Lestari L. Widowati, T. Elfitasari, S. B. Prayitno, S. Rejeki, P. W. Purnomo, R. Ariyati, R. Bosma
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The concentration of TAN, NO 3, and NO 2 were monitored every week, while dissolved oxygen (DO), pH, temperature, and salinity werechecked daily for 30 days. The highest shrimp survival rate (79.75%) and growth rate (6.6%day -1 ) were obtained in the 100 g.m -2 of G. verucosa, significantly higher than in other treatments. Furthermore, seaweed density has a decreasing effect of NO 3 content (g/L) in RL100 from 0.26 to 0.16. and the lowest concentration of NO 2 and NO 3 were determined. Conversely, the highest density of seaweed (200 g m -2 ) gave the lowest survival rate of shrimp (53.67%) due to high NO 2 content. DO had various values depending on the density and drop to less than 3.5 ppm in the highest density. In all treatments, pH, temperature and salinity werein a good range for shrimp culture. Thus, 100 g.m -2 of seaweed was optimal for ensuring the function as nutrient removal in shrimp co-culture.","PeriodicalId":193095,"journal":{"name":"SAINTEK PERIKANAN : Indonesian Journal of Fisheries Science and Technology","volume":"58 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2020-10-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"THE ROLE OF SEAWEED (Gracilaria verucosa) IN CO-CULTIVATION WITH TIGER SHRIMP (Penaeus monodon) AS AN ECOLOGICAL INTENSIFICATION\",\"authors\":\"Lestari L. Widowati, T. Elfitasari, S. B. Prayitno, S. Rejeki, P. W. Purnomo, R. Ariyati, R. Bosma\",\"doi\":\"10.14710/IJFST.16.3.%P\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The use of seaweed as ecological tools for improving environmental condition has been proved to sustain shrimp production. However, adding too much seaweeds caused oxygen depletion and nutritional competition. 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Conversely, the highest density of seaweed (200 g m -2 ) gave the lowest survival rate of shrimp (53.67%) due to high NO 2 content. DO had various values depending on the density and drop to less than 3.5 ppm in the highest density. In all treatments, pH, temperature and salinity werein a good range for shrimp culture. 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引用次数: 0
摘要
利用海藻作为生态工具改善环境条件已被证明可以维持虾类生产。然而,添加过多的海藻会导致氧气消耗和营养竞争。本研究的目的是确定支持单虾生长的疣藻的最佳密度。该研究在Demak Regency的Tambakbulusan村进行,使用了20个纤维半户外水箱。试验采用无海藻、吊绳加海藻4种密度(50、100、150、200 g.m -2)的试验池,并在800 L微淡水体系中与80尾尾单虾(2.0 ~ 2.9 g)共培养。每周监测TAN、no3、no2浓度,每天检测溶解氧(DO)、pH、温度、盐度,连续30天。100 g m -2处理对虾成活率最高(79.75%),生长率最高(6.6%),显著高于其他处理。海藻密度对RL100中no3含量(g/L)的影响由0.26降至0.16。确定了no2和no3的最低浓度。相反,海藻密度最高(200 g m -2)时,由于no2含量高,对虾存活率最低(53.67%)。DO的值随密度的不同而不同,在最高密度时降至3.5 ppm以下。在所有处理中,pH值、温度和盐度都在对虾养殖的良好范围内。因此,在对虾共养中,100 g m -2的海藻最适去除营养物质。
THE ROLE OF SEAWEED (Gracilaria verucosa) IN CO-CULTIVATION WITH TIGER SHRIMP (Penaeus monodon) AS AN ECOLOGICAL INTENSIFICATION
The use of seaweed as ecological tools for improving environmental condition has been proved to sustain shrimp production. However, adding too much seaweeds caused oxygen depletion and nutritional competition. The objective of this study was to determine the optimum density of G. verucosa for supporting the growth of monodon shrimp. The research was conducted in Tambakbulusan village, Demak Regency with 20 fiber semi outdoor tanks. The tanks were used for the experiment without seaweed and with four densities of seaweed (50, 100, 150 and 200 g.m -2 ) using hanging rope and were co-cultivated with 80 individuals of post larva (2.0-2.9 g) monodon shrimp in 800 L brackish-water system. The concentration of TAN, NO 3, and NO 2 were monitored every week, while dissolved oxygen (DO), pH, temperature, and salinity werechecked daily for 30 days. The highest shrimp survival rate (79.75%) and growth rate (6.6%day -1 ) were obtained in the 100 g.m -2 of G. verucosa, significantly higher than in other treatments. Furthermore, seaweed density has a decreasing effect of NO 3 content (g/L) in RL100 from 0.26 to 0.16. and the lowest concentration of NO 2 and NO 3 were determined. Conversely, the highest density of seaweed (200 g m -2 ) gave the lowest survival rate of shrimp (53.67%) due to high NO 2 content. DO had various values depending on the density and drop to less than 3.5 ppm in the highest density. In all treatments, pH, temperature and salinity werein a good range for shrimp culture. Thus, 100 g.m -2 of seaweed was optimal for ensuring the function as nutrient removal in shrimp co-culture.
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