Intraspecific Variation in Growth and Alkaline Phosphatase Activity of Cylindrospermopsis raciborskii Strains in Response to Different Phosphorus Concentrations and Sources

Abstract

The cyanobacterial species C. raciborskii are ubiquitous in tropical regions, and its successful invasion into temperate zones has been partially attributed to its ability of survival in low P availability and the existence of multiple ecotypes. To explore the physiological response of different strains to phosphorus fluctuations, four strains of C. raciborskii isolated from the Zhenhai Reservoir were used to investigate their growth and alkaline phosphatase (ALP) activity at different inorganic phosphorus (Pi) concentrations (HP=7.13 mg ·L-1, MP=0.64 mg ·L-1, LP=0.03 mg ·L-1) and different phosphorus forms [dipotassium hydrogen phosphate (K2HPO4), sodium pyrophosphate (K4P2 O7), sodium polyphosphate (K5P3O10), D-glucose-6-phosphate (D-G-6-P), adenosine triphosphate (ATP), cyclic adenosine monophosphate (cAMP)]. Four C. raciborskii strains showed a similar growth response to phosphate changes: their biomass increased with an increase in Pi concentrations, while the ALP activity showed the opposite trend. The ALP activity of C. raciborskii N8 was significantly lower than that of other three strains, regardless of inorganic phosphorus concentrations, suggesting that this strain had a higher adaptability to phosphorus fluctuations. When cultured with different phosphorus forms, the biomass of C. raciborskii N8 and N9 in three dissolved inorganic phosphorus (DIP) compounds were significantly higher than those in three dissolved organic phosphorus (DOP) compounds, with the maximum and minimum specific growth rate in K2HPO4and ATP treatments, respectively. C. raciborskii preferred DIP although they can also utilize DOP to sustain its growth. Under the DOP conditions, the ALP activity of C. raciborskii N8 in the ATP treatment was significantly higher than that in the other two organic phosphorus compounds, while we did not observe similar results in C. raciborskii N9, indicating that strain N8 was more sensitive to DIP deficiency. Our results showed an intraspecific variation within C. raciborskii strains from the same reservoir. Compared with the other strains, strain N8 represented better adaptability to phosphorus fluctuations and DIP deficiency. Variations within C. raciborskii strains may make this species more adaptable to environmental changes and enhance its competitive advantage.