ECO-SYSTEM BASED BEACH EROSION CONTROL BY BERM NOURISHMENT COMBINED WITH BURIED SAND TUBE

Shinji Sato; Keisuke Murakami; Kunihiro Watanabe; Yuuichi Okamura; Shin Hashimoto; Masahiro Ohno

doi:10.9753/icce.v36.risk.102

No. 36 (2018), Coastal Management, Environment, and Risk

No. 36 (2018)

ECO-SYSTEM BASED BEACH EROSION CONTROL BY BERM NOURISHMENT COMBINED WITH BURIED SAND TUBE

Coastal Management, Environment, and Risk

https://doi.org/10.9753/icce.v36.risk.102

Published 2018-12-30

Shinji Sato
Keisuke Murakami
Kunihiro Watanabe
Yuuichi Okamura
Shin Hashimoto
Masahiro Ohno

Shinji Sato

Keisuke Murakami

Kunihiro Watanabe

Yuuichi Okamura

Shin Hashimoto

Masahiro Ohno

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Sato, S., Murakami, K., Watanabe, K., Okamura, Y., Hashimoto, S., & Ohno, M. (2018). ECO-SYSTEM BASED BEACH EROSION CONTROL BY BERM NOURISHMENT COMBINED WITH BURIED SAND TUBE. Coastal Engineering Proceedings, 1(36), risk.102. https://doi.org/10.9753/icce.v36.risk.102

Abstract

Miyazaki Coast is a 10 km stretch sandy beach between the Miyazaki Port and the Hitotsuse River, located south of Japan facing the Pacific Ocean. Significant beach erosion has been observed owing to the entrapment of sand in the harbor area and the blockage of longshore sand transport by the river mouth jetties. Sato et al. (ICCE 2010) estimated that the direction of the long-term longshore sand transport is to the southward on the basis of thermo-luminescence measurement of beach sediments. Continuous bathymetry surveys indicated the southward longshore sand transport rate at 200 thousand m3/year. However, a large variability of the incident wave direction suggested the variability in the direction of the longshore transport. Occasional attacks of typhoon storms appeared to accelerate the erosion. As a countermeasure to mitigate the erosion, sand nourishment has been introduced since 2008 with the amount of 50 to 80 thousand m3/year. Three groins were constructed to decrease the longshore transport. However, further erosion has been observed by typhoon storms even on the nourished area. This paper describes the results of on-site monitoring of waves, currents and topography change to understand the role of typhoon storms in beach erosion and to investigate the performance of eco-system based erosion control works.

https://doi.org/10.9753/icce.v36.risk.102

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References

Sato, S., Kishimoto S. and Hiramatsu H.: Long-term evolution of sand and gravel beaches on the Miyazaki Coast, ICCE 2010.

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ECO-SYSTEM BASED BEACH EROSION CONTROL BY BERM NOURISHMENT COMBINED WITH BURIED SAND TUBE

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