Adjustment of pigment composition in Desmarestia (Desmarestiaceae) species along a sub-Antarctic to Antarctic latitudinal gradient

Photosynthesis at high latitudes demands efficient strategies of light utilization to maintain algal fitness and performance. The fitness, and physiological adaptation, of a plant or algae species depends in part on the abundance and efficiency of the pigments it can produce to utilize the light res...

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Bibliographic Details
Published in:Polar Research
Main Authors: Andrés Mansilla, Fabio Méndez, Silvia Murcia, Juan Pablo Rodríguez, Johanna Marambio, Sebastián Rosenfeld, Nair Yokoya, Kai Bischof
Format: Article in Journal/Newspaper
Language:English
Published: Norwegian Polar Institute 2016
Subjects:
Macroalgae
Phaeophyceae
photosynthesis
physiology
environmental heterogeneity
Chile
Environmental sciences
GE1-350
Oceanography
GC1-1581
Antarctic
Antarctic Peninsula
Cape Horn
The Antarctic
Antarc*
Antarctica
Polar Research
Online Access:https://doi.org/10.3402/polar.v35.29383
https://doaj.org/article/477f9503399a47c4a2a2b45d9b1c1879
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Summary:Photosynthesis at high latitudes demands efficient strategies of light utilization to maintain algal fitness and performance. The fitness, and physiological adaptation, of a plant or algae species depends in part on the abundance and efficiency of the pigments it can produce to utilize the light resource from its environment. We quantified pigment composition and concentration in six species of the brown macroalgal genus Desmarestia, collected from sub-Antarctic sites (Strait of Magellan, Beagle Channel–Cape Horn Province) and sites on the Antarctic Peninsula and adjacent islands. Sub-Antarctic Desmarestia species exhibited lower concentrations of chlorophyll a, chlorophyll c and fucoxanthin than endemic Antarctic species. Antarctic samples of D. menziesii and D. antarctica collected along a decreasing latitudinal gradient showed spatial and interspecific differences in light-harvesting pigment composition. Our results suggest distinct physiological adjustments in Desmarestia species in response to heterogeneous abiotic environmental conditions. The marine sub-Antarctic and Antarctic ecosystems are characterized by harsh environments (e.g., extreme irradiance, photoperiod, temperature, salinity) to which the physiology of macroalgal species must adapt.

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