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Padma, M.
- Effect of Age of the Leaf and Method of Gel Preparation on Antioxidants and Microbial Count of Aloe Gel
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Authors
Affiliations
1 College of Horticulture, Andhra Pradesh Horticultural University, Hyderabad, A.P., IN
2 Vegetable Reseach Station, Agricultural Research Institute, Hyderabad, A.P., IN
1 College of Horticulture, Andhra Pradesh Horticultural University, Hyderabad, A.P., IN
2 Vegetable Reseach Station, Agricultural Research Institute, Hyderabad, A.P., IN
Source
International Journal of Processing and Post harvest Technology, Vol 4, No 1 (2013), Pagination: 30-33Abstract
An experiment was conducted at College of Horticulture, Rajendranagar, Hyderabad during 2009 to study the effect of age of the leaf and method of gel preparation on antioxidants and microbial count of Aloe gel. The experiment was carried out in Completely Randomized Block Design with factorial concept with aloe leaves of four different ages and four methods of gel preparation, replicated thrice with three leaves per replication. Four age groups comprised 8 months, 10 months,12 months and 14 months aged leaves. Similarly four methods of gel preparations were used comprising aloe leaf with skin with filtering, aloe leaf with skin without filtering, aloe leaf without skin with filtering and aloe leaf without skin without filtering which consisted of, total of 16 treatments. The results showed that among four age groups of aloe leaves, 14 months aged leaves recorded higher antioxidant activity (65.73% inhibition of peroxidation and 429.33% Thiobarbituric acid reactive substances) than the rest of the ages of leaves. Among the methods of gel preparation highest antioxidant activity was recorded with skin with filtering (48.35% inhibition of peroxidation and 453.42% Thiobarbituric acid reactive substances) than rest of the methods. Regarding the microbial count in Aloe gel microbial count was noticed in case of 8 months aged leaf recording less bacterial and yeast / mould count (4 and 3 cfu/ml). Higher microbial count was recorded with aloe gel obtained from 14 months aged leaf (12 and 6 cfu/ml). The lowest microbial count was noticed in case of method with skin and with filtering and highest microbial count with gel obtained through the method without skin and without filtering.Keywords
Antioxidant,aloe Gel , Microbial Count- Some Studies on Curing and Drying Characteristics of Turmeric Rhizomes
Abstract Views :243 |
PDF Views:0
Authors
Affiliations
1 Agricultural College, Jagtial (Telagana), IN
2 College of Agricultural Engineering, Bapatla (A.P.), IN
1 Agricultural College, Jagtial (Telagana), IN
2 College of Agricultural Engineering, Bapatla (A.P.), IN
Source
International Journal of Processing and Post harvest Technology, Vol 7, No 1 (2016), Pagination: 151-156Abstract
Turmeric is an important commercial spice crop grown in India and it is named as "Indian saffron". Turmeric is grown in tropical countries like India, Pakistan, Myanmar, Chile, Peru, El Salvador, Japan, China, Sri Lanka, Bangladesh, Indonesia, Taiwan, Jamaica, Thailand and West Indies. India accounts for 80 per cent of the global production of turmeric. The quality of turmeric powder depends upon the initial quality of rhizomes and on-farm processing of turmeric rhizomes which effects curcumin content, organoleptic characteristics, size and general appearance of the dried turmeric rhizomes. The on farm post harvest processing operations consists of washing, curing, drying, polishing, grading and colouring. Among all, curing, drying and polishing are the important operations of turmeric processing. Curing is a process of cooking the raw rhizomes in hot water to obtain attractive colour, characteristic aroma, destroy the viability of the fresh rhizomes and obviate the raw odour, reduces the time of drying, ensures an even distribution of colour in the rhizomes and gives a better quality product by gelatinisation of the starch (Purseglove and Brown, 1981). Method of curing turmeric varies from place to place.Drying of agricultural produce is an important factor in agricultural processing for improving the keeping qualities of the produce. Utilization of the solar energy for drying the agricultural produce is important. Since all other conventional sources of energy are in the declining trend in their availability, several researchers reported that solar energy is very useful for drying agricultural produce, particularly in India, where good sunshine is available on most of the days in a year for the following reasons, (a) it is pollution free, (b) available at no cost and (c) material drying is faster. The study was conducted to obtain fundamental data on the effect of different floor materials on open yard sun drying and Polyhouse drying. It is observed that the moisture content of turmeric fingers increases with increase in temperature of curing and curing time. At the time of 90 minutes the moisture contents were 84.41, 84.48, 84.80 and 85.77 per cent (w.b.) at the curing temperatures of 60, 70, 80 and 90°C, respectively. The moisture contents increased from the initial moisture content of 79.56 per cent (w.b.). It is observed that the floor materials affected the drying time marginally under the conditions of experiments, varied considerably from one method to the other. It is concluded that polyethylene sheet followed by tarpaulin are better floor materials to reduce the drying time and for good quality of turmeric powder.Keywords
Turmeric Rhizomes, Polyhouse, Open Sun Drying, Curing, Floor Materials.References
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