Abstract
Potassium-fortified inland saline water (K+ISW) has shown potential for growing marine species, including seaweed species. The response of a brown seaweed species, Sargassum podacanthum, to nitrogen and phosphorus enrichments were evaluated by culturing the species for 84 days in K+ISW and comparing it with Ocean Water (OW). The culture media was enriched weekly with ammonium chloride and sodium dihydrogen phosphate, with ammonium and phosphate ratios of 10:1 at five different concentrations 80:8, 120:12, 160:16, 200:20 and 240:24 μM. The culture medium with no enrichment was used as a control. The water quality and biomass of S. podacanthum were measured fortnightly. The S. podacanthum biomass increase significantly with different concentrations of the nutrient supplementations. The standing biomass and Specific Growth Rate (SGR) of S. podacanthum were similar in OW and K+ISW in the absence of any nutrient supplementation and at the supplement concentration of ammonium and phosphate 160:16 μM. However, from day 42 onwards, at the ratios of 80:8, 120:12, 200:20 and 240:24, S. podacanthum cultured in OW grew significantly faster than in K+ISW. In K+ISW, optimal growth of S. podacanthum was observed at the 160:16 and the increase in biomass was significantly higher than the initial biomass until day 70, whereas at the other four nutrient supplement concentrations, the S. podacanthum biomass remained unchanged during the entire culture period. The nitrite, total Kjeldahl nitrogen and phosphate concentrations in water were found to be significantly (p<0.05) and negatively correlated (p<0.05) with S. podacanthum biomass. Therefore, the results showed that the enrichment of 160 μM ammonium and 16 μM phosphate is required in the K+ISW for S. podacanthum to achieve optimal growth.
Highlights
Mariculture, including seaweed culture, in Inland Saline Water (ISW) is considered as a potential expansion and diversification of aquaculture industry in Australia (Allan et al, 2001)
The standing biomass of the S. podacanthum varied as the time progressed, different nutrient enrichments resulted in significant (p
The result of this study has shown that ammonium and phosphate enrichment plays an important role for growing S. podacanthum in K+ fortified Inland Saline Water (K+ISW) under laboratory conditions
Summary
Mariculture, including seaweed culture, in Inland Saline Water (ISW) is considered as a potential expansion and diversification of aquaculture industry in Australia (Allan et al, 2001). The level of potassium (K+) concentration in ISW is lower than in Ocean Water (OW) in Australia (Allan and Fielder, 1997; Dinh, 2016) and USA (Boyd and Thunjai, 2003; Forsberg et al, 1996) other ionic profiles can be similar (Fotedar et al, 2011; Prangnell and Fotedar, 2006a). Fotifying ISW with K+ to achieve similar concentration in OW is essential to sustain the growth of shrimp (Prangnell and Fotedar, 2006b; Tantulo and Fotedar, 2006), fish (Fielder and Allan, 2003), red seaweed Lomentaria sp. Fotifying ISW with K+ to achieve similar concentration in OW is essential to sustain the growth of shrimp (Prangnell and Fotedar, 2006b; Tantulo and Fotedar, 2006), fish (Fielder and Allan, 2003), red seaweed Lomentaria sp. (Bui et al, 2017a) and brown seaweed Sargassum linearifolium (Bui et al, 2017b)
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