Abstract
The literature was reviewed for information on the chemical aspects of irradiated shrimp. Low-dose irradiation can effectively control spoilage and pathogenic organisms and extend the refrigerated shelf life of shrimp. Radiation-induced increases in black discoloration occur in some species during storage, but can be minimized by proper blanching. Some loss of the characteristic pink color occurs at doses above 2.5 kGy, and irradiation off-odors occur above 1.5 kGy. These changes can be minimized by irradiating the shrimp when they are frozen. No significant change in protein, fat, carbohydrate, and ash content occurs as a result of low-dose irradiation. Low-dose irradiation does not produce any detectable change in the levels of volatile carbonyl compounds; irradiation at 8 kGy results in a transient increase in the total volatile compounds during subsequent storage in ice, but the increase is higher in the unirradiated shrimp. Radiation-induced changes in the fatty acid composition of shrimp are small. Some minor changes in the amino acid composition occur in irradiated shrimp; similar changes occur due to other processes such as canning and drying in hot air. Some vitamins in shrimp such as thiamine are affected by irradiation. But the loss is less extensive than in thermally processed
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Citation Formats
Shamsuzzaman, K.
A review of the chemical aspects of irradiated shrimp.
Canada: N. p.,
1989.
Web.
Shamsuzzaman, K.
A review of the chemical aspects of irradiated shrimp.
Canada.
Shamsuzzaman, K.
1989.
"A review of the chemical aspects of irradiated shrimp."
Canada.
@misc{etde_10139694,
title = {A review of the chemical aspects of irradiated shrimp}
author = {Shamsuzzaman, K}
abstractNote = {The literature was reviewed for information on the chemical aspects of irradiated shrimp. Low-dose irradiation can effectively control spoilage and pathogenic organisms and extend the refrigerated shelf life of shrimp. Radiation-induced increases in black discoloration occur in some species during storage, but can be minimized by proper blanching. Some loss of the characteristic pink color occurs at doses above 2.5 kGy, and irradiation off-odors occur above 1.5 kGy. These changes can be minimized by irradiating the shrimp when they are frozen. No significant change in protein, fat, carbohydrate, and ash content occurs as a result of low-dose irradiation. Low-dose irradiation does not produce any detectable change in the levels of volatile carbonyl compounds; irradiation at 8 kGy results in a transient increase in the total volatile compounds during subsequent storage in ice, but the increase is higher in the unirradiated shrimp. Radiation-induced changes in the fatty acid composition of shrimp are small. Some minor changes in the amino acid composition occur in irradiated shrimp; similar changes occur due to other processes such as canning and drying in hot air. Some vitamins in shrimp such as thiamine are affected by irradiation. But the loss is less extensive than in thermally processed shrimp. The protein efficiency ratio is not affected by irradiation of shrimp, and no adverse effects attributed to irradiation were found in animal feeding studies.}
place = {Canada}
year = {1989}
month = {Sep}
}
title = {A review of the chemical aspects of irradiated shrimp}
author = {Shamsuzzaman, K}
abstractNote = {The literature was reviewed for information on the chemical aspects of irradiated shrimp. Low-dose irradiation can effectively control spoilage and pathogenic organisms and extend the refrigerated shelf life of shrimp. Radiation-induced increases in black discoloration occur in some species during storage, but can be minimized by proper blanching. Some loss of the characteristic pink color occurs at doses above 2.5 kGy, and irradiation off-odors occur above 1.5 kGy. These changes can be minimized by irradiating the shrimp when they are frozen. No significant change in protein, fat, carbohydrate, and ash content occurs as a result of low-dose irradiation. Low-dose irradiation does not produce any detectable change in the levels of volatile carbonyl compounds; irradiation at 8 kGy results in a transient increase in the total volatile compounds during subsequent storage in ice, but the increase is higher in the unirradiated shrimp. Radiation-induced changes in the fatty acid composition of shrimp are small. Some minor changes in the amino acid composition occur in irradiated shrimp; similar changes occur due to other processes such as canning and drying in hot air. Some vitamins in shrimp such as thiamine are affected by irradiation. But the loss is less extensive than in thermally processed shrimp. The protein efficiency ratio is not affected by irradiation of shrimp, and no adverse effects attributed to irradiation were found in animal feeding studies.}
place = {Canada}
year = {1989}
month = {Sep}
}