Factors affecting harmful algal bloom occurrence in a river with regulated hydrology

•Factors affecting HAB occurrences were assessed using EFDC model.•Use of net growth limitation was suggested as an indicator for algal growth potential.•Lagrangian particle tracking method was used to estimate the algal residence time.•Relationship between residence time and algal growth seems to b...

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Bibliographic Details
Published in:Journal of hydrology. Regional studies 2021-02, Vol.33, p.100769, Article 100769
Main Authors: Kim, Jaeyoung, Jones, John R., Seo, Dongil
Format: Article
Language:English
Subjects:
Harmful algal blooms
Hydraulic residence time
Hydrodynamic and water quality model
Net growth limitation
Regulated river
Weir gate control
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Summary:•Factors affecting HAB occurrences were assessed using EFDC model.•Use of net growth limitation was suggested as an indicator for algal growth potential.•Lagrangian particle tracking method was used to estimate the algal residence time.•Relationship between residence time and algal growth seems to be the most important.•Maximum cyanobacteria in the downstream reach doubled during summer with open gates. The Geum River Basin, South Korea. In-stream structures potentially amplify harmful algal blooms (HABs) by increasing water residence time and deteriorating water quality. Removal or gate control of in-stream structures is considered a management tool to reduce HAB occurrence. Prior evaluation, however, is necessary to assess the effect of structural modifications to control HABs. This study focused on factors affecting HAB occurrence relative to the operation of 3 in-stream weirs using a 3-dimensional hydrodynamic and water quality model. Physical changes due to gate opening could not guarantee an improvement in water quality and reduction in cyanobacterial biomass. Cyanobacteria, a major component of HABs, decreased in the upstream reach but conditions deteriorated downstream during summer. Maximum cyanobacteria concentrations in the downstream reach almost doubled during summer with the open-gate scenario. Although the open-gate flow allowed less time for algal growth, (1) increased light availability with decreased water depth and (2) dissolved phosphorus, which was not depleted upstream, promoted cyanobacterial growth. Consequently, the proliferation of cyanobacterial blooms downstream was due to conditions that enhanced algal growth, despite reduced hydraulic residence time under the open-gate scenario. This analysis indicates that hydrologic regulation may not improve water quality and also may affect spatial and temporal distribution of cyanobacteria in the system. Reducing HABs will likely require a reduction in the pollution load.
ISSN:2214-5818
2214-5818
DOI:10.1016/j.ejrh.2020.100769