EFFECTS OF Avicennia marina MANGROVE SEDIMENTATION ON WAVE ATTENUATION

Jurnal Teknologi Pub Date : 2024-01-15 DOI:10.11113/jurnalteknologi.v86.19492

A. Herison, D. Bengen, A. D. Putra, Y. Romdania, Farah Diba Arief

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Abstract

Mangrove ecosystems protect coastlines from abrasion and erosion, dampen strong winds against oceans, and bind sediment periodically. The purpose of the study was to determine the effects of Avicennia marina sedimentation on wave attenuation. The employed methods in this research were spot-check, transect-squared, and laboratory test methods. The measurement of the wave data involved SBE 26 and RBRDuo T.D. They were carried out at 5 stations with thicknesses of 3 m, 5 m, 10 m, 20 m, and 50 m respectively. The percentages of the wave energy attenuation were 49.5%, 53.8%, 82.9%, 91.4%, and 92.3%, with grain diameter percentages of 19.36%, 19.75%, 19.87%, and 21.27%. The higher the percentage of wave attenuation, the smaller the percentage of grains, and vice versa. When a wave arrives, the energy is so large that each large particle of the sediment in the sea is brought back to the mangrove ecosystem. When the wave disappears, the released energy gets so smaller that only small particles are taken back to the sea. The conclusion of this study is that the diameter percentage of mangrove sediment was related to the percentage of wave attenuation. The greater the percentage of wave attenuation, the smaller the percentage of grains.

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Avicennia marina 红树林沉降对波浪吞吐量的影响

红树林生态系统保护海岸线免受磨损和侵蚀，抑制强风对海洋的侵袭，并定期吸附沉积物。这项研究的目的是确定 Avicennia marina 沉积物对波浪衰减的影响。本研究采用的方法有定点检查法、横断面方形法和实验室测试法。波浪数据的测量采用了 SBE 26 和 RBRDuo T.D.，分别在厚度为 3 米、5 米、10 米、20 米和 50 米的 5 个站点进行。波浪能量衰减百分比分别为 49.5%、53.8%、82.9%、91.4% 和 92.3%，粒径百分比分别为 19.36%、19.75%、19.87% 和 21.27%。波浪衰减的百分比越高，晶粒的百分比就越小，反之亦然。当波浪来临时，能量非常大，海中每一个大颗粒的沉积物都会被带回红树林生态系统。当海浪消失时，释放的能量变小，只有小颗粒被带回大海。这项研究的结论是，红树林沉积物的直径百分比与波浪衰减百分比有关。波浪衰减的百分比越大，颗粒的百分比就越小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Jurnal Teknologi

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审稿时长

20 weeks