Monitoring of the physiological responses of marine fishes to construction and operation noise from offshore wind farms

Journal Article

Title: Monitoring of the physiological responses of marine fishes to construction and operation noise from offshore wind farms

Author:

Kim, B.; Jin, G.; Byeon, Y.; Park, S.; Song, H.; Lee, C.; Lee, J.; Noh, J.; Khim, J.

Publication Date:

September 1, 2025

Journal:

Marine Pollution Bulletin

Volume:

218

Pages:

118139

Publisher:

Elsevier Ltd.

Affiliation

Seoul National University, Marine Eco-Technology Institute Co., Ltd., Korea Institute of Ocean Science and Technology (KIOST), Kongju National University, Sejong University, Seoul National University

Technology:

Wind Energy

Stressor:

Noise

Receptor:

Fish

Language:

English

Document Access

Website:

External Link

Attachment:

Access File

Citation

Kim, B.; Jin, G.; Byeon, Y.; Park, S.; Song, H.; Lee, C.; Lee, J.; Noh, J.; Khim, J. (2025). Monitoring of the physiological responses of marine fishes to construction and operation noise from offshore wind farms. Marine Pollution Bulletin, 218, 118139. https://doi.org/10.1016/j.marpolbul.2025.118139

@article{Kim-2025-,
author = {Kim, B and Jin, G and Byeon, Y and Park, S and Song, H and Lee, C and Lee, J and Noh, J and Khim, J},
title = {Monitoring of the physiological responses of marine fishes to construction and operation noise from offshore wind farms},
journal = {Marine Pollution Bulletin},
year = {2025},
month = {sep},
publisher = {Elsevier Ltd.},
volume = {218},
pages = {118139},
doi = {10.1016/j.marpolbul.2025.118139},
url = {https://www.sciencedirect.com/science/article/pii/S0025326X25006149},
keywords = {Wind Energy, Noise, Fish},
}

Export Citation to BibTex

TY - JOUR
TI - Monitoring of the physiological responses of marine fishes to construction and operation noise from offshore wind farms
AU - Kim, B
AU - Jin, G
AU - Byeon, Y
AU - Park, S
AU - Song, H
AU - Lee, C
AU - Lee, J
AU - Noh, J
AU - Khim, J
T2 - Marine Pollution Bulletin
AB - With the rapid expansion of offshore wind energy, concerns have emerged regarding its effects on marine organisms. This study evaluated physiological responses of juvenile Larimichthys crocea and Paralichthys olivaceus to underwater noise from offshore wind farms, including pile driving and turbine operation. Oxygen consumption rate (OCR), osmolality, and catecholamine levels were measured. Compared to controls, L. crocea exposed to 24-h pile driving noise showed a significantly higher OCR (0.316 vs. 0.225 mg O2 g−1 h−1, p < 0.01) and elevated osmolality (271 vs. 224 mOsm kg−1, p < 0.05). In contrast, P. olivaceus showed significantly lower OCR (0.105 vs. 0.113 mg O2 g−1 h−1, p < 0.01). Catecholamine levels remained unchanged in both species. Notably, these nocturnal species exhibited heightened sensitivity to noise at night. Turbine operation noise elicited no significant physiological responses. These findings emphasize species-specific responses and highlight the need to consider underwater noise in marine ecosystem management.
DA - 2025/09//
PY - 2025
PB - Elsevier Ltd.
VL - 218
SP - 118139
UR - https://www.sciencedirect.com/science/article/pii/S0025326X25006149
DO - 10.1016/j.marpolbul.2025.118139
LA - English
KW - Wind Energy
KW - Noise
KW - Fish
ER -

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Abstract

With the rapid expansion of offshore wind energy, concerns have emerged regarding its effects on marine organisms. This study evaluated physiological responses of juvenile Larimichthys crocea and Paralichthys olivaceus to underwater noise from offshore wind farms, including pile driving and turbine operation. Oxygen consumption rate (OCR), osmolality, and catecholamine levels were measured. Compared to controls, L. crocea exposed to 24-h pile driving noise showed a significantly higher OCR (0.316 vs. 0.225 mg O₂ g⁻¹ h⁻¹, p < 0.01) and elevated osmolality (271 vs. 224 mOsm kg⁻¹, p < 0.05). In contrast, P. olivaceus showed significantly lower OCR (0.105 vs. 0.113 mg O₂ g⁻¹ h⁻¹, p < 0.01). Catecholamine levels remained unchanged in both species. Notably, these nocturnal species exhibited heightened sensitivity to noise at night. Turbine operation noise elicited no significant physiological responses. These findings emphasize species-specific responses and highlight the need to consider underwater noise in marine ecosystem management.