Sediment transport pathways and organic carbon burial impacted by offshore wind farms in shelf seas

Journal Article

Title: Sediment transport pathways and organic carbon burial impacted by offshore wind farms in shelf seas

Author:

Chen, J.; Christiansen, N.; Porz, L.; Miao, B.; Ma, M.; Schrum, C.; Zhang, W.

Publication Date:

March 14, 2026

Journal:

Communications Earth & Environment

Volume:

Issue:

262

Pages:

Publisher:

Springer Nature

Affiliation

Helmholtz-Zentrum Hereon

Technology:

Wind Energy, Fixed Offshore Wind

Stressor:

Attraction, Changes in Flow

Receptor:

Ecosystem Processes, Physical Environment, Sediment Transport

Language:

English

Document Access

Website:

External Link

Attachment:

Access File

Citation

APA
BibTex
RIS

Chen, J.; Christiansen, N.; Porz, L.; Miao, B.; Ma, M.; Schrum, C.; Zhang, W. (2026). Sediment transport pathways and organic carbon burial impacted by offshore wind farms in shelf seas. Communications Earth & Environment, 7(262), 12. https://doi.org/10.1038/s43247-026-03390-6

@article{Chen-2026-,
author = {Chen, J and Christiansen, N and Porz, L and Miao, B and Ma, M and Schrum, C and Zhang, W},
title = {Sediment transport pathways and organic carbon burial impacted by offshore wind farms in shelf seas},
journal = {Communications Earth & Environment},
year = {2026},
month = {mar},
publisher = {Springer Nature},
volume = {7},
number = {262},
pages = {12},
doi = {10.1038/s43247-026-03390-6},
url = {https://www.nature.com/articles/s43247-026-03390-6},
keywords = {Wind Energy, Fixed Offshore Wind, Attraction, Changes in Flow, Ecosystem Processes, Physical Environment, Sediment Transport},
}

Export Citation to BibTex

TY - JOUR
TI - Sediment transport pathways and organic carbon burial impacted by offshore wind farms in shelf seas
AU - Chen, J
AU - Christiansen, N
AU - Porz, L
AU - Miao, B
AU - Ma, M
AU - Schrum, C
AU - Zhang, W
T2 - Communications Earth & Environment
AB - The rapid expansion of offshore wind farms increasingly impacts ocean environments. Little is known concerning synergistic effects of wind farms on large-scale sediment transport and seabed ecosystem functioning. Here, by using a three-dimensional hydro-morphodynamic model integrating wake effects, we assessed wind farm impacts on regional-scale sediment transport and organic carbon sedimentation in the North Sea. Results suggest that wind farms can alter net sediment transport fluxes by up to 30% locally, reduce mud accumulation in established depocenters and create new depocenters through long-term accumulative effects. These shifts, driven by changes in stratification and residual currents, redistribute up to 1.5 million tonnes of mud and 0.07 million tonnes of particulate organic carbon annually. Wind farms also retain ~1.5% of annual riverine sediment input to the ocean, affecting connectivity with nearshore systems like the Wadden Sea. These findings underscore the need to consider the system-wide impacts in marine spatial planning.
DA - 2026/03//
PY - 2026
PB - Springer Nature
VL - 7
IS - 262
SP - 12
UR - https://www.nature.com/articles/s43247-026-03390-6
DO - 10.1038/s43247-026-03390-6
LA - English
KW - Wind Energy
KW - Fixed Offshore Wind
KW - Attraction
KW - Changes in Flow
KW - Ecosystem Processes
KW - Physical Environment
KW - Sediment Transport
ER -

Export Citation to RIS

Abstract

The rapid expansion of offshore wind farms increasingly impacts ocean environments. Little is known concerning synergistic effects of wind farms on large-scale sediment transport and seabed ecosystem functioning. Here, by using a three-dimensional hydro-morphodynamic model integrating wake effects, we assessed wind farm impacts on regional-scale sediment transport and organic carbon sedimentation in the North Sea. Results suggest that wind farms can alter net sediment transport fluxes by up to 30% locally, reduce mud accumulation in established depocenters and create new depocenters through long-term accumulative effects. These shifts, driven by changes in stratification and residual currents, redistribute up to 1.5 million tonnes of mud and 0.07 million tonnes of particulate organic carbon annually. Wind farms also retain ~1.5% of annual riverine sediment input to the ocean, affecting connectivity with nearshore systems like the Wadden Sea. These findings underscore the need to consider the system-wide impacts in marine spatial planning.