Evidence of non-structural carbohydrates-mediated response to flooding and salinity in Limonium narbonense and Salicornia fruticosa

Evidence of non-structural carbohydrates-mediated response to flooding and salinity in Limonium narbonense and Salicornia fruticosa

•Soluble NSCs content was determined primarily by flooding and secondly by salinity.•Soluble NSCs were more affected during seed ripening compared to flowering season.•Amino acids and starch contents were not affected by flooding, salinity or phenology.•Proline could be involved in stress tolerance...

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Bibliographic Details
Published in:Aquatic botany Vol. 166; p. 103265
Main Authors: Pellegrini, E., Forlani, G., Boscutti, F., Casolo, V.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-08-2020
Subjects:
Halophytes
Osmolytes
Salinity
Saltmarshes
Shrubby swampfire
Swamp sea-lavender
Saltmarshes
Halophytes
Osmolytes
Swamp sea-lavender
Shrubby swampfire
Salinity
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Summary:•Soluble NSCs content was determined primarily by flooding and secondly by salinity.•Soluble NSCs were more affected during seed ripening compared to flowering season.•Amino acids and starch contents were not affected by flooding, salinity or phenology.•Proline could be involved in stress tolerance regardless of the intensity of the stress. In plant species, the effects of flooding and salinity are commonly studied under controlled conditions in order to understand their acclimation to environmental stresses. Nevertheless, each stress is usually considered separately and laboratory conditions cannot encompass the complexity of the natural ecosystem, often concealing the true plant response. Our work aimed therefore at studying plant responses to flooding and salinity in the field, focusing on two target halophytes and on their reserve organs, i.e. rhizomes of Limonium narbonense and woody stems of Salicornia fruticosa. The physiological response was investigated measuring non-structural carbohydrates (NSCs) and amino acids (AA), and considering the two growing stages of the species, i.e. the growing and the seed ripening seasons. L. narbonense rhizomes showed a larger amount of starch and all measured osmolytes, i.e. NSCs, AA and proline, compared to S. fruticosa woody stem, where plant response to environmental stress seemed linked chiefly to soluble NSCs. The effects on soluble NSCs were mainly driven by flooding and were influenced by salinity only at low flooding stress. The two species showed a contrasting strategy against flooding and salinity based on soluble NSCs, and with a more intense response during the seed ripening season. Large amount of AA, proline in particular, suggested the involvement of these osmolytes in the salinity tolerance in L. narbonense, regardless to the intensity of the stress.
ISSN:0304-3770
1879-1522
DOI:10.1016/j.aquabot.2020.103265