Abstract
Lake Taihu is the third largest freshwater lake in China and is suffering from serious cyanobacterial blooms with the associated drinking water contamination by microcystin (MC) for millions of citizens. So far, most studies on MCs have been limited to two small bays, while systematic research on the whole lake is lacking. To explain the variations in MC concentrations during cyanobacterial bloom, a large-scale survey at 30 sites across the lake was conducted monthly in 2008. The health risks of MC exposure were high, especially in the northern area. Both Microcystis abundance and MC cellular quotas presented positive correlations with MC concentration in the bloom seasons, suggesting that the toxic risks during Microcystis proliferations were affected by variations in both Microcystis density and MC production per Microcystis cell. Use of a powerful predictive modeling tool named generalized additive model (GAM) helped visualize significant effects of abiotic factors related to carbon fixation and proliferation of Microcystis (conductivity, dissolved inorganic carbon (DIC), water temperature and pH) on MC cellular quotas from recruitment period of Microcystis to the bloom seasons, suggesting the possible use of these factors, in addition to Microcystis abundance, as warning signs to predict toxic events in the future. The interesting relationship between macrophytes and MC cellular quotas of Microcystis (i.e., high MC cellular quotas in the presence of macrophytes) needs further investigation.
Highlights
Toxic cyanobacterial blooms in eutrophic lakes, rivers and reservoirs are encountered worldwide [1,2,3]
Results of generalized additive model (GAM) and test on previous data Lake Taihu was an ideal system to study the complex mechanisms of various environmental parameters affecting MCproducing capability of Microcystis spp. for the naturally high levels of MCs observed in water and the high abundance of Microcystis in the bloom seasons
From the results described above, the northern area was seriously polluted by toxic Microcystis
Summary
Toxic cyanobacterial blooms in eutrophic lakes, rivers and reservoirs are encountered worldwide [1,2,3]. Microcystins (MCs) produced by some species of freshwater cyanobacteria are potent hepatotoxins and tumor promoters by inhibiting protein phosphatase types 1 and 2A [4,5]. They can transfer via the food chain and accumulate in organisms [6,7], causing poisoning even death of plants, invertebrates, fish, birds and mammals [8,9,10,11] in addition to effects on human health through chronic exposure [12,13]. It remains a great challenge to investigate how environmental factors interactively affect the toxicity of cyanobacteria. Intensive and large-scale field surveys based on an effective model for data analysis are badly needed
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