Research progress on aeolian sand control of China's sandy coasts
Received date: 2024-11-08
Revised date: 2024-12-30
Online published: 2025-03-26
The coastline of China is intricate and complex, with sandy coastlines occupying a significant proportion. In recent years, research on aeolian sand control of sandy coasts has garnered widespread attention, which is of great importance for ensuring ecological safety, economic development, and social stability in coastal areas. This paper comprehensively reviews the research progress on aeolian sand control of sandy coasts in China, and analyzes the research findings over the years regarding the types and causes of coastal aeolian disaster, prevention and control measures, as well as resource utilization and protection. The research indicates that coastal aeolian disaster primarily manifest as erosion and accumulation, influenced by both natural factors and human activities. The integrated engineering for China's coastal Aeolian control combines diverse strategies of sand fixation, biological management, and rational resource utilization. By precisely observing and simulating the laws of wind and sand movement, it scientifically guides the formulation and implementation of protective measures. Currently, China's sandy coastlines face challenges in technical simulation, adaptability to specific environments, and stability of energy supply in sand and dust prevention and control efforts. In the future, it is necessary to deepen the exploration of the movement patterns of sand and dust in characteristic environments, optimize governance strategies, break through technological bottlenecks, and strengthen international cooperation to jointly address the challenges posed by climate change and rising sea levels, contributing Chinese wisdom and solutions to global coastal ecological environment protection.
Na Li , Jianjun Qu , Lanlan An , Dexi Zhang , Yupei Li . Research progress on aeolian sand control of China's sandy coasts[J]. Journal of Desert Research, 2025 , 45(2) : 217 -224 . DOI: 10.7522/j.issn.1000-694X.2024.00186
| 1 | Johnson D W.Shore Processes and Shoreline Development[M].New York,USA:John Wiley,1919:584. |
| 2 | Shepard F P, Goldberg E D, Inman D L.Submarine Geology[M].New York,USA:Harper & Row,1963. |
| 3 | 曹伯勋,赵良政.地貌及第四纪地质学[M].武汉:中国地质大学出版社,1995. |
| 4 | 衣伟虹.我国典型地区海岸侵蚀过程及控制因素研究[D].青岛:中国海洋大学,2011. |
| 5 | Haupt L M.Littoral movements of the New Jersey Coast,with remarks on beach protection and Jetty reaction[J].Transactions of the American Society of Civil Engineers,1890,23(2):123-141. |
| 6 | P.Harbors Vedel.Island harbours and the accumulations of material caused by detached works[J].Transactions of the American Society of Civil Engineers,1905,54(3):137-158. |
| 7 | Newcombe C L.Certain environmental factors of a sand beach in the St Andrews region,New Brunswick,with a preliminary designation of the intertidal communities[J].Journal of Ecology,1935,23(2):334-355. |
| 8 | Dahl E.Some aspects of the ecology and zonation of the fauna on sandy beaches[J].Oikos,1952,4(Fasc.1):1-27. |
| 9 | Gordon M S.Anaerobiosis in marine sandy beaches[J].Science,1960,132(3427):616-617. |
| 10 | Enright J T.The tidal rhythm of activity of a sand-beach amphipod[J].Zeitschrift für Vergleichende Physiologie,1963,46:276-313. |
| 11 | 迪德里希·策勒,舒述君,董祖祺.德国北海的海岸防护[J].华水科技情报,1981(2):73-75. |
| 12 | 石川政幸,张士刚.日本海中部地震海啸时海岸防护林的效果和被害状况[J].河北林业科技,1984(4):31. |
| 13 | Pattnaik A, Rao M V L.Composition and distribution of interstitial meiofauna of the sandy beach of Gopalpur,South Orissa Coast[J].Indian Journal of Marine Sciences,1990,19(3):165-170. |
| 14 | 蔡爱智,蔡月娥.中国海岸风沙沉积的成因与特征[J].中国沙漠,1983,3(3):5-14. |
| 15 | 吴正,吴克刚.中国海岸风沙研究的进展和问题[J].地理科学,1990(3):230-236. |
| 16 | 吴正.中国海岸风沙地貌与沉积研究的新进展[J].地球科学进展,1993(2):59-61. |
| 17 | 董玉祥.中国的海岸风沙研究:进展与展望[J].地理科学进展,2006(2):26-35. |
| 18 | 林信辉,江永哲.沙体含水率与飞沙量之关系实验[J].中华水土保持学报,1979,10(2):173-193. |
| 19 | 游繁结.台湾西海岸飞沙量推估之初步研究[J].中华水土保持学报,1986,27(1):107-117. |
| 20 | 董玉祥,李志忠.近40年中国海岸风沙地貌研究回顾[J].中国沙漠,2022,42(1):12-22. |
| 21 | 喻国华.江苏海岸侵蚀特点与治理[J].江苏水利,1986(4):57-64. |
| 22 | 喻国华.小丁港海岸演变及整治工程试验研究[J].海岸工程,1987(1):71-78. |
| 23 | 董治宝,吕萍.70年来中国风沙地貌学的发展[J].地理学报,2020,75(3):509-528. |
| 24 | 逄金强.山东海岸沙地主要防风固沙树种对风和风沙流危害的耐受力及其适应机制[D].烟台:鲁东大学,2020. |
| 25 | 倪成君,何海琦,张克存,等.华南沿海风沙危害防护体系及其效益分析[J].中国沙漠,2011,31(5):1098-1104. |
| 26 | 符淑宜,董玉祥.海岸风沙地貌与植被相互作用研究进展与展望[J].地球科学进展,2024,39(1):34-45. |
| 27 | 杨显基,杜建会,秦晶,等.海岸沙生植物老鼠艻(Spinifex littoreus)叶水势对风蚀、沙埋和风沙流磨蚀的响应[J].生态学杂志,2017,36(5):1215-1223. |
| 28 | 陈欣树,陈俊仁.华南沿海风沙灾害与防治[J].中国地质灾害与防治学报,1993(3):102-104. |
| 29 | 何岩雨,刘建辉,蔡锋,等.潮汐作用下的风沙运动过程研究进展[J].中国沙漠,2018,38(3):455-463. |
| 30 | 李震,雷怀彦.中国砂质海岸分布特征与存在问题[J].海洋地质动态,2006,22(6):1-4. |
| 31 | 谭伟福.广西沿海风沙化土地现状分析及评价[J].广西林业科学,1995(4):174-181. |
| 32 | 林启慧.新中国生态环境治理工作的初步探索[D].福州:福建师范大学,2022. |
| 33 | 董玉祥.海岸风沙运动观测与模拟的研究与进展[J].干旱区资源与环境,2001(2):60-66. |
| 34 | 于晓莉,李志忠,靳建辉,等.近300年来福建长乐海岸沙丘记录的风沙环境演变[J].海洋与湖沼,2017,48(2):232-245. |
| 35 | 司月君,李保生,李志文,等.北部湾海岸现代风沙与海滩沙粒度特征对比[J].中国沙漠,2020,40(6):43-52. |
| 36 | 刘建辉,陈旭,蔡锋,等.海滩养护影响下的海岸风沙作用研究进展[J].应用海洋学学报,2023,42(1):145-155. |
| 37 | Peng X, Ding F, Wu W,et al.Remote sensing monitoring of wind-preventing and sand-fixing effects of coastal protection forests:a case study in Haitan Island,Fujian,China[C]//2014 Third International Workshop on Earth Observation and Remote Sensing Applications (EORSA).IEEE,2014:57-61. |
| 38 | 刘达,黄本胜,邱静,等.海岸破碎带植物消浪数值模拟研究[J].海洋工程,2016,34(2):16-23. |
| 39 | 蔡淑娟.海岸底床剖面演变模拟与分析[J].水利科技与经济,2014,20(10):36-39. |
| 40 | 沈良朵,邹志利,唐志波,等.缓坡海岸平均沿岸流实验研究与数值模拟[J].船舶力学,2016,20(8):973-982. |
| 41 | 唐迎迎,林忠洲,孙伟.浙江象山沙塘湾海岸线整治修复数值模拟研究[J].水利水电快报,2018,39(12):39-42. |
| 42 | 李希彬,牛福新,王鲁宁,等.未来大规模海岸工程对渤海湾潮动力环境影响的模拟研究[J].海洋通报,2018,37(3):320-327. |
| 43 | 陈从磊,刘桢,王玉红,等.基于Fluent的波浪对海岸冲击的数值模拟[J].中国海洋平台,2020,35(4):56-59. |
| 44 | 张振克,杨运恒.胶东半岛北部沿海现代风沙灾害特点、成因及减灾对策[J].中国沙漠,1992,12(4):37-43. |
| 45 | 雷怀彦,林炳煌,刘建辉,等.福建东部海岸风沙流结构特征及沙害防治对策[J].华侨大学学报(自然科学版),2008(1):143-147. |
| 46 | Xie H, Liu B, Chen H,et al.Inner relationship between the damping property and the sand‐fixing durability of polymer materials[J].Journal of Applied Polymer Science,2018,136:47208. |
| 47 | 杨文斌,李颖.东营港东营港区防波挡沙堤结构型式研究[J].港工技术,2022,59(2):4541-4549. |
| 48 | 屈建军,凌裕泉,刘宝军,等.我国风沙防治工程研究现状及发展趋势[J].地球科学进展,2019,34(3):225-231. |
| 49 | 潘勇军,陈步峰,黄金彪,等.南沙沿海防护林对“韦森特”台风的防护效应[J].中南林业科技大学学报,2014,34(10):84-89. |
| 50 | 裴男才,陈步峰,吴敏,等.广州市南沙区海岸防护林群落构建技术研究[J].生态环境学报,2013,22(11):1802-1806. |
| 51 | 刘平,邱月,王玉涛,等.渤海泥质海岸典型防护林对土壤酶活性季节动态的影响[J].沈阳农业大学学报,2018,49(6):678-685 |
| 52 | 刘平,邢献予,王玉涛,等.辽宁基岩质海岸防护林对枯落物及土壤养分的影响[J].沈阳农业大学学报,2017,48(3):360-366. |
| 53 | 周瑞莲,强生斌,逄金强,等.海岸防风固沙树种耐风吹阈值比较[J].中国沙漠,2020,40(6):127-138. |
| 54 | 刘玉静,董周焱,柏新富,等.烟台海岸防护林带6树种资源利用效率比较[J].山东农业大学学报(自然科学版),2015,46(4):570-575. |
| 55 | 李霄汉,张天才,张振荣,等.河北省海岸带资源及开发利用研究[J].中国农业资源与区划,2015,36(4):104-112. |
| 56 | 李雪艳,王庆,王红艳,等.莱州湾东部潮上带土地利用对海岸蚀退的影响[J].海洋与湖沼,2015,46(6):1347-1357. |
| 57 | 刘百桥,孟伟庆,赵建华,等.中国大陆1990-2013年海岸线资源开发利用特征变化[J].自然资源学报,2015,30(12):2033-2044. |
| 58 | 韩刚,韩立卓,武海江,等.浅析海南岛海岸带的有效保护与合理利用[J].海洋开发与管理,2024,41(2):122-130. |
| 59 | 徐铭晖,林小如,文超祥,等.海岸带土地利用适宜性评价与布局优化研究:基于自然-社会经济脆弱性评估[J].南方建筑,2024(5):106-115. |
| 60 | 焦琦斐,李鹏,吴昕浩,等.海洋渔业碳汇估算方法与应用研究:以环渤海地区为例[J].地理研究,2024,43:6):1611-1626. |
| 61 | 褚晓琳,张皓玥.基于生态系统的海岸带综合管理研究:以广东省湛江市为例[J].海洋湖沼通报,2023,45(6):171-179. |
| 62 | 中国科学院西北生态环境资源研究院.一种单向输沙的沙质海岸或岛屿促淤造陆系统及方法:CN202310986872.9[P]. 2023-09-19. |
| 63 | 自然资源部海岛研究中心,自然资源部第三海洋研究所.一种用于滨海修复沙丘固定的近自然植被分区种植方法:CN202410914330.5[P].2024-11-12. |
| 64 | 国能河北新能源发展有限公司.一种沿海滩涂光伏的桩体固定结构:CN202322224021.9[P].2024-03-29. |
| 65 | 自然资源部第三海洋研究所.一种海岸沙丘修复与养护方法:CN202310322804.2[P].2023-11-28. |
| 66 | 青岛鸿盛源电力工程有限公司.空冷岛冬季防风防冻装置:CN202420369499.2[P].2024-10-18. |
| 67 | 中国科学院西北生态环境资源研究院,南方海洋科学与工程广东省实验室(广州).岛屿珊瑚沙地用蜂巢状固沙设施:CN202110152896.5[P].2021-05-07. |
| 68 | 厦门万银环境科技有限公司.一种利用耐盐植物进行海滨盐碱沙地生态复绿的方法:CN109757146B[P].2022-11-04. |
| 69 | 太原理工大学.一种空冷岛冻结状态在线监测方法:CN201811483881.1[P].2022-11-25. |
| 70 | 北京正和恒基滨水生态环境治理股份有限公司.一种用于海岸带的沙丘防护结构:CN202420375375.5[P].2024-11-01. |
/
| 〈 |
|
〉 |