Hepatopancreas Colors Related To Vibrios Predict Survival Of Shrimp To EMS
Monitoring of Vibrio bacteria in shrimp larvae determined a relationship among hepatopancreas color, bacteria concentration and signs of early mortality syndrome. Shrimp with brown hepatopancreases had 3.50 x 103 CFU/g Vibrio with no EMS and high survival. Shrimp with white hepatopancreases had 6.02 x 107 CFU/g Vibrio and died within 10 days. Some animals with both brown and white hepatopancreas tissue had low bacterial concentrations, but survival depended on pond conditions. Management procedures used after the onset of mortality increased survival.
Outbreaks of early mortality syndrome (EMS) or acute hepatopancreatic necrosis (AHPN) have been increasingly seen at shrimp farms in Asia and other parts of the world. At a farm in Thailand, some ponds were hit with EMS, while others were not. Different survival rates were observed depending on the Vibrio bacteria concentrations in the larvae in the ponds.
H.P. Color Study
A study done at the farm revealed different survival rates depending on the color of the hepatopancreas (H.P.) organs in shrimp larvae stocked in the growout ponds. H.P. macerates separated by color were cultured in thiosulfate-citrate-bile salts-sucrose agar to determine a total number of colony-forming units (CFUs) identified later as Vibrio species.
The higher concentrations (averaging 6.02 x 107 CFU/g) of Vibrio came from larvae with white H.P. in ponds exhibiting mortality within the first 10 days of culture. Lower concentrations (averaging 3.50 x 103 CFU/g) were observed in larvae with brown hepatopancreas tissue in ponds with the highest survival rates, at or above 60%.
Another group of larvae – with both brown and white hepatopancreases – had averaged bacterial concentrations of 1.08 x 105 CFU/g. The survival rate of the shrimp improved when pond conditions were improved, and adequate management procedures were applied.
The measures included avoiding overfeeding. The total feed for 100,000 postlarvae should not exceed 200 kg for the first 30 days of culture. A consistent phytoplankton bloom should be achieved during the first 40 days. In addressing water quality, pH should be kept within a range of 7.8 to 8.3, with alkalinity levels maintained at 120 mg/L or greater.
Causes Of Unhealthy Postlarvae
A survey of the broodstock and hatchery facilities from which the unhealthy larvae came identified some problematic conditions.
Unhealthy broodstock often had unilateral eyestalk ablation. Ablated females usually died after the first spawn. Stocking densities were often high, at over 100 nauplii/L during larval rearing. Temperatures varied during larval culture instead of being maintained within the proper range of 30 ± 1° C. Microalgae populations were inconsistent, with pH values outside the proper range.
Management After EMS
Some ponds at the farm improved survival rates when the following management procedures were applied when initial EMS mortality was detected.
• Stop feeding until mortality stops and shrimp in feed trays look healthy, then gradually start feeding again.
• Use probiotic bacteria for improving water quality.
• Apply lime to maintain pH at 7.8 to 8.0 in the morning and a maximum of 8.3 in the afternoon.
• Turn on aerators fully for optimal dissolved-oxygen concentrations.
• Maintain a consistent phytoplankton bloom.
Postlarvae Quality Standards
A survey made by Thailand’s Department of Fisheries set a recommended standard for total Vibrio counts in shrimp postlarvae at less than 1,000 CFU/g cultured in agar before stocking. Of these 1,000 colonies, a maximum of 100 CFU/g should be green, and the other 900 CFU/g should be yellow. V. parahaemolyticus colony count should not exceed 30, while no V. harveyi colonies should be present.
Also, some Thai farmers are looking at the H.P. tubules’ shapes and lipids content. Tubules with smooth epithelia and good lipids content are considered healthy, while shrunken H.P. tubules with low lipid concentration are considered unhealthy.
Shrimp larvae with brown hepatopancreas (A, C) and a Vibrio count of 3.50 x 103 CFU/g (D) had the best survival rate at a Thai farm. The H.P. tissues of these larvae showed no sign of EMS attack (B).
Shrimp larvae with brown and white hepatopancreas (A, C) and a Vibrio count of 1.08 x 105 CFU/g (D) had low survival. The H.P. tissues of these larvae showed an initial condition of Vibrio attack (B).
Shrimp larvae with white hepatopancreas (A, C) and a Vibrio count of 6.02 x 107 CFU/g (D) died within 10 days after stocking. The H.P. tissues of these larvae showed an advanced condition of EMS attack (B).
Healthy hepatopancreas shows smooth epithelia and good lipid content (A). Initial Vibrio damage is observed in shrunken H.P. tubules (B, C). The final stage of EMS shows some collapsed H.P. tubules with almost no lipid content (D).
Dr. Chalor Limsuwan
Dr. Niti Churchird
Dr. Natthinee Munkong Wongsiri
Department of Fishery Biology, Kasetsart University, Bangkok, Thailand
Dr. Carlos A. Ching, Aquaculture Manager
Nicovita – Alicorp SAA, Av. Argentina 4793, Callao, Lima, Perú
Source: The Advocate – Global Aquaculture Advocate magazine – Jan. – Feb. 2014