Assessment of temperature and nutrient limitation on seasonal dynamics among species of Sargassum from a coral reef in southern Taiwan

The effects of temperature and nutrient availability on seasonal abundance were compared among Sargassum berberifolium J. Ag., S. polycystum C. Ag., S. siliquosum J. Ag., and S. sandei from a reef in southern Taiwan. Growth temperature limits and optimum were variable between species and between developmental stages. Growth temperature ranges agree with Sargassum periodicity except S. sandei. Sargassum siliquosum can tolerate high temperature as indicated by higher optimum temperature and tolerance limits. Temporal changes in tissue nutrient content and alkaline phosphatase activity and the results from nutrient enrichment bioassay show that S. sandei, S. berberifolium, and S. polycystum are P limited in the early growth period and then N limited, whereas S. siliquosum showed a contrasting trend, reflecting the type of nutrient limitation is variable by time and between species. A smaller nutrient threshold for maximum growth in S. berberifolium, S. polycystum, and S. siliquosum than in S. sandei and higher growth rate in S. berberifolium and S. polycystum indicate the higher growth vigor and nutrient utilization efficiency, the higher abundance. High N reserves in S. berberifolium and S. polycystum exposed to elevated seawater N in the early growth period supported the subsequent growth. The multiple regression analysis indicates that percent cover of S. siliquosum increased with increasing water temperature and dissolved inorganic nitrogen concentrations, whereas that of S. polycystum decreased with increasing water temperature. In conclusion, seasonal dynamics of Sargassum spp. from southern Taiwan are attributable to species and temporal variations in temperature limitation and nutrient utilization strategy.