Abstract
Avicenna marina (Forssk.) Vierh is a halophytic mangrove. The reproductive unit is green and has photosynthetic propagules. Mangroves are naturally exposed to fluctuations in some abiotic factors at the soil surface, including salinity and alkalinity. The objective of this study was to determine the effects of two salts including NaCl and NaHCO3 on germination processes and discuss the relationships between cotyledon photosynthesis and embryo axis growth in A. marina propagules. These propagules came from Al Birk, located on the shoreline of the Saudi Red Sea. The results showed that the studied salts did not affect neither the final germination percentage nor the embryo axis growth. However, rooting and root growth were delayed by both salts at 300 mM and were strongly inhibited by 600 mM NaHCO3. Both NaCl and NaHCO3 reduced the photosynthetic activity. These two salts did not affect the other photosynthetic parameters, including stomatal conductance, net transpiration, and intercellular CO2. Thereafter, the reduction in net photosynthesis was not related to any limitation of stomatal conductance. The early germination phase was independent of cotyledon photosynthesis, whereas rooting and root growth may be limited by reduced photosynthesis under NaCl and NaHCO3.
Highlights
IntroductionMangroves are halophytic trees and shrubs that grow in the intertidal zone, constituting a specific ecosystem on tropical and subtropical coastlines [1]
To study propagule germination and embryo growth, an experiment was conducted in a glasshouse with a 14/10 h photoperiod, 27/18°C temperature, and 60/75% relative humidity day/night regime
This work aimed to determine the effects of salt and alkaline stress on propagule germination and photosynthetic activity in the cotyledons of A. marina
Summary
Mangroves are halophytic trees and shrubs that grow in the intertidal zone, constituting a specific ecosystem on tropical and subtropical coastlines [1]. They play an important role in coastal protection against soil erosion, high wave energy, tidal flooding, and tropical cyclones [2]. The mangrove ecosystem is well known for its biodiversity and provides a habitat for wildlife [3]. Mangroves have several economic and medicinal uses, including fodder for animals such as camels and cattle, and firewood in coastal areas [1]. Secondary compounds from mangrove species have been reported to have antimicrobial, antioxidant, and other beneficial effects on human health [1].
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