshui County,Yunnan Pro-vince[J].Acta Geosci Sin,2021,42(3):444-450. [50] 王京彬,卫晓锋,张会琼,等.基于地质建造的生态地质调查方法——以河北省承德市国家生态文明示范区综合地质调查为例[J].中国地质,2020,47(6):1611-1624. Wang J B,Wei X F,Zhang H Q,et al.The eco-geological survey based on geological formation,exemplified by integrated geological survey of national ecological civilization demonstration area in Chengde City,Hebei Province[J].Geol China,2020,47(6):1611-1624. [51] 白中科,师学义,周伟,等.人工如何支持引导生态系统自然修复[J].中国土地科学,2020,34(9):1-9. Bai Z K,Shi X Y,Zhou W,et al.How does artificiality support and guide the natural restoration of ecosystems[J].China Land Sci,2020,34(9):1-9. [52] 崔潇,周妍如,刘孝阳,等.平朔露天煤矿复垦区不同地质层组岩土质量综合评价[J].水文地质工程地质,2021,48(2):164-173. Cui X,Zhou Y R,Liu X Y,et al.Comprehensive evaluation of rock and soil quality of different geological stratum groups in Pingshuo opencast coal mine reclamation area[J].Hydrogeol Eng Geol,2021,48(2):164-173. [53] 周金余,李平,张贺.黄河流域煤矿生态修复技术研究现状及展望[J/OL].中国矿业,2021.(2021-04-07)[2021-07-17].http://kns.cnki.net/kcms/detail/11.3033.TD.20210406.1810.002.html. Zhou J Y,Li P,Zhang H.Research status and prospect of ecological restoration technology for coal mines in the Yellow River basin[J/OL].China Min Magaz,2021.(2021-04-07)[2021-07-17].http://kns.cnki.net/kcms/detail/11.3033.TD.20210406.1810.002.html. [54] 周智勇. 基于RS与GIS的新疆北部地区矿山地质环境评价[J].西部资源,2021(2):179-180,183. Zhou Z Y.Evaluation of mine geological environment in northern Xinjiang based on RS and GIS[J].West Resour,2021(2):179-180,183. [55] 殷亚秋,杨金中,汪洁,等.长江经济带废弃矿山占损土地遥感调查与生态修复对策[J].国土资源遥感,2020,32(2):170-176. Yin Y Q,Yang J Z,Wang J,et al.Remote sensing survey of land occupied and damaged by abandoned mines along the Yangtze River Economic Belt and research on ecological remediation countermeasures[J].Remote Sens Land Resour,2020,32(2):170-176. |
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