| 红树林生态系统中潮滩与植物消浪特性试验 |
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| 引用本文: | 朱小伟,侯堋,陈俊昂,刘晓建,王强,王世俊.红树林生态系统中潮滩与植物消浪特性试验[J].河海大学学报(自然科学版),2023,51(6):99-106. |
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| 作者姓名: | 朱小伟 侯堋 陈俊昂 刘晓建 王强 王世俊 |
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| 作者单位: | 1. 珠江水利委员会珠江水利科学研究院;2. 水利部珠江河口海岸工程技术研究中心;3. 水利部珠江河口治理与保护重点实验室;4. 广东省水利电力勘测设计研究院有限公司 |
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| 基金项目: | 国家重点研发计划项目(2021YFC3001000,2022YFC3202200);;华东师范大学国家河口海岸学重点实验室开放课题(SKLEC-KF202110); |
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| 摘 要: | 采用室内水槽物理模型试验研究了潮滩、植物和红树林生态系统的消浪特性,量化了潮滩对红树林生态系统波高衰减的贡献。结果表明:随着植物淹没度的增大,潮滩、红树林生态系统的波高比均逐渐增大,即消浪效果越来越弱,而植物的波高比则是先减小再增大,水位在树冠中心时消浪率远高于其他植物部位;随着相对波高的增大,潮滩的波高比先稳定在1.0附近然后再减小,红树林生态系统的波高比逐渐减小,而植物的波高比先减小再增大;随着波长与植物带宽度的相对宽度增大,潮滩的波高比先略减小再增大,但多数稳定在1.0附近,而植物与红树林生态系统的波高比先增大再略微减小;潮滩对红树林生态系统波高衰减贡献随淹没度减小逐渐增大,最大可达63%;波浪在红树林生态系统传播过程呈非线性衰减,单位长度的波高衰减率在植物带前1/4宽度远大于后3/4宽度。
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| 关 键 词: | 红树林生态系统 植物 潮滩 不规则波 消浪特性 高效区间 |
| 收稿时间: | 2022/11/14 0:00:00 |
Experimental study on wave attenuation characteristics of tidal flat and vegetation in mangrove ecosystem |
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| ZHU Xiaowei,HOU Peng,CHEN Junang,LIU Xiaojian,WANG Qiang,WANG Shijun.Experimental study on wave attenuation characteristics of tidal flat and vegetation in mangrove ecosystem[J].Journal of Hohai University (Natural Sciences ),2023,51(6):99-106. |
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| Authors: | ZHU Xiaowei HOU Peng CHEN Junang LIU Xiaojian WANG Qiang WANG Shijun |
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| Institution: | Pearl River Water Resources Research Institute, Ministry of Water Resources, Guangzhou 510611, China;Research Center of Engineering Technology of the Pearl River Coast and Estuary of the Ministry of Water Resources, Guangzhou 510611, China;Pearl River Water Resources Research Institute, Ministry of Water Resources, Guangzhou 510611, China;Key Laboratory of the Pearl River Estuary Regulation and Protection of Ministry of Water Resources, Guangzhou 510611, China;Guangdong Hydropower Planning and Design Institute Co., Ltd., Guangzhou 510635, China |
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| Abstract: | A physical model experiment was carried out in the laboratory flume to study the wave attenuation characteristics of tidal flat, vegetation and mangrove ecosystem, while the wave-height attenuation contribution of tidal flat to the mangrove ecosystem was quantitatively analyzed. The results show that with the increase of vegetation submergence, the wave height ratio of tidal flat and mangrove ecosystem increases gradually, namely the wave attenuation effect is getting weaker and weaker. The wave height ratio of vegetation first decreases and then increases, and the wave height ratio of vegetation is much higher than that of other vegetation parts when the water level is in the center of vegetation canopy. With the increase of relative wave height, the wave height ratio of tidal flat first stabilizes around 1.0 and then decreases, and the wave height ratio of mangrove ecosystem gradually decreases, while the wave height ratio of the vegetation first decreases and then increases. With the increase of relative width, the wave height ratio of tidal flat first decreases slightly and then increases, but most of them stabilize around 1.0, while the wave height ratio of vegetation and mangrove ecosystem first increases and then decreases slightly. The contribution of tidal flat to the wave height attenuation of mangrove ecosystem increases with the decreases of vegetation submergence, and the maximum contribution can reach 63%. Wave propagation in the mangrove ecosystem is characterized by the nonlinear attenuation and the attenuation rate of wave height per unit length is much larger in the first quarter width than that in the last three quarters width of the vegetation belt. |
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| Keywords: | mangrove ecosystem vegetation tidal flat irregular wave wave attenuation high efficiency district |
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