W. Awoyale, William K. C. Kawalawu, M. Edet, A. Abass, B. Maziya-Dixon, R. Asiedu
{"title":"利比里亚gari的化学成分和功能特性评价","authors":"W. Awoyale, William K. C. Kawalawu, M. Edet, A. Abass, B. Maziya-Dixon, R. Asiedu","doi":"10.17508/cjfst.2019.11.2.02","DOIUrl":null,"url":null,"abstract":"The regular use of local cassava varieties and the exclusion of the fermentation \nstep in the processing of gari in Liberia may affect the composition and \nproperties of gari, hence the need to evaluate its chemical composition and \nfunctional properties. Gari samples were randomly collected from markets (35) \nand processing centers (24) in Rivercess, Grand Bassa, Bomi, Margibi, Sinoe, \nGbarpolu, Montserrado, and Grand Capemount Counties, and packaged in \nairtight polythene bags prior to laboratory analyses using standard methods, \nand the data generated analysed using Statistical Package for Social Scientist \n(SPSS Version 21). The results showed that the chemical composition of the \ngari samples is moisture content 6.40%; cyanogenic potential 20.70 mg HC/kg; \npH 5.38; starch content 62.05%; fat content 2.77%; ash content 1.20%; total \ntitratable acidity (TTA) 0.01 g/100 mL; and protein content 1.05%. The \nfunctional properties of the gari samples is water absorption capacity 525.13%; \noil absorption capacity 175.59%; least gelation concentration 6.13%; \ndispersibility 39.48%; bulk density 65%; swelling power (SWP) 8.04%; and \nsolubility index 14.96%. Peak viscosity is 165.60 RVU; trough viscosity \n149.10 RVU; breakdown viscosity 16.50 RVU; final viscosity 251.02 RVU; \nsetback viscosity 101.92 RVU; peak time 6.48 min; and pasting temperature \n50.82 °C. All the chemical composition and functional properties were \nsignificantly (p < 0.05) affected by the products except for ash, TTA, and \nprotein contents as well as the SWP (p > 0.05). The addition of moringa leaf \npowder, groundnut paste, roasted coconut chips, and milk powder increased \nthe fat and protein contents of the gari compared to the non-enriched products. \nGari of improved quality can be produced in Liberia if the available local \ncassava varieties with high cyanide content are fermented before roasting or \nthe newly introduced low cyanide varieties are used for gari production with \nthe stipulated standard operating procedures","PeriodicalId":10771,"journal":{"name":"Croatian journal of food science and technology","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-11-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Evaluation of the chemical composition and functional properties of gari from Liberia\",\"authors\":\"W. Awoyale, William K. C. Kawalawu, M. Edet, A. Abass, B. Maziya-Dixon, R. Asiedu\",\"doi\":\"10.17508/cjfst.2019.11.2.02\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The regular use of local cassava varieties and the exclusion of the fermentation \\nstep in the processing of gari in Liberia may affect the composition and \\nproperties of gari, hence the need to evaluate its chemical composition and \\nfunctional properties. Gari samples were randomly collected from markets (35) \\nand processing centers (24) in Rivercess, Grand Bassa, Bomi, Margibi, Sinoe, \\nGbarpolu, Montserrado, and Grand Capemount Counties, and packaged in \\nairtight polythene bags prior to laboratory analyses using standard methods, \\nand the data generated analysed using Statistical Package for Social Scientist \\n(SPSS Version 21). The results showed that the chemical composition of the \\ngari samples is moisture content 6.40%; cyanogenic potential 20.70 mg HC/kg; \\npH 5.38; starch content 62.05%; fat content 2.77%; ash content 1.20%; total \\ntitratable acidity (TTA) 0.01 g/100 mL; and protein content 1.05%. The \\nfunctional properties of the gari samples is water absorption capacity 525.13%; \\noil absorption capacity 175.59%; least gelation concentration 6.13%; \\ndispersibility 39.48%; bulk density 65%; swelling power (SWP) 8.04%; and \\nsolubility index 14.96%. Peak viscosity is 165.60 RVU; trough viscosity \\n149.10 RVU; breakdown viscosity 16.50 RVU; final viscosity 251.02 RVU; \\nsetback viscosity 101.92 RVU; peak time 6.48 min; and pasting temperature \\n50.82 °C. All the chemical composition and functional properties were \\nsignificantly (p < 0.05) affected by the products except for ash, TTA, and \\nprotein contents as well as the SWP (p > 0.05). The addition of moringa leaf \\npowder, groundnut paste, roasted coconut chips, and milk powder increased \\nthe fat and protein contents of the gari compared to the non-enriched products. \\nGari of improved quality can be produced in Liberia if the available local \\ncassava varieties with high cyanide content are fermented before roasting or \\nthe newly introduced low cyanide varieties are used for gari production with \\nthe stipulated standard operating procedures\",\"PeriodicalId\":10771,\"journal\":{\"name\":\"Croatian journal of food science and technology\",\"volume\":\" \",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2019-11-29\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"2\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Croatian journal of food science and technology\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.17508/cjfst.2019.11.2.02\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Croatian journal of food science and technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.17508/cjfst.2019.11.2.02","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
Evaluation of the chemical composition and functional properties of gari from Liberia
The regular use of local cassava varieties and the exclusion of the fermentation
step in the processing of gari in Liberia may affect the composition and
properties of gari, hence the need to evaluate its chemical composition and
functional properties. Gari samples were randomly collected from markets (35)
and processing centers (24) in Rivercess, Grand Bassa, Bomi, Margibi, Sinoe,
Gbarpolu, Montserrado, and Grand Capemount Counties, and packaged in
airtight polythene bags prior to laboratory analyses using standard methods,
and the data generated analysed using Statistical Package for Social Scientist
(SPSS Version 21). The results showed that the chemical composition of the
gari samples is moisture content 6.40%; cyanogenic potential 20.70 mg HC/kg;
pH 5.38; starch content 62.05%; fat content 2.77%; ash content 1.20%; total
titratable acidity (TTA) 0.01 g/100 mL; and protein content 1.05%. The
functional properties of the gari samples is water absorption capacity 525.13%;
oil absorption capacity 175.59%; least gelation concentration 6.13%;
dispersibility 39.48%; bulk density 65%; swelling power (SWP) 8.04%; and
solubility index 14.96%. Peak viscosity is 165.60 RVU; trough viscosity
149.10 RVU; breakdown viscosity 16.50 RVU; final viscosity 251.02 RVU;
setback viscosity 101.92 RVU; peak time 6.48 min; and pasting temperature
50.82 °C. All the chemical composition and functional properties were
significantly (p < 0.05) affected by the products except for ash, TTA, and
protein contents as well as the SWP (p > 0.05). The addition of moringa leaf
powder, groundnut paste, roasted coconut chips, and milk powder increased
the fat and protein contents of the gari compared to the non-enriched products.
Gari of improved quality can be produced in Liberia if the available local
cassava varieties with high cyanide content are fermented before roasting or
the newly introduced low cyanide varieties are used for gari production with
the stipulated standard operating procedures
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