Abstract
Returning to the sea, just like invasion of land, has occurred in many groups of animals and plants. For flowering plants, traits adapted to the terrestrial environments have to change or adopt a new function to allow the plants to survive and prosper in the sea where water motion tends to rotate and move seeds. In this investigation, how seeds of the seagrass Thalassia hemprichii (Hydrocharitaceae), a common monocotyledon in the Indo-Pacific, adapt to the wavy environment was studied. Mature seeds were collected from Dongsha Atoll in South China Sea. The effects of light qualities on seed germination, the seed morphology, the unipolar distribution of starch granules in the endosperms and growth of root hair-like filamentous cells from basal surface of the seeds were all found to differ from those of terrestrial monocotyledons. Physiologically, germination of the seeds was stimulated by blue light rather than red light. Morphologically, the bell-shaped seeds coupled with the unipolar distribution of starch granules in the enlarged bases helped maintain their upright posture on the tidal seafloor. Growth of root hair-like filamentous cells from the basal surface of the seeds prior to primary root growth served to attach onto sediments, providing leverage and attachment required by the primary roots to insert into sediments. These filamentous cells grasped coral sand but not silicate sand, demonstrating a habitat preference of this species.
Highlights
Seagrasses are descendants of terrestrial plants that are able to complete their life cycle in the submerged photic zones in the sea
Thalassia hemprichii Plants, Fruits and Seeds Plants and fruits of T. hemprichii were collected at Dongsha Atoll
The bell shape of T. hemprichii seeds coupled with their concentrated starch granules in the enlarged bases help the seeds to adapt to the wavy environment
Summary
Seagrasses are descendants of terrestrial plants that are able to complete their life cycle in the submerged photic zones in the sea. In this study we discovered novel developmental modifications of Thalassia hemprichii seeds and seedlings. A germinating seed with root hair-like filamentous cells emerging from all over the basal surface before emergence of primary root.
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