RELATIVE ABUNDANCE AND SPECIES COMPOSITION OF GRAM-NEGATIVE, AEROBIC BACTERIA ASSOCIATED WITH THE GUT OF JUVENILE WHITE SHRIMP L

RELATIVE ABUNDANCE AND SPECIES COMPOSITION OF GRAM-NEGATIVE, AEROBIC BACTERIA ASSOCIATED WITH THE GUT OF JUVENILE WHITE SHRIMP LITOPENAEUS VANNAMEI REARED IN OLIGOTROPHIC WELL WATER AND EUTROPHIC POND WATER

S.M. Moss, B.R. Lea Master, J.N. Sweeney-2000

Journal of the World Aquaculture Society, 31 (2) : 255-263 (from Current Contents)

Abstract :

Gut bacteria may contribute significantly to the growth and survival of cultured shrimp, although little is known about factors that affect bacterial community structure in shrimp guts. The objective of this study was to determine the abundance and species composition of gut bacteria in juvenile white shrimp Litopenaeus vannamei reared in two different environments. Eight 120-L tanks were stocked at a density of 8 shrimp/tank. Two treatments were tested for 10 d and consisted of tanks receiving flow-through water from one of two sources: 1) well water pumped from a seawater aquifer (Well treatment), and 2) pond water pumped from an intensive shrimp pond (Pond treatment). Shrimp mid- and hindguts were excised on days 1, 3, 6, and 10 for enumeration of gram-negative, aerobic bacteria by quantifying colony-forming units (CFU) using standard microbiological plating techniques. identification of bacterial isolates was made using the Biolog(R) GN MicroPlate system. Bacterial numbers were significantly greater (P < 0.05) in Well shrimp than in Pond shrimp on days 1 and 3. Following day 3, a decrease in bacterial numbers occurred in the Well shrimp, and no significant differences between treatments were observed on days 6 or 10. Guts from Well shrimp were dominated by Vibrio and Aeromonas, and these two genera accounted for 80-85% of the bacteria on each sampling day. Guts from Pond shrimp exhibited a greater bacterial diversity and were dominated by Vibrio, Aeromonas, and Pseudomonas. Flavobacterium were identified in the guts of Pond shrimp on days 3 and 10, but were not identified in any of the Well shrimp. A greater understanding of gut bacteria-shrimp interactions could lead to increased production and profitability for shrimp farmers through the development of more cost-effective feeds and novel disease control strategies.

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