Litcius/Paper detail

<scp>Juvenile production technology</scp> for tiger shrimp, <i>Penaeus monodon,</i> through different stocking density using a recirculation system

Brata Pantjara, Romi Novriadi, Erfan Andi Hendrajat, Herlinah Herlinah, Ricko Reynalta, Tri Heru Prihadi, Anang Hari Kristanto, Rachman Syah, Jojo Subagja, Yohanna Retnaning Widyastuti, Adang Saputra, Deni Radona, Imam Taukhid

2024Journal of the World Aquaculture Society10 citationsDOIOpen Access PDF

Abstract

Abstract Aquaculture recirculation technology has evolved in recent years, as it can save water use and maintain good water quality during tiger shrimp fry rearing and ultimately increase juvenile production. The recirculation technology in this experiment is expected to be adopted by small‐scale tiger shrimp seed farmers. This study aims to develop the technology for producing a juvenile tiger shrimp recirculation system to support shrimp cultivation in ponds. The recirculation system container comprises a biofiltration tank filled with oysters, seaweed, and tilapia. Containers to keep tiger shrimp larvae alive in the recirculation system use a round‐shaped container with a volume of 2 m 3 . Tiger shrimp larvae were cared for at; A. density of 2000 individuals/m 2 ; B. density of 1500 individuals/m 2 ; and C. density of 1000 individuals/m 2 . This study found that the survival rate of tiger shrimp in treatments C and B were high, reaching 96.800 b ± 2.716% and 91.62 b ± 3.432%, respectively, while survival in treatment A was the lowest, at 81.700 a ± 4.715%.

Topics & Concepts

ShrimpPenaeus monodonBiologyTigerStockingFisheryJuvenileAquacultureAnimal scienceOreochromisShellfishAquatic animalEcologyFish <Actinopterygii>Computer scienceComputer securityAquaculture Nutrition and GrowthAquatic life and conservationInnovations in Aquaponics and Hydroponics Systems