Response of intertidal benthic microalgal biofilms to a coupled light-temperature stress: evidence for latitudinal adaptation along the Atlantic coast of Southern Europe.
Résumé
Although estuarine microphytobenthos (MPB) is frequently
exposed to excessive light and temperature
conditions, little is known on their interactive effects
on MPB primary productivity. Laboratory and in situ
experiments were combined to investigate the shortterm
joint effects of high light (HL) and high temperature
(37°C versus 27°C) on the operating efficiency of
photoprotective processes [vertical migration versus
non-photochemical quenching (NPQ)] exhibited by
natural benthic diatom communities from two intertidal
flats in France (FR) and Portugal (PT). A clear
latitudinal pattern was observed, with PT biofilms
being more resistant to HL stress, regardless the
effect of temperature, and displaying a lower relative
contribution of vertical migration to photoprotection
and a stronger NPQ in situ. However, higher temperature
leads to comparable effects, with photoinhibition
increasing to about three times (i.e. from 3% to 10%
and from 8% to 22% in PT and FR sites respectively).
By using a number of methodological novelties in
MPB research (lipid peroxidation quantification, Lhcx
proteins immunodetection), this study brings a physiological
basis to the previously reported depression
of MPB photosynthetic productivity in summer. They
emphasize the joint role of temperature and light in
limiting, at least transiently (i.e. during emersion),
MPB photosynthetic activity in situ.
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