New paradigm for controlling EMS/APHNS in intensive P. vannamei Boone 1931 culture ponds


Citation

Kawahigashi David, . New paradigm for controlling EMS/APHNS in intensive P. vannamei Boone 1931 culture ponds. pp. 182-193. ISSN 0116-6514

Abstract

Since 2014 a gradual paradigm shift has been taking place in Thailand where the farmers have changed the dynamics of their ponds to maximize diversity to control Vibrio and prevent APHND/EMS outbreaks. The objective is a rather simple one to keep the pond bottoms clean of sediments and sludge. To achieve this farm modules can use a combination of recirculation and flow-through water exchange to maintain a low-risk sustainable culture system. There are four major components that the new� farm design incorporates into the strategy to maintain clean pond bottoms: reduction of grow-out pond size increased reservoir to grow-out pond ratio increased aeration/energy capacity and construction of a shrimp toilet at the center of the pond. The most significant shift in strategy is the reservoir to grow-out ratio. Traditional farms that were once 20 reservoirs and 80 production were changed to 60 reservoir and 40 grow-out capacity. Transitioning a traditional farm into an intensive controlled and sustainable shrimp toilet� culture system may be the best solution to overcome APHND Vibriosis and viral diseases.


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Abstract

Since 2014 a gradual paradigm shift has been taking place in Thailand where the farmers have changed the dynamics of their ponds to maximize diversity to control Vibrio and prevent APHND/EMS outbreaks. The objective is a rather simple one to keep the pond bottoms clean of sediments and sludge. To achieve this farm modules can use a combination of recirculation and flow-through water exchange to maintain a low-risk sustainable culture system. There are four major components that the new� farm design incorporates into the strategy to maintain clean pond bottoms: reduction of grow-out pond size increased reservoir to grow-out pond ratio increased aeration/energy capacity and construction of a shrimp toilet at the center of the pond. The most significant shift in strategy is the reservoir to grow-out ratio. Traditional farms that were once 20 reservoirs and 80 production were changed to 60 reservoir and 40 grow-out capacity. Transitioning a traditional farm into an intensive controlled and sustainable shrimp toilet� culture system may be the best solution to overcome APHND Vibriosis and viral diseases.

Additional Metadata

[error in script]
Item Type: Article
AGROVOC Term: Prawns and shrimps
AGROVOC Term: Penaeus vannamei
AGROVOC Term: Penaeidae
AGROVOC Term: Shellfish culture
AGROVOC Term: Crustacean culture
AGROVOC Term: Disease control
AGROVOC Term: Bacterial diseases
AGROVOC Term: Vibrio
AGROVOC Term: Farming systems
AGROVOC Term: Ponds
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:54
URI: http://webagris.upm.edu.my/id/eprint/7983

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