Photosynthetic plasticity of endosymbionts in larger benthic coral reef Foraminifera

Larger benthic Foraminifera (LBF) are ecologically important coral reef protists that harbour a large diversity of symbionts from at least four algal phyla. In this study the photosynthetic plasticity of different endosymbiontic algae found within LBF was investigated using pulse amplitude modulated (PAM) fluorometry. Maximum quantum efficiencies of photosystem II (F_v/F_m) obtained from foraminiferal specimens directly after field collection indicated several pronounced differences between species containing endosymbionts from different algal phyla and, to a lesser extent, also varied between species that contain the same phyla of endosymbiontic algae. Foraminiferal species retaining functional chloroplasts and rhodophyte-bearing species had distinctly lower F_v/F_m, than LBF with dinoflagellates, diatoms or chlorophytes. A laboratory experiment was conducted over 48 h exposing species occurring in high- (photophilic), medium- and low-light (sciaphilic) environments to three manipulated light levels. Photophysiological responses were monitored by measuring F_v/F_m at regular intervals and rapid light curves (RLCs) at the end of the experiment. This experiment demonstrated oscillation of maximum quantum efficiencies according to the light-dark cycle. Changes in the shape of the RLCs (e.g., higher α and lower E_k under low light conditions) indicated that photosynthetic plasticity allows LBF to acclimatise rapidly (< 48 h) to different light conditions.     

Allelopathic inhibition of epiphytes by submerged macrophytes

The hypothesis that epiphytes are more vulnerable to allelochemicals released by submerged macrophytes than phytoplankton was tested by measuring growth and photosystem (PS) II activity of three common epiphytic algae and cyanobacteria in coexistence with Myriophyllum spicatum using dialysis tubes. Results were compared with earlier experiments on planktonic species. Contrary to the planktonic species, the tested epiphytes, the green algae Stigeoclonium tenue, the diatom Gomphonema parvulum and the cyanobacterium Oscillatoria limosa, were not significantly inhibited by M. spicatum. Growth and PS II activity of O. limosa were even significantly enhanced by M. spicatum, but this effect disappeared under phosphorus-deficiency due to the allelopathically induced inhibition of the alkaline phosphatase activity or phosphorus leakage by the macrophytes. My findings of a lower vulnerability of epiphytes against allelopathic substances of submerged macrophytes are supported by results of a literature survey.