Chen, P.W.-Y.; Annabel, C.N.; Olivia, M.; Chou, W.-C.; Chen, J.-J.; Shiu, R.-F.; Mukhanov, V.; Natividad, M.; Shen, Y.-L.; Tsai, A.-Y. Investigation of the Growth and Mortality of Bacteria and Synechococcus spp. in Unvegetated and Seagrass Habitats. Water2024, 16, 939.
Chen, P.W.-Y.; Annabel, C.N.; Olivia, M.; Chou, W.-C.; Chen, J.-J.; Shiu, R.-F.; Mukhanov, V.; Natividad, M.; Shen, Y.-L.; Tsai, A.-Y. Investigation of the Growth and Mortality of Bacteria and Synechococcus spp. in Unvegetated and Seagrass Habitats. Water 2024, 16, 939.
Chen, P.W.-Y.; Annabel, C.N.; Olivia, M.; Chou, W.-C.; Chen, J.-J.; Shiu, R.-F.; Mukhanov, V.; Natividad, M.; Shen, Y.-L.; Tsai, A.-Y. Investigation of the Growth and Mortality of Bacteria and Synechococcus spp. in Unvegetated and Seagrass Habitats. Water2024, 16, 939.
Chen, P.W.-Y.; Annabel, C.N.; Olivia, M.; Chou, W.-C.; Chen, J.-J.; Shiu, R.-F.; Mukhanov, V.; Natividad, M.; Shen, Y.-L.; Tsai, A.-Y. Investigation of the Growth and Mortality of Bacteria and Synechococcus spp. in Unvegetated and Seagrass Habitats. Water 2024, 16, 939.
Abstract
There is no doubt that seagrass beds constitute one of the most productive ecosystems in shallow coastal waters. Despite this, picoplankton in seagrass ecosystems has received relatively little attention. The purpose of this study was to compare picoplankton growth and mortality rates between seagrass and unvegetated habitats using chamber incubations. We tested two main hypotheses: (i) incubation with seagrass would result in higher bacterial growth rates due to increased DOM release from seagrass photosynthesis, and (ii) Synechococcus spp. would be lower in the presence of seagrass due to competition for inorganic nutrients. Our results showed bacterial growth rates of 2.31 and 2.44 d–1 without and with seagrass, respectively. In seagrass chambers, bacterial growth was higher than that in non-seagrass chambers, suggesting that organic carbon coming from the seagrass community may support bacterial production. Furthermore, we observed a negative Synechococcus spp. growth rate (-0.9 d–1) in the seagrass treatment, likely reflecting nutrient competition with the seagrass. Small-scale chambers proved to be a useful tool for studying the factors controlling spatial and temporal patterns of picoplankton across different habitats. Furthermore, future studies should examine picoplankton growth over a wider range of spatial scales in seagrass beds and adjacent unvegetated sediment.
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