Abstract
Aphanizomenon spp. have formed harmful cyanobacterial blooms in the Nakdong River during spring, autumn, and now in winter, and the expansion of blooming period and area, associated with the global warming is predicted. The genus Aphanizomenon has been described to produce harmful secondary metabolites such as off-flavors and cyanotoxins. Therefore, the production of harmful secondary metabolites from the Aphanizomenon blooms in the Nakdong River needs to be monitored to minimize the risk to both water quality and public health. Here, we sampled the cyanobacterial blooms in the Nakdong River and isolated ten Aphanizomenon strains, morphologically classified as Aphanizomenon flos-aquae Ralfs ex Bornet et Flahault 1888. Phylogenetic analysis using 16S rRNA and internal transcribed spacer (ITS) region nucleotide sequences confirmed this classification. We further verified the harmful secondary metabolites-producing potential of A. flos-aquae isolates and water samples containing cyanobacterial blooms using PCR with specific primer sets for genes involved in biosynthesis of off-flavor metabolites (geosmin) and toxins (microcystins, saxitoxins and cylindrospermopsins). It was confirmed that these metabolite biosynthesis genes were not identified in all isolates and water samples containing only Aphanizomenon spp. Thus, it is likely that there is a low potential for the production of off-flavor metabolites and cyanotoxins in Aphanizomenon blooms in the Nakdong River.
Highlights
Harmful cyanobacterial blooms are one of the largest global issues regarding the water quality of fresh waters
The 89–97% sequence homology among the A. flos-aquae strains from the Nakdong River, Europe, and the US indicates higher intra-species variation of the nucleotide sequence in internal transcribed spacer (ITS) regions than in 16S rRNA which showed 98–99% sequence homology among the A. flos-aquae strains
Ten A. flos-aquae strains were isolated from the cyanoHAB in the Nakdong River, which were identified by using morphological and phylogenetic analysis and show highly similar genotype regardless of location and season of blooming in the Nakdong River. 89–97% sequence homology among the A. flos-aquae strains from the Nakdong River and Europe and the US indicates high intra-species variation of the nucleotide sequence in ITS, which can be used to trace the geographical variations of A. flos-aquae nucleotide sequences
Summary
Harmful cyanobacterial blooms (cyanoHAB) are one of the largest global issues regarding the water quality of fresh waters. They cause various water utilization problems, including reduction of the value of drinking water sources by causing odors or producing toxic substances harmful to livestock and people and by interfering with recreational activities through formation of cyanobacterial scums on the water surface. It has been predicted that the amount and duration of cyanoHAB will increase along with recent climate changes [1,2]. The Nakdong River is the second largest river in Korea, originating from Hwangji of the Taebaek. In addition to serving as the agricultural and industrial water source, this river serves as the drinking water source
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