Effect of suspended kelp culture on water exchange as estimated by in situ current measurement in Sanggou Bay, China

Effect of suspended kelp culture on water exchange as estimated by in situ current measurement in Sanggou Bay, China

Water exchange between Sanggou Bay and the Yellow Sea in China was estimated based on current profiles measured by four bottom-mounted Acoustic Doppler Current Profilers at the entrance of the bay during the kelp seeding and kelp harvesting periods. Hydrodynamics in the bay were dominated by tidal c...

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Bibliographic Details
Published in:Journal of marine systems Vol. 149; pp. 14 - 24
Main Authors: Zeng, Dingyong, Huang, Daji, Qiao, Xudong, He, Yuqing, Zhang, Tao
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2015
Subjects:
China
Culture
Exchange
Flux
Harvesting
Kelp culture
Marine
Nucleation
Prisms
Sanggou Bay
Sea currents
Tidal flux
Tidal prism
Water exchange
INW, Huanghai Sea
INW, China, People's Rep., Sandong Prov., Sanggou Bay
China, People's Rep
Tidal prism
Kelp culture
Tidal flux
Sanggou Bay
Water exchange
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Summary:Water exchange between Sanggou Bay and the Yellow Sea in China was estimated based on current profiles measured by four bottom-mounted Acoustic Doppler Current Profilers at the entrance of the bay during the kelp seeding and kelp harvesting periods. Hydrodynamics in the bay were dominated by tidal currents, especially semi-diurnal constituents. The effect of suspended kelp culture on the water exchange was investigated in terms of the tidal flux and tidal prism of the bay during a semi-diurnal period. Suspended kelp culture was found to significantly affect water exchange by changing the spatial pattern of the tidal flux but not the tidal prism. The inward tidal flux was reduced by 10% to 70% in the upper layers in the kelp seeding to kelp harvesting periods. Meanwhile, the inward tidal flux was increased by 10% to 140% in the lower layers. The mean inward tidal prism was 2.31×108m3 and 2.17×108m3 during the kelp seeding period and kelp harvesting period, respectively. Comparing with previous numerical simulations, our results did not show a prominent reduction in total water exchange across the entrance of the bay by suspended kelp culture. •Suspended kelp culture affects water exchange by changing the spatial pattern of tidal fluxes but not the tidal prisms•Tidal fluxes at surface reduced by 70% at northern entrance from kelp seeding to harvesting periods•Tidal fluxes at near bottom increased 140% at central entrance from kelp seeding to harvesting periods•The total water exchange did not significantly reduce from the kelp seeding to kelp harvesting periods
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ISSN:0924-7963
1879-1573
DOI:10.1016/j.jmarsys.2015.04.002