5 nM (Fig 3c), Zn2+ was higher than 12 nM (Fig 3e), or Cu2+ was

5 nM (Fig. 3c), Zn2+ was higher than 12 nM (Fig. 3e), or Cu2+ was higher than 50 nM (Fig. 3f). In Fraquil medium with 1000 nM Fe3+, luciferase activity of the bioreporter was not influenced by the increase in Co2+, Zn2+, and Cu2+ concentrations. Therefore, when assessing bioavailable iron by bioreporter Palr0397-luxAB in natural freshwaters, the concentrations of Co2+, Zn2+, and Cu2+ should be taken into account. Luciferase activity of bioreporter Palr0397-luxAB in water samples from Taihu, Donghu, and Chaohu lakes were all within the linear range of the dose–response curve. Bioavailable iron concentrations (pFe) of three water samples from Taihu, Donghu, and Chaohu lakes calculated with

the linear Eqn. (2) were 19.61 (Fe3+ = 10−19.61 M), 19.94 (Fe3+ = 10−19.94 M), and 19.79 (Fe3+ = 10−19.79 M), respectively, this website and total dissolved iron in these

samples determined by GFAAS was 183.1, 147.3, and 131.3 nM (Table 1). The availability of iron to organisms is dependent on (1) total concentration of the iron; (2) its chemical speciation; and (3) how the physical–chemical properties (such as temperature, pH, and higher-affinity ligands) of a system alter that speciation (Buffle, 1988). In lakes, because of the interaction of iron with dissolved organic matter (DOM), iron binds to the aliphatic GKT137831 clinical trial and aromatic carboxyl and hydroxyl functional groups of DOM to form dissolved complexes. The chelating properties

of DOM and the formation of DOM–Fe and DOM–Fe–P complexes probably make them not directly available to organisms (Maranger & Pullin, 2003). It can be deduced that iron exists mainly in the form of iron chelates in the three lakes. Bioavailable pFe with 20.55 (Fe3+ = 10−20.55 M) and 20.9 (Fe3+ = 10−20.9 M) and dissolved iron with 74.6 and 12.1 nM were measured at two stations of Lake Erie by bioreporter KAS101 of Synechococcus sp. PCC 7942 (Durham et al., 2002). In addition, because of the different physical–chemical parameters in the aquatic environments, iron availability may not coincide with the increase in the concentration of the dissolved iron (Hassler et al., 2006). High click here pFe is observed in the water samples from Taihu Lake, which might result from its low pH value. The data of TN and TP in the three lakes indicate that they are all seriously polluted. However, compared with the two other eutrophic lakes, Donghu Lake possesses the lower bioavailable iron, although with a high dissolved iron, indicating a possible explanation of the disappearance of cyanobacterial bloom there. Different from previous studies, bioreporter Palr0397-luxAB of Nostoc sp. PCC 7120 has wider responsive range of Fe3+ (pFe = 18.8–21.7, Fe3+ = 10−18.8–10−21.7 M) and is an ideal quantitative tool to assess bioavailable iron in various water quality samples, especially in eutrophic lakes with high total iron.

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