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Temperature Effects Feeding Behaviour of Pacific White Shrimp

28 May 2012

Evaluations of the passage of feed through the intestines of white shrimp shows that shrimp consume feed much faster when temperatures are above 32° C, writes Dr Carlos A. Ching, Kasetsart University, Thailand. Taken from the Global Aquaculture Advocate, a Global Aquaculture Alliance publication.

The rates at which feed is consumed and digested by shrimp vary with the temperature of the culture environment as well as other factors. Laboratory research and subsequent field trials by the authors examined the effects of varied water temperature on the feeding process of Pacific white shrimp, Litopenaeus vannamei.

The shrimp on the left has an empty gut before feeding started. The other shrimp’s gut is full 20 minutes after feed intake taken at 34° C.

Laboratory Experiments

In laboratory experiments carried out at Kasetsart University in Thailand, several empty-gut shrimp with average weights of 12 g were placed in aquariums filled with filtered seawater for evaluation of feed passage through the intestine at experimental temperatures of 24, 26, 28, 30, 32 and 34° C, which resemble those of common shrimp culture conditions.

Elapsed times at the following stages were recorded:

  • When feed was first observed in the gut
  • At half-full gut
  • At full gut, before feces were excreted
  • Beginning of feces excretion
  • Beginning of empty gut
  • Fully empty gut.

Feed was applied at 3% body weight according to a feed table developed by Kasetsart University. Thus, feed was applied as 1% body weight for each of the three daily meals. Leftovers like feces, exuviae and uneaten feed were siphoned before each feed application.

Experimental Results

For most treatments, it took only five minutes to initially observe feed in the empty guts after feed ingestion, but significant differences in speed of digestion started to show later. For instance, it took up to 55 minutes at 24° versus 20 minutes at 34° C for the shrimp’s guts to become full. Once feces started to be excreted, differences increased even more, as this time went up to 105 minutes at 24° versus 35 minutes at 34° C. Results from all trials are compared in Table 1.

Field Trials

Evaluations of feed consumption using feed trays at different temperatures was done at the Golden Sun farm located in Maoming, Guangdong, China, during the summer and autumn cycles of 2010.

Trials were done in eight 0.25-ha ponds stocked at 150 animals/m². Evaluations started when feed consumption increased strongly (at 6-g average weight and feeding at 3.5% body weight) and finished at harvest (14-g weight, 2.5% body weight feeding).

A feed table was used as a reference for feed doses, but feed tray readings were given priority for feed adjustments every day. Only 4% of the daily dose was placed in the feed trays, and the rest was broadcasted.

Feed was applied in equal doses to the ponds at 6 a.m., 10 a.m., 3 p.m. and 6 p.m. at different temperatures. Temperature was recorded before each dose, and feed trays were checked one to three hours after feed application. Feed doses were increased to a ceiling of 30% above the corresponding levels in the feed table.

Results grouped in three temperature ranges (Table 2) showed that at 32 to 34° C, leftovers were never found, while at ranges of 26 to 28° and 29 to 31°, feed consumption was considered in calculating the appropriate feed doses.

Ranges of Time for Stages of Feed Passage Through Shrimp Intestines at Six Experimental Temperatures Under Laboratory Conditions.

Feeding At High Temperatures

During the summer cycle, it was observed that feeding at 32° C or higher could produce an excess proliferation of phytoplankton, perhaps due to the high amount of nutrients liberated from feed and high accumulation of organic matter on the bottom. Consequently, masses of dead algae accumulated on the surface of the ponds. This situation became dangerous when excess feed increased the presence of toxic compounds like nitrites and the proliferation of Vibrio and other pathogenic bacteria, causing mortalities to shrimp.

It is worth mentioning that shrimp in some ponds outside the trial that were fed only 3 times/day had better feed conversion and survival than those in ponds fed 4 times/day, perhaps due to the deletion of the dose at 3 p.m., when temperatures peaked above 32° C. With less feed applied, culture conditions improved, as well as survival rate.

Consumption on Feed Trays at Different Temperature Ranges. Feed Doses were Calculated from a Feed Table using Complementary Information from Feed Tray Readings.

Perspectives

Nutritionists at Kasetsart University have found that the ideal temperature for the best digestibility of nutrients by shrimp is between 29 and 31° C, which coincides with the best range for feed conversion observed in these trials. According to the experiments described here, shrimp digestion at temperatures ranging from 24 to 28° C can take three to four hours, indicating that intervals between each feed dose should be perhaps five to six hours to allow the complete digestion and consumption of feed for each dose.

On the other hand, at temperatures higher than 32° C, digestion is much faster, and feed consumption may be higher. However, there is danger in increasing feed doses to levels that can bring higher organic matter concentrations on pond bottoms, phytoplankton blooms and large numbers of pathogenic bacteria. Finally, it was noted that by avoiding feeding at temperatures above 32° C, pond and production conditions were improved.

May 2012

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