Circadian variability in the photobiology of Phaeodactylum tricornutum: pigment content

doi:10.1093/plankt/fbm002

JPR Advance Access published online on January 15, 2007
Journal of Plankton Research, doi:10.1093/plankt/fbm002

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research-article

Circadian variability in the photobiology of Phaeodactylum tricornutum: pigment content

Maria Ragni¹ and Maurizio Ribera d'Alcalà

Stazione Zoologica "A. Dohrn". Villa Comunale, 80121, Naples ( Italy)

¹ Author for correspondence: email mragni{at}essex.ac.uk

Received on August 8, 2006; revised on September 12, 2006; accepted on November 20, 2006

Abstract

Circadian variations of pigment content in the diatom Phaeodactylmtricornutum were analyzed in different light regimes. The studywas aimed at discerning the role of putative endogenous controlsfrom the constraint imposed by the alternation of light (L)and dark (D) periods. Our experiments showed that in a typicalLD cycle of illumination, pigment synthesis follows the somaticgrowth of the cell, both arresting during D periods. In particular,the diurnal increase of chlorophyll a content was proportionalto the increase in cell size and preceding cell division, occurringat night. By contrast, diadinoxanthin and ß-carotenedisplayed different phases, which is likely to be related totheir involvement in photoprotection mechanisms. The experimentsalso showed that the synthesis of both photosynthetic and photoprotectivepigments was dependent not only on light availability and thephasing of somatic growth, but also responded to other internalregulation. Over the time scale of the experiments (hours todays), the removal of LD-DL triggers impaired cell physiology,whereas the circadian patterns in pigment synthesis persisted.Our results support the hypothesis that an internal regulationof cell biosynthetic machinery can improve phytoplankton fitness,even in high variable environments such as the oceanic mixedlayers. Therefore, we also suggest that phytoplankton growthdepends not only on the availability of external resources,but also on internal regulatory mechanisms whose unveiling wouldfurther our understanding of phytoplankton diversity and dynamics.

Key Words: circadian rhythms • diatoms • photosynthetic pigments • photoprotective pigments • Phaeodactylum tricornutum

Communicating editor: KJ Flynn

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