Gary D. Pruder scite author profile

Indigenous pond biota contribute to the nutrition of shrimp grown in semi‐intensive and extensive earthen ponds. Penaeus vannomei ingesta was used to assess the nutritional contribution of pond biota and applied feed in model 225 m2 nominally managed earthen ponds. Biochemical analyses were also performed on representative pond biota and pond environment samples. Average dry matter shrimp ingesta composition (N= 64) was: available carbohydrate, 4.2%± 1.8%; lipid, 4.8%± 2.3%; available protein, 9.6%± l.0%; carbon, 9.6%± 1.0%; nitrogen, 5.9%± 2.9%. Ingesta carbon decreased from 27.0%± 3.9% on week 2 to 16.3%± 3.3% on week 8, and nitrogen content decreased from 9.5%± 4.3% to 3.6%± 0.8% during the same interval. The decrease of ingesta C:N ratio from weeks 2 to 8 may indicate changing nutritional requirements of the shrimp. Ingesta essential amino acids varied by less than 10% from short‐neck clam protein. Except for several samples which were low in arginine, pond biota and environment samples contained amino acid profiles which were close to short‐neck clam. Essential fatty acid composition of shrimp ingesta was highly variable. Ingesta 22:6 fatty acid was present in populations of shrimp from ponds experiencing the highest weekly growth rates. Ingesta 22:6 fatty acid was not present in measurable amounts in shrimp experiencing the lowest growth. The unsaturated fatty acids 20:5 and 22:6 were absent from some pond biota and environment samples and abundant in others. The applied diet contained no measurable 20:5 or 22:6. The management implications of shrimp ingesta biochemical analyses are that diets may be fed which nutritionally complement pond biota consumed by the shrimp.

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The relative enhancement of Penaeus vannamei growth by selected fractions of shrimp pond water

Moss

Pruder

Leber

et al. 1992

Aquaculture

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Using Experimental Microcosms in Shrimp Research: The Growth‐Enhancing Effect of Shrimp Pond Water

Leber

Pruder

1988

J World Aquaculture Soc

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After preliminary six week experiments showed that shrimp pond effluent from an intensive culture growout pond had the capacity to nearly double shrimp growth in laboratory tanks, an 18 day experiment was designed to determine if similar results occurred in the presence of high quality feeds. The results presented here corroborate the hypothesis that autochthonous factors in shrimp pond water stimulate shrimp growth. These results revealed that performance of currently available shrimp feeds is greatly improved in the presence of pond effluent, regardless of feed quality. Increased feed performance did not appear to be an artifact of supplemental feed availability in pond effluent. The implications from these experiments are that, even in intensive culture systems (above 40 shrimp per m2), in‐situ sources of nutrition play an important role in shrimp growth.

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The role of CO2 enrichment of aerating gas in the growth of an estuarine diatom

Pruder

Bolton

1979

Aquaculture

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Gary D. Pruder

Characterization of organic particles associated with rapid growth in juvenile white shrimp, Penaeus vannamei Boone, reared under intensive culture conditions

Biochemical Composition of Pond Biota, Shrimp Ingesta, and Relative Growth of Penaeus vannamei in Earthen Ponds

The relative enhancement of Penaeus vannamei growth by selected fractions of shrimp pond water

Using Experimental Microcosms in Shrimp Research: The Growth‐Enhancing Effect of Shrimp Pond Water

The role of CO2 enrichment of aerating gas in the growth of an estuarine diatom

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