Copepods’ true colors: astaxanthin pigmentation as an indicator of fitness
Permanent link
https://hdl.handle.net/10037/31634Date
2023-06-08Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Vilgrain, Laure; Maps, Frédéric; Basedow, Sünnje Linnéa; Trudnowska, Emilia; Madoui, Mohammed-Amin; Niehoff, Barbara; Ayata, Sakina‐DorothéeAbstract
Pigmentation is often overlooked in zooplankton, since these organisms are
mostly colorless to fit the translucid water medium. However, one of the dominant zooplankton taxa in aquatic ecosystems—copepods—often show a bright
red-orange or blue coloration owing to the accumulation of carotenoid
pigments in some parts of their bodies. Even though there are many functional
traits describing copepod’s performance (e.g., size, feeding, and reproductive
modes), it is surprising that the role of such a simple and visible trait as coloration has not been studied in a coherent manner yet. Here, by reviewing
95 studies, we demonstrate that carotenoid-based pigmentation (mainly
caused by astaxanthin molecules) is a widespread functional trait in freshwater
and marine copepods. We propose a way to disentangle the complex and thus
intriguing patterns of pigment expression along latitudinal and altitudinal
gradients, addressing its relationship to diet quality and quantity, temperature,
ultraviolet radiation stress, predation pressure, lipid metabolism, and reproduction. We show that large-scale variations in pigmentation are difficult to
tackle because of the fundamental plasticity of this trait at short time scales
(i.e., hours, days), and the most recent information about carotenoid bioconversion are addressed (genes and enzyme identification, and influence of
microbiota). From this literature review, we hypothesize that pigments play a “Swiss-army knife” role for copepod’s fitness, useful in various ecosystem conditions owing to the strong antioxidant power and the finely-tuned metabolism
of astaxanthin. With larger antioxidant capacities (survival), higher metabolisms (growth), and more offspring in better condition (reproduction), red
morphs appear more successful than their uncolored siblings. Also, the potential camouflage strategies allowed by red and blue pigmentation are discussed.
We finally formulate new directions and future research fields from molecular
to ecosystem scales. Routine quantifications of copepod’s pigmentation
through trait-based approaches could be useful (1) to obtain an accurate copepod fitness indicator and (2) to better estimate the transfer of antioxidant to
higher trophic levels in ecosystems, including humans.
Publisher
WileyCitation
Vilgrain, Maps, Basedow, Trudnowska, Madoui, Niehoff, Ayata. Copepods’ true colors: astaxanthin pigmentation as an indicator of fitness. Ecosphere. 2023;14(6)Metadata
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