作为生物过滤器的小叶杜鹃在循环水养殖系统中的生物量生产

IF 0.5 Q4 AGRONOMY Asian Journal of Agriculture and Development Pub Date : 2018-06-01 DOI:10.13057/ASIANJAGRIC/G020103

Sumoharjo Sumoharjo, M. Ma'ruf, I. Budiarto

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引用次数: 1

摘要

马鲁夫·M·布迪亚托1 . 2018。作为生物过滤器的小叶杜鹃在循环水养殖系统中的生物量生产。农业学报2:14-19。本研究利用大型植物(小叶Azolla microphylla Kaulf.)作为生物过滤器，或许水产养殖系统中产生的生物质可以作为潜在的替代饲料。本实验是实现这一愿景的第一步，旨在确定小叶杜鹃的生长速度及其从简单循环水养殖系统中去除氨的效率。实验装置以3 lpm、5 lpm和7 lpm三种不同的水流量设置在罗非鱼(Oreochromis niloticus)生长池的三种不同几何基板(棱柱、矩形和圆柱)上。结果表明:水流量对杜鹃花生长速率无显著影响(P < 0.10)。较低的水流量(3 lpm)使氨生物过滤效率最高，氨去除率可达总NH3-N和NH4+-N (TAN)的32.2±3.0%。

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Biomass production of Azolla microphylla as biofilter in a recirculating aquaculture system

Sumoharjo, Ma’ruf M, Budiarto I. 2018.Biomass production of Azolla microphylla as biofilter in a recirculating aquaculture system. Asian J Agric 2: 14-19. This study utilized macrophyte (Azolla microphylla Kaulf.) as biofilter and perhaps that biomass produced in aquaculture system can be potential for alternative feed. This experiment such a first step of that vision and was aimed to determine the Azolla microphylla growth rate and its efficiency in removing ammonia from a simple recirculating aquaculture system. The experimental units were set up in three different water flow, i.e. 3 lpm, 5 lpm, and 7 lpm onto the three different geometrically baseboard of Tilapia (Oreochromis niloticus) growing tanks (prism, rectangular and limas).The result showed that water flow did not give significant effect(P < 0.10) on the growth rate of Azolla.The lower water flow (3 lpm) resulted in the highest amonia biofiltration efficiency which can remove ammonia up to 32.2±3.0% of the total NH3-N and NH4+-N (TAN).

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Asian Journal of Agriculture and Development AGRONOMY-

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