| Popis: |
In an integrated multitrophic aquaculture (IMTA) system, seaweeds serve as extractive species that utilize excess nutrients thereby reducing the risk of eutrophication and promoting sustainable aquaculture. However, the use of excessive fish feeds and the resultant fecal waste as nutrient streams can contribute to variations in nitrogen and phosphorus levels (e.g., primarily NH4+ and PO4-3) in the surrounding area, and this may impact the physiology of the integrated seaweeds particularly on how these species take up inorganic nutrients. In this study, the effect of different PO4-3 levels on NH4+ uptake of the three commercially important eucheumatoids Kappaphycus alvarezii, Kappaphycus striatus and Eucheuma denticulatum was examined under laboratory conditions. Seaweed thalli (n = 4) were incubated in seawater media containing 30 µM NH4+, representing eutrophic conditions, and 0, 0.5, 1.0, 1.5, 3.0 or 5.0 µM PO4-3 for 1 h under a saturating light level of 116 ± 7.13 µmol photons m-2 s-1 inside a temperature-controlled laboratory. Species-specific responses to PO4-3 levels were observed. For K. alvarezii, maximum NH4+ uptake (17.8 ± 1.6 µmol gDW-1 h-1) was observed at 0.5 µM PO4-3 and the uptake rate declined at higher PO4-3 levels. For K. striatus, the NH4+ uptake increases with increasing PO4-3 levels, with maximum N-uptake (6.35 ± 0.9 µmol gDW-1 h-1) observed at 5.0 µM PO4-3. For E. denticulatum, maximum NH4+ uptake (14.6 ± 1.4 µmol gDW-1 h-1) was observed at 1.0 µM PO4-3. Our results suggest that, among the three eucheumatoid species, the NH4+ uptake of K. striatus persist even at high levels of PO4-3. However, our results also showed that K. striatus had the lowest range of NH4+ uptake rates. These results should be taken into consideration when incorporating eucheumatoids in IMTA system where PO4-3 levels significantly vary in space and time. |
