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The purpose of this study is to analyze the effects of different fat levels and substitution of sodium chloride salt with potassium chloride on physic- chemical and sensorial properties and shelf life of fish sausage produced from minced fish in the refrigerator. To do this, the sausages have been produced with different fat levels (10, 15, 20 %) and substitution of part of sodium chloride with potassium chloride( 0.95 KCl+ 0.54 NaCl and 0.47 KCl+ 1.02 NaCl)and have been reserved in refrigerator for 30 days and physical, chemical and sensorial evaluations have been done. The results of analyzing the approximate composition and PH show salient differences between different formulations of sausage and the control sample (p<0.05). By adding KCl to formulation, the final products had higher harness in comparison to the control sample. Sensorial analyze didn't show any significant difference between the samples. Treatment with higher fat content got higher score in the textural properties but this difference was not significant (p> 0.05). There was not a salient difference in color, taste and total acceptance between samples and control sample. Generally sensorial properties reduced in time but this reduction was not significant. Increase of thiobarbituric acid has been observed in all treatment over time but this amount never violated the normal range in any treatments.

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To Aims salt reduction and investigation, the effect of sodium chloride (NaCl) replacement by potassium chloride (KCl) on the nutrition quality and sensory assessment of fish sauce from Common Kilka (Clupeonella cultriventris) with substituting NaCl by KCl at 0%, 25%, and 50% concentration was produced during 45 days of fermentation at 37±2 C^o. The proximate composition, free amino acid profile, profile, groups, and rate of the total amino acid (TAA), indices including acid amine score, chemical score, essential amino acid (EAA) index, biological value (BV) and protein efficiency rate (PER) as well as sensory assessment, was investigated. The increase of KCl concentration led to a decrease in the sum of essential free amino acids. The most abundant amino acid in the level of 100% NaCl and 25% KCl was glutamic acid as well in the level of 50% KCl was Lysine. The highest sum of EAA and rate of EAA to TAA respectively in the level of 25 and 50% KCl recorded. Phenylalanine, Methionine, and Threonine were identified as limiting amino acids in produced fish sauces. Fish sauce with 25% KCl concentration contained a higher amount of EAA index, BV, and PER than other samples. According to sensory assessment, levels of 100% NaCl and 24% KCl were accepted by the panelists. In Conclusion, due to partly improvement in nutrition quality as well as acceptable sensory, would suggest that NaCl replaces by KCl in 25% concentration in the production of common Kilka fish sauce.

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The influence of seed priming on the growth, amino and fatty acids contents of two wheat (Triticum aestivum L.) cvs. Keumkang and Backjung were evaluated through pot experiments in greenhouse and at field conditions. Four priming treatments involving three soaking media: 2.5% potassium Chloride (KCl), 1% potassium Sulfate (K₂SO₄), distilled water (H₂O) and unprimed (dry seeds) as the control were laid out in a randomized complete block design with four replications for each experimental condition. Under greenhouse condition, 1% K₂SO₄ priming enhanced growth and yield of wheat, while 2.5% KCl reduced the dry matter yield in Keumkang, but not in Backjung. In field condition, 1% K₂SO₄ improved the growth of both cultivars and increased the yield of Backjung, while 2.5% KCl in Keumkang had the lowest yield. Overall, this study showed that seed priming with 2.5% KCl and 1% K₂SO₄ triggered specific changes in the Amino Acids (AA) and Fatty Acids (FA) compositions in grain and had carry-over effects on the plant’s metabolic adjustments, which were specific to the cultivar and the growing environmental conditions. The compositional changes in AA and FA induced by seed priming have a profound impact on grain and flour quality of wheat.