All experiments were conducted at 21°C on a 12:12 h light:dark cycle
with overhead illumination as described for stock culture maintenance. Photosynthetically active radiation (400–700 nm) was measured immediately above and around experimental flasks using a QSL-2100 spherical quantum sensor (Biospherical Instruments, San Diego, CA, USA) and light intensity was attenuated when necessary using black plastic neutral SCH727965 order density mesh screening. Preliminary observations suggest all Esoptrodinium isolates cultured thus far are obligate phagotrophs, requiring microalgal prey cells as food for growth (Calado et al. 2006, Fawcett and Parrow 2012). To determine if Esoptrodinium can also engage in phototrophy, population biomass was measured over time in isolates UNCCP, RP, and HP exposed to two different light treatments (high vs. low intensity) in the absence Selleckchem STA-9090 of food, following methods modified from Skovgaard (1998) and Parrow and Burkholder (2003). Prior to experimentation, subcultures were acclimated to either high light (45 μmol photons · m−2 · s−1) or low light (15 μmol photons · m−2 · s−1) following Skovgaard (1998) and Kim et al. (2008) for 3 d and allowed to deplete
prey cells to negligible density (<100 C. ovata cells · mL−1) as the dinoflagellates reached late logarithmic growth phase (~7.5 × 104 Esoptrodinium cells · mL−1). Aliquots (13 mL) from each strain were dispensed into new triplicate flasks containing 13 mL of fresh modified Bold basal medium and exposed to high light (45 μmol photons · m−2 · s−1 illumination) or low light (15 μmol photons · m−2 · s−1) treatments. Experimental flasks were sampled initially and daily thereafter (low light treatments were sampled in a darkened room to minimize light exposure) until most cells had died (6 d). Subsamples (1 mL) were preserved with 0.25% final concentration acidic Lugol's solution (Guillard and Sieracki 2005) and cells were enumerated using a Palmer–Maloney counting chamber (Wetzel
and Likens 1991). The length and width of 20 randomly selected Esoptrodinium 上海皓元医药股份有限公司 cells per sample were measured using a calibrated micrometer scale and converted into equivalent spherical diameters; mean cell volumes calculated from these measurements were multiplied by cell counts to estimate total population biomass (Wetzel and Likens 1991, Menden-Deuer and Lessard 2000). On day 6, nonmotile cysts were quantified by enumerating cysts observed (LM, 100×) on the horizontal culture surface of four randomly selected fields of view per replicate flask following Parrow et al. (2004). Estimated cyst abundances were expressed as a percent of total population abundance with each cyst counted as one cell.