Jerome Wai Kit Kok scite author profile

Blooms of the raphidophyte Chattonella subsalsa have been associated with massive fish-kill events in several parts of the world. However, there have been few studies into physiological responses of tropical strains that could contribute to bloom outcomes. Such knowledge could provide insight into the C. subsalsa blooms recently documented within tropical coastal waters (e.g., 2010 and 2012 events in Singapore). Strains used in this study were isolated from the East Johor Straits (EJS), Singapore, an enclosed water channel frequently subjected to high levels of eutrophication. These cells were classified within the 'global' clade (and distinct from the 'Adriatic Sea' clade) based on morphology. The present study examined cellular responses to varying inputs of different forms of nitrogen (N), specifically nitrate, ammonium, and urea. Results from the study indicated that cells were unable to utilize urea as an N-source, but grew well on a nitrate (V max = 0.73 day −1 ) and ammonium (V max = 0.81 day −1 ) supply. These growth rates were high compared to other strains from around the world, indicating that tropical C. subsalsa could exhibit elevated bloom potential within frequently eutrophic environments such as the EJS. Six pigments were detected in all cultures. These pigments were chlorophylls a and c; fucoxanthin; diadinoxanthin; violaxanthin; and β-carotene. Chlorophyll-a and fucoxanthin were the dominant pigments under both nitrate and ammonium regimes. Measurements of chromophoric dissolved organic matter generally increased both in molecular weight and in total content across the N-concentration ranges. Such outcomes could have consequences for the chemical and optical conditions of the coastal environment.

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Coexistence of Synechococcus and Microcystis Blooms in a Tropical Urban Reservoir and Their Links with Microbiomes

Kok

Luo

et al. 2023

Environ. Sci. Technol.

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Bacteria play a crucial role in driving ecological processes in aquatic ecosystems. Studies have shown that bacteria−cyanobacteria interactions contributed significantly to phytoplankton dynamics. However, information on the contribution of bacterial communities to blooms remains scarce. Here, we tracked changes in the bacterial community during the development of a cyanobacterial bloom in an equatorial estuarine reservoir. Two forms of blooms were observed simultaneously corresponding to the lotic and lentic characteristics of the sampling sites where significant spatial variabilities in physicochemical water quality, cyanobacterial biomass, secondary metabolites, and cyanobacterial/ bacterial compositions were detected. Microcystis dominated the upstream sites during peak periods and were succeeded by Synechococcus when the bloom subsided. For the main body of the reservoir, a mixed bloom featuring coccoid and filamentous cyanobacteria (Microcystis, Synechococcus, Planktothricoides, Nodosilinea, Raphidiopsis, and Prochlorothrix) was observed. Concentrations of the picocyanobacteria Synechococcus remained high throughout the study, and their positive correlations with cylindrospermopsin and anatoxin-a suggested that they could produce cyanotoxins, which pose more damaging impacts than previously supposed. Succession of different cyanobacteria (Synechococcus and Microcystis) following changes in nutrient composition and ionic strength was demonstrated. The microbiomes associated with blooms were unique to the dominant cyanobacteria. Generic and specialized bloom biomarkers for the Microcystis and downstream mixed blooms were also identified. Microscillaceae, Chthoniobacteraceae, and Roseomonas were the major heterotrophic bacteria associated with Microcystis bloom, whereas Phycisphaeraceae and Methylacidiphilaceae were the most prominent groups for the Synechococcus bloom. Collectively, bacterial community can be greatly deviated by the geological condition, monsoon season, cyanobacterial density, and dominant cyanobacteria.

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Jerome Wai Kit Kok

Novel cyanotoxin-producing Synechococcus in tropical lakes

Growth and physiological responses of a tropical toxic marine microgalga Heterosigma akashiwo (Heterokontophyta: Raphidophyceae) from Singapore waters to varying nitrogen sources and light conditions

Nutrient conditions and the occurrence of a Karenia mikimotoi (Kareniaceae) bloom within East Johor Straits, Singapore

Growth, pigment, and chromophoric dissolved organic matter responses of tropical Chattonella subsalsa (Raphidophyceae) to nitrogen enrichment

Coexistence of Synechococcus and Microcystis Blooms in a Tropical Urban Reservoir and Their Links with Microbiomes

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