Abstract. The photosynthetic productivity of tropical
microphytobenthos (MPB) is largely driven by changes in light intensities
and temperature at the surface of sediment flats during emersion. Here, the
response of the MPB community to temperature and light was examined. Changes
in temperature and irradiance during tidal cycles in the Tanjung Rhu
estuary, Langkawi, Malaysia, in 2007 significantly affected the
photosynthetic capacities of the MPB. Higher photosynthetic parameters, such
as the maximum relative electron transport rate (rETRmax), photosynthetic
efficiency (α), maximum quantum yield (Fv/Fm), and
effective quantum yield (ΔF/Fm′), were recorded at high
tide when the temperatures were lower. However, when the community was
experimentally exposed to irradiances of 1800 µmol photons m−2 s−1, it was only able to photosynthesize at
temperatures < 50 ∘C. Above this temperature, no photosynthetic
activity was observed. Not only did high temperatures at high irradiance
affect the algal communities, but limited photosynthetic activity was also
observed in samples when exposed to limited irradiance. Recovery rates were
highest at the lowest temperatures and decreased as the temperature
increased. The recovery rates for samples exposed to temperatures of 40 ∘C were 4.01×10-3±0.002 s−1 and decreased to 1.01×10-5±0.001 s−1 at 60 ∘C, indicating irreversible damage to
Photosystem II (PSII). These characteristics suggest that the MPB
communities in this estuary were able to adapt to temperature variation.
However, enhanced photoinhibition would result if exposed to elevated
temperatures, especially during low tide where in situ temperature was
already 43 ∘C. Hence, if in situ temperature were to further increase
during tidal emersion, 50 ∘C could be a temperature threshold for
photosynthetic performance of tropical estuarine benthic microalgal
communities.