Light quality induces a shift in coccosphere morphology in Scyphosphaera apsteinii.

Abstract

The coccolithophore Schyphosphaera apsteinii produces distinct coccolith morphotypes and offers a unique insight into coccolith calcification, as the number of lopadoliths per cell increases under low light intensities. This study employs S. apsteinii to investigate the acclimated impact of light intensity and wavelength on cell physiology and coccosphere morphology. Our findings reveal a marked increase in lopadolith production when grown under reduced light intensity, with lower growth rates, higher chlorophyll concentration and elevated net photosynthetic rates. Reduced blue-light also caused an increase in lopadolith numbers, elevated chlorophyll concentrations and net photosynthetic rates. Conversely, such responses are less pronounced under reduced red-light. Moreover, reduced blue- and red-light treatments exhibited enhanced growth rates compared to the light-replete control, despite a reduction in light intensity. Our findings suggest that changes in light quality cause a shift in the coccosphere morphology, affecting cell physiology and potentially aiding light harvesting in S. apsteinii.