Efek Perbedaan Jenis Rumput Laut Sebagai Agen Fitoremediasi Pada Sistem Budidaya Udang Windu (Penaeus monodon) Semi Intensif

Hery Irawan, Mahardhika Nur Permatasari, Ahmad Naufal Attaqi
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Abstract

The primary sources of organic waste in prawn ponds include feed waste from the farming process as well as ongoing metabolic activity, such as the production of urine and faeces. The increase in organic waste has an impact on reducing the water quality, one of the solutions is by implementing phytoremediation with seaweed. This research aimed to analyzed the growth and ability of seaweed Sargassum sp., Gracillaria sp., and Caulerpa sp. as phytoremediation agents to reduce organic matter in waters. This research was conducted for 68 days and used an experimental method with a completely randomized design (CRD) with 4 treatments and 3 replications. The treatment are A Sargassum sp., B Gracillaria sp., C Caulerpa sp. and D control. The results indicated that treatment C tended to decrease total organic matter (TOM) and sediment organic matter by 123.74 mg/l and 1.37%, respectively. The result also revealed that Caulerpa sp. the most effective seaweed to be used as phytoremediation organic materials in tiger shrimp farms compared to the two other seaweed species (i.e., Gracillaria sp. and Sargassum sp.). The growth of seaweed showed that there was a significant difference in specific growth of seaweed. The best specific growth rate value in treatment C was 1.37 ± 0.1%. The results of this study shown that Caulerpa sp. has more effective remediate organic matter and improve seaweed growth than Gracillaria sp. and Sargassum sp.
不同海藻物种作为植物修复剂在半密集型老虎虾(Penaeus monodon)养殖系统中的效果
对虾池塘中有机废物的主要来源包括养殖过程中产生的饲料废物以及持续的新陈代谢活动,如尿液和粪便的产生。有机废物的增加会影响水质的下降,其中一个解决办法是利用海藻进行植物修复。本研究旨在分析海藻马尾藻(Sargassum sp.)、藻类(Gracillaria sp.)和藻类(Caulerpa sp.)作为植物修复剂减少水体有机物的生长情况和能力。这项研究进行了 68 天,采用了完全随机设计(CRD)的实验方法,有 4 个处理和 3 次重复。处理分别为 A 马尾藻、B Gracillaria sp.、C Caulerpa sp.和 D 对照。结果表明,处理 C 有减少总有机物(TOM)和沉积物有机物的趋势,分别减少了 123.74 毫克/升和 1.37%。结果还显示,与其他两种海藻(即 Gracillaria sp.和 Sargassum sp.)相比,Caulerpa sp.是老虎虾养殖场最有效的植物修复有机材料。海藻的生长情况表明,海藻的比生长率存在显著差异。处理 C 的最佳特定生长率值为 1.37 ± 0.1%。研究结果表明,与 Gracillaria sp.和 Sargassum sp.相比,Caulerpa sp.能更有效地清除有机物并改善海藻的生长。
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