Abstract
The efforts towards reduction of nutrient contamination of surface waters have greatly gained attention to mitigate increasing incidences of harmful cyanobacterial blooms (CyanoHABs), but little attention has been paid on the roles and importance of cyanobacterial N2-fixation and phosphorus (P) scavenging pathways during cyanoHABs. Meta-transcriptomic analyses revealed that expressions of genes involved in N2-fixation (nifDKH) and P-scavenging were significantly upregulated during the bloom compared to pre-bloom in Harsha Lake. The activities of N2-fixation occurred during early summer after a late spring phytoplankton bloom, and were associated with high phosphorus and low nitrogen. The highly active cyanobacterial N2-fixers were dominated by Nostoc and Anabaena. Following the activities of N2-fixation and production of new nitrogen, an early summer Microcystis-dominated bloom, a shift of dominance from Nostoc and Anabaena to Microcystis and an increase of microcystin and saxitoxin occurred. By contrast, P-scavenging activities dominated also by Nostoc and Anabaena were associated with low P and the Microcystis bloom. This information can be used to aid in the understanding the impact that nitrogen and phosphorus have on the early summer CyanoHAB and the functional activities of Nostoc- and Anabaena-dominated or Microcystis-dominated communities, and aid in making management decisions related to harmful algal blooms.
Highlights
Harmful cyanobacterial blooms (CyanoHABs) are the outcome of eutrophication of water bodies
In assessing how nutrients act on cyanobacterial blooms, most studies have focused on the role of nutrient loading mainly from human activities
The meta-transcriptomic analysis of this study was based on the following information: (1) weekly variations of community structures of phytoplankton with emphasis on toxic cyanobacteria[4], the weekly (May-October) and daily (June) variations of MC and MC-producers using quantitative polymerase chain reaction (qPCR) and reverse transcription qPCR (RT-qPCR) [Lu et al submitted], and dominant cyanobacterial compositions based on 16S rRNA Illumina sequencing from May to October[17]
Summary
Harmful cyanobacterial blooms (CyanoHABs) are the outcome of eutrophication of water bodies. The meta-transcriptomic analysis of this study was based on the following information: (1) weekly variations of community structures of phytoplankton with emphasis on toxic cyanobacteria[4], the weekly (May-October) and daily (June) variations of MC and MC-producers using qPCR and RT-qPCR [Lu et al submitted], and dominant cyanobacterial compositions based on 16S rRNA Illumina sequencing from May to October[17] This novel approach in intensive sampling and comprehensive community analysis provided us complete information of microbial community structures and successions and enabled us to select samples representative of different blooming stages. Under such experimental design, we examined: (1) the changes of global gene-expressions between the pre-bloom and during-bloom periods, and (2) the associations of those upregulated genes with the levels of nitrogen and phosphorus, and with to dominant cyanobacterial abundance and production of cyanotoxin in a eutrophic lake in Ohio
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