Research

Publications
Title: Recovery of Microcystis surface scum following a mixing event: Insights from a tank experiment
First author: Wu, Xingqiang; Yang, Tiantian; Feng, Shanshan; Li, Lin; Xiao, Bangding; Song, Lirong; Sukenik, Assaf; Ostrovsky, Ilia
Journal: SCIENCE OF THE TOTAL ENVIRONMENT
Years: 2020
Volume / issue: 728 /
DOI: 10.1016/j.scitotenv.2020.138727
Abstract: Cyanobacteria of the genus Microcystis produces surface scum that negatively affects water quality in inland waters. This scum layer can be disintegrated and vertically dispersed by external forces (e.g., wind mixing), followed by reformation of surface scum as buoyant Microcystis colonies migrate upward. However, the recovery dynamics of Microcystis surface scum following a strong mixing event have rarely been studied. Here, we used a tank experiment to investigate the process of Microcystis surface scum recovery after a mixing event with focus on dynamics of colonies of different size classes and their contribution to that process. Microcystis colony size distribution and colony volume concentration was measured using a laser in-situ scattering and transmissometry instrument. The dynamics of Microcystis in the water column and upward colony migration velocity were strongly dependent on colony size. Larger colonies (> 180 mu m) with fast upward migration rates contributed the most to surface scum formation shortly after turbulence subsided. The contribution of slowly migrating smaller colonies to scum formation was observed over notably longer time. The estimated floating velocities of large colonies ranged 0.15 to 0.46 m h(-1) depending on colony size and were 5-15 times higher than those of smaller colonies (similar to 0.03 m h(-1)). The changes in colony size distribution of Microcystis in the water column reflect the dynamics of surface scum. Analysis of size distribution of Microcystis colonies can be used for better understanding and prediction of Microcystis surface scum development in water bodies.