@article{kamykowski_milligan_reed_liu_1999, title={Geotaxis/phototaxis and biochemical patterns in Heterocapsa (=Cachonina) illdefina (Dinophyceae) during diel vertical migrations}, volume={35}, ISSN={["1529-8817"]}, DOI={10.1046/j.1529-8817.1999.3561397.x}, abstractNote={Two separate experiments with Heterocapsa (=Cachonina) illdefina Herman et Sweeney, one with and the other without water volume replacement, were performed in a 250‐L laboratory mesocosm (45‐cm diameter × 150‐cm height) to examine how diel vertical migration (DVM) relates to taxis sign and strength and to cellular biochemical state. Although only the cell population grown with water volume replacement maintained a division per day over the course of the experiment, periodic measurements during both experiments demonstrated that cells aggregating at the surface during the light period generally were deficient in all measured biochemical constituents compared to cells obtained from a midcolumn depth. More specifically, H. illdefina cells that aggregated at the surface during the light period in both experiments exhibited weakened positive geotaxis but strengthened positive phototaxis and were very deficient in lipid and free amino acid compared to midcolumn cells. Cells sampled at midcolumn during the light period exhibited similar but weaker taxes changes compared to surface samples, and geotaxis strength was inversely correlated with cell diameter, cellular DNA and protein content, and RNA/DNA ratio. In comparison, published data on Gymnodinium breve Davis, a harmful algal bloom species, showed that cells aggregating at the surface during the light period generally exhibited weakened negative geotaxis and strengthened positive phototaxis and were very deficient in lipid and chl a compared to midcolumn cells. Although the persistent tendency toward negative geotaxis was weaker in midcolumn subpopulations throughout the day, its strength was inversely correlated with cell diameter and cellular lipid content. The combined results for both species support a revised conceptual model of optimized DVM in autotrophic marine dinoflagellates incorporating generalized expressions of taxis and biochemical state of individual cells.}, number={6}, journal={JOURNAL OF PHYCOLOGY}, author={Kamykowski, D and Milligan, EJ and Reed, RE and Liu, WC}, year={1999}, month={Dec}, pages={1397–1403} }