Seasonal Variability in Non-Structural Carbohydrate Content of Warm-Adapted Zostera noltei and Zostera marina Populations

Non-structural carbohydrates (NSCs) are energetic compounds that can be accumulated in tissues and mobilized during periods of unfavorable conditions to maintain the biological functions of plants. The balance of these biochemical compounds is controlled by environmental factors such as temperature...

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Bibliographic Details
Published inDiversity (Basel) Vol. 16; no. 7; p. 391
Main Authors Azcárate-García, Tomás, Beca-Carretero, Pedro, Hernández, Ignacio, Brun, Fernando G
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2024
Subjects
Aquatic plants
Bioaccumulation
Carbohydrates
Climate change
Climatic changes
Coastal ecosystems
energetic reserves
Environmental conditions
Environmental factors
Geographical distribution
High temperature
Irradiance
Leaves
Metabolism
Physiological aspects
plant performance
Population studies
Populations
productivity
Radiation
Resveratrol
Rhizomes
Roots
seagrasses
Seasonal variations
Seawater
starch
Statistical analysis
Stress (physiology)
Stress concentration
Sucrose
Water temperature
Waterfront development
Zostera marina
Zostera noltei
Spain
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Summary:Non-structural carbohydrates (NSCs) are energetic compounds that can be accumulated in tissues and mobilized during periods of unfavorable conditions to maintain the biological functions of plants. The balance of these biochemical compounds is controlled by environmental factors such as temperature and irradiance. Zostera noltei and Zostera marina find one of their southern distribution limits in southern Spain, where relatively high seawater temperatures are reached during summer (23–24 °C). To better understand the effects of elevated temperatures on the concentration of NSCs, we conducted a seasonal study at Cadiz Bay, representing warm-adapted populations of these species. Our results showed a bimodal pattern in both species, with the highest NSC content observed in December and June, followed by a depletion in March and August. In addition, the NSC content observed in the leaves of Z. noltei (71.26 ± 30.77 mg g−1 dry weight) was higher than in the rhizomes and roots (52.14 ± 38.86 mg g−1 DW). The observed patterns suggest that these species accumulated NSCs to cope with periods of unfavorable environmental conditions. We also suggest that the limited concentration of NSCs in Z. noltei rhizomes and roots indicates that this population may be suffering physiological stress.
ISSN:1424-2818
1424-2818
DOI:10.3390/d16070391