Dataset: Palau Coral Reef Experiment 2018: Pulse Amplitude Modulation (PAM) fluorometry

Eight colonies of the coral Psammocora digitata and Pocillopora verrucosa were sampled from the offshore western barrier reef, Rebotel reef (7.248833° N, 134.235817° E) at 5–10 m depth, and from Nikko Bay (also known by Ngermid Bay, 7.3245° N, 134.4939° E) at 5 m depth. Samples were transported to the Palau International Coral Research Center (PICRC), and each colony sample was cut into nine replicate ramets that were placed in flow-through sea water tables and allowed to heal for 48 hours before mounting on labeled PVC tiles with marine epoxy (Splash zone compound A-788).

Temperature experiments were conducted in indoor aquarium systems. Each system used a semi-enclosed design that consisted of a series of 44 L plastic bins connected to a central 220 L sump that was supplied by a continuous slow-feed supply of fresh seawater. The control system (4 bins) was maintained at an average temperature of 28.27 ± 0.33°C by an in-line chiller and titanium heater. The heated system (6 bins) was ramped from 28°C to 31°C (1°C day-1) and held at 31.86 ±0.14°C by an in-line titanium heater. All bins were lighted to an irradiance of 600 μmol photons m-2s-1 by LED lights set to daily ramping. Beginning on day zero, corals were dark acclimated for approximately 30 minutes after the lights turned off and active chlorophyll fluorescence was recorded from five ramets coral colony-1 species-1 with a diving PAM fluorometer ( blue LED measuring light = 6, saturation intensity = 12, saturation width = 0.8 s, gain = 4, and damping = 2) in order to calculate the maximum quantum yield of photosystem II (PSII) (Fv/Fm). Once the target high temperature was reached in the experimental bins, corals were sampled for 12 more days for active fluorescence at noon, during peak light intensity, and at night, 30 minutes after the lights had switched off .

Measurements in the light were used to calculate the effective quantum yield of PSII in the light activated state (Fq'/Fm') as well as the excitation pressure over PSII (Qm).

Instruments:

• Active chlorophyll fluorescence was recorded with a Diving PAM fluorometer (Walz, Effeltrich)
• Seawater temperature was controlled by an in-line chiller and titanium heater DeltaStar DS-3, and Cygnet Mini (Aqualogic Inc.), and light was supplied to each experimental bin by a custom LED array (XP-G3 Cool White LEDs, Cree) controlled with a digital Storm Controller(Coralux).
• Water was continuously mixed in each bin by a small submersible pump (Sicce Micra, 90 GPH).