Acclimation of Cyanobacterial Communities in Rice Fields and Response of Nitrogenase Activity to Light Regime

Abstract

The short-term and long-term effects of light regime on nitrogenase activity (NA) and cyanobacterial communities in rice fields (Valencia, Spain) were examined. Daily variation in nitrogen fixation was measured during three periods of the crop cycle: tillering (formation of secondary stems in the rice plants), heading (formation of reproductive structures), and maturity. Two locations were examined over two consecutive years (1994 and 1995). Despite differences in the crop-cycle periods, location, and year, a consistent pattern of nitrogen fixation was observed, with a main activity peak in the morning and another in the late evening. Short-term experiments, performed on two cyanobacterial blooms (Nostoc sp. and Anabaena sp.) exposed to natural light under plant canopy (7% incidence irradiance), and to different light intensities under neutral density screens without plant cover (full sunlight, 43%, 26%, and 13% of incident irradiance), indicated that nitrogenase activity (NA) was dependent on both light intensity and quality. In long-term experiments, where natural communities of cyanobacteria were exposed to one month of different light intensities, changes in the species composition of the three main genera of heterocystous cyanobacteria (Nostoc, Anabaena, and Calothrix) were observed. The light intensity at which communities were exposed for one month became the optimum irradiance for NA for each cyanobacterial community. Assays performed at higher or lower irradiances showed lower NA. Nitrogen fixation followed a pattern of seasonal variation along the crop cycle. Values were low at the beginning of the crop (May), reached a maximum value at the end of the tillering stage (June), and declined thereafter until the end of the cultivation cycle (September).