Sand Supplementation to Eutrophic Sediments Improves the Growth and Survival of Seagrass Thalassia Hemprichii: Implication for Seagrass Restoration and Management

Abstract Aims Sediment composition is highly crucial for seagrass growth and survival. Eutrophication has been suggested a major cause of seagrass decline globally. We investigated the effects of beach sand supplementation to natural sediments under eutrophic condition on the growth and survival of tropical dominant seagrass Thalassia hemprichii. Methods We cultured seagrass T. hemprichii under the controlled laboratory conditions in three sediment types by combining different ratio of in-situ eutrophic sediment and coarse beach sand. We examined the effect of beach sand mixing to natural eutrophic sediments on the growth of seagrass using photobiology, metabolomics and isotope labeling approaches. Results Seagrass grown in eutrophic sediments mixed with sand exhibited significantly higher photosynthetic activity with high relative maximum electron transport rate and minimum saturating irradiance. Simultaneously, considerably greater belowground amino acid and flavonoid concentrations were observed to counteract anoxic stress in eutrophic sediment without mixing sand. This led to more positive belowground stable sulfur isotope in the eutrophic sediment with lower Eh. Conclusions These results indicated coarse beach sand indirectly enhanced photosynthesis and growth for T. hemprichii by reducing sulfide intrusion with lower concentrations of amino acid and flavonoid. This could possibly explain why T. hemprichii often grow better in the coarse sand substrate. Therefore, it is imperative to consider adding sand soil in the sediments to improve the growth condition for seagrass and restoring the seagrass shoots during transplantation in eutrophicated ecosystem.