Predicting nature- based coastal protection by mangroves under extreme waves

Publication date

2025-03-25

Authors

Hu, Zhan
Temmerman, Stijn
Zhu, Qin
Wang, Xinran
Wu, Jinwei
Xu, Tianping
Schoutens, Ken
Suzuki, Tomohiro
Yang, Zhifeng
Bouma, TjeerdISNI 0000000393202930

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

cc_by_nc_nd

Abstract

Forested wetlands such as mangroves are considered highly valuable for nature- based mitigation of coastal flooding. However, their wave attenuation capacity during extreme storms, when risks are highest, is rarely measured and remains challenging to predict. Here, we compile a unique dataset on the largest incident wave heights (0.39 to 1.44 m) ever recorded in forested wetlands, including our own measurements and literature data. Our analysis reveals that forested wetlands can significantly attenuate storm waves (35% over 3 wavelengths) except in rare near- submerged cases. Notably, 19 of the 20 existing formulations for vegetation drag coefficient, a key parameter for wave attenuation modeling, are inapplicable in storm conditions. Hence, we introduce an new approach to reliably predict wave attenuation during storms, without the need for drag coefficient determination nor modeling expertise. This approach offers coastal practitioners a new user- friendly tool to assess the effectiveness of nature- based solutions for storm hazard mitigation.

Keywords

coastal protection, extreme waves, mangroves, nature-based solutions, wave modeling, General

Citation

Hu, Z, Temmerman, S, Zhu, Q, Wang, X, Wu, J, Xu, T, Schoutens, K, Suzuki, T, Yang, Z & Bouma, T J 2025, 'Predicting nature- based coastal protection by mangroves under extreme waves', Proceedings of the National Academy of Sciences of the United States of America, vol. 122, no. 12, e2410883122. https://doi.org/10.1073/pnas.2410883122