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2015 - 201922020 - 20211
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Author: KAU × Author: Maheswari, R S Nair × Start date: 2015 ×
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    ThesisItemOpen Access
    Protocol development for gel stabilization and nutraceuticals in aloe vera (L.) Burm. f.
    (Department of Plantation Crops and Spices, College of Agriculture, Vellayani, 2021) Maheswari R S Nair; KAU; Sreekala, G S
    The investigation entitled “Protocol development for gel stabilization and nutraceuticals in Aloe vera (L.) Burm. f.” was carried out in the Department of Plantation Crops and Spices, College of Agriculture, Vellayani during March 2016 to December 2019. The project envisaged formulation of a low cost stabilization technique for aloe gel using herbal extracts and aromatic oils and development of protocols for the preparation of dried latex and marketable nutraceuticals using aloe gel. The study was carried out as four experiments. The first experiment was to study the keeping quality and natural spoilage flora of fresh gel while the second experiment was for the standardization of curacao aloe (dried latex). The third experiment was on gel stabilization using herbal extracts and essential oils. Preparation of nutraceuticals from the stabilized liquidized aloe gel juice was the final experiment. The keeping quality and natural spoilage flora of fresh gel were assessed by subjecting the liquidized aloe gel juice to storage in glass bottles under ambient condition for seven days. The liqudized aloe gel juice was off white in colour for first three days of extraction with mild vegetative odour and got sedimented with foul smell from fourth day onwards. The liquidized aloe juice could not be stored for more than a day due to increased microbial population from the second day of storage. Preliminary trails conducted by pasteurizing the liquidized aloe gel juice at 65 0C and 15 psi pressure for 13 minutes followed by flash cooling registered no microbial population even after seven days of storage. The latex collected from aloe leaves was subjected to different methods of drying such as boiling followed by cooling, sun drying, shade drying and oven drying. Appearance, colour and aloin content (271.62 mg/ml) of dried latex was significantly higher for shade drying. Liquidized aloe gel juice was pasteurized and added with varying concentrations of three forms (aqueous, tincture, decoction) of herbal extracts and essential oils after adjusting the pH to 3.5 by adding 0.5 per cent of citric acid for gel stabilization. The treated samples were kept for a month and based on microbial population and minimum inhibitory concentration best treatment of each form was selected from preliminary trials for aloe gel stabilization. Gymnema sylvestre aqueous extract (1 ml), tincture (1 ml), decoction (2 ml), Centella asiatica aqueous extract (1 ml), tincture (2 ml), decoction (1 ml), Achyranthes aspera aqueous extract (2 ml), tincture (2 ml), decoction (1.50 ml), Tridax procumbens aqueous extract (2 ml), tincture (2 ml) , decoction (1 ml), Terminalia chebula aqueous extract (1 ml), tincture (1 ml), decoction (1 ml), Punica granatum aqueous extract (1 ml), tincture (2 ml), decoction (1 ml), green tea aqueous extract (2 ml), tincture (1 ml) and decotion (2 ml) and 1 ml each of sacred basil oil, lemon grass oil, cinnamon bark oil, clove oil and cardamom oil were selected and added to pH adjusted , pasteurized and liquidized aloe gel juice (25 ml) for gel stabilization. The gel stabilization was thus done using the selected twenty six treatments in a Completely Randomised Design replicated five times and compared with 0.08 per cent sodium benzoate as control and stored for six months. Appearance, colour and odour of all forms of the herbal extracts reduced on storage while those treatments with aromatic oils showed lesser percentage reduction in these parameters. Total solids, amylase and lipase activity decreased on storage. The amino acid content was the highest for liquidized aloe gel juice added with aqueous, tincture and decoction of Achyranthes aspera (0.08 ppm).Vitamin A and C were highest for treatment with green tea leaf aqueous extract which decreased subsequently on storage. An increase in microbial load was observed for all the treatments with herbal extracts from first month of storage. But addition of 1 ml clove oil resulted in stabilization of liquidized aloe gel juice which could be stored upto five months without microbial contamination or affecting the nutritive and sensory parameters. Nutraceuticals were prepared using stabilized liquidized aloe gel juice containing clove oil blended with lemon juice, orange juice and honey in proportions of 50 : 50, 75 : 25 and 90 : 10 followed by pasteurization, flash cooling and stored for 6 months. Appearance, colour and vitamin C were significantly higher for Lemon juice (50 ml) + Liquidized aloe gel juice (50 ml) + 2 ml clove oil while odour, taste, overall acceptability, pH, TSS, carbohydrates and calories were significantly superior for Honey (50 ml) + Liquidized aloe gel juice (50 ml) + 2 ml clove oil. Growth of microbes could be detected from third month of storage for all the treatments. Aloe health drink with honey in the ratio 50 : 50 added with clove oil were selected as the accepted drink which could be preserved for two months without microbial contamination. The preparation of aloe herbal powder by solar drying, air drying, oven drying or freeze drying resulted in a sticky product which could not be reconstituted with distilled water for quality comparison with fresh gel, thus warranting further investigation. The present study revealed that liquidized aloe gel juice pasteurized and mixed with clove oil (4 per cent) is a low cost stabilization method which can be taken as a base material for the preparation of health drink. The nutraceutical with liquidized and stabilized aloe gel juice mixed with equal proportion of honey and preserved with clove oil is a palatable drink having higher calories which could be stored for two months. The dried aloe latex a byproduct produced by shade drying is superior with high aloin content and can also be used for the development of marketable product.
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    ThesisItemOpen Access
    Evaluation of “long pepper” {Piper longum L.) genotypes for growth, flowering and yield
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2015) Maheswari R S Nair; KAU; Suma, B
    Long pepper (Piper longum L.) belonging to the family Piperaceae is one among the 14 medicinal plants which has high demand in indigenous drug industry and is also prioritized for cultivation and development by. National Medicinal Plant Board. Even though long pepper is well adapted for cultivation as an intercrop in coconut, arecanut and rubber plantations of Kerala, its cultivation is limited due to poor returns from the crop on account of high expenditure on harvesting due to staggered flowering and lack of high yielding varieties with high dry recovery. Germplasm collection of long pepper was initiated at the Department of Plantation Crops and Spices and was farther strengthened by^KSCSTE funded project and 60 types were assembled. After an initial evaluation, 42 types were selected including check variety ‘ViswanT for the present study. The present investigations on “Evaluation of “long pepper” (Piper longum L.) genotypes for growth, flowering and yield” was carried out in Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara during December 2012 to May 2014. The objectives of the study were to catalogue the germplasm accessions of long pepper, to study the flowering behavior fruit set and quality and to identify superior long pepper genotypes with high yield and quality. The experiment was laid out in completely randomized design, comprised of 42 treatments and six replications. The accessions studied were collected from Western Ghat regions of Kerala and also entries from NBPGR which includes the collections from different regions of Karnataka and Tirunelveli. Characters studied include six qualitative and eighteen quantitative characters including biochemical attributes. Cataloguing of accessions for qualitative characters using IPGRI descriptor for Piper nigrum revealed wide variation among accessions in growth habit, runner shoot production, leaf shape (base, lamina, margin), spike shape and spike colour. Among the forty two accessions studied, it was noticed that thirty eight accessions were found to be female, three found to be male and one non-flowering type. Maximum inflorescence (more than 55 per cent) was produced during June, July and August and minimum (less than 5 per cent) during December and January. In PL 42, PL 53 and PL 57 flowering was extended during May to October. Coefficient of variation for year round flowering ranged from 7.34 per cent to 46.32 per cent. Among accessions, number of primary branches, spike bearing branches per primary branch and leaves per plant ranged from 1.00 to 8.00, 1.00 to 6.71 and 21.67 to 166.0, respectively. The plant height, petiole length, intemodal length of spike bearing branches and leaf area ranged from 39.67 cm to 88.33cm, 1.11 cm to 7.56 cm, 1.86 cm to 7.38 cm and 25.98 cm2 to 63.87 cm 2, respectively. The days from planting to emergence and emergence to maturity of spike in female types ranged from 77 to 146 days and 60 to 80 days whereas, male accessions took 135-141 days and 61-64 days, respectively. Number of spikes/spike bearing branch ranged from 1.00 to 3.21 and coefficient of variation observed were 54.81%. Spike length and girth varied from 0.90 cm to 3.10 cm and 3.75 mm to 8.86 mm in female accessions and male accessions from 8.10 cm to 8.18 cm, and 4mm to 4.03 mm respectively. Coefficient of variation for spike length and girth were 7.87 per cent and 6.83 per cent, respectively. Fresh weight per spike recorded highest in PL8 (1.06 g) and dry weight per spike recorded maximum in PL 12(0.20 g). Fresh and dry yield per plant was recorded highest in PL8 which was on par with PL9 along with check variety Viswam. Coefficient of variation observed for fresh and dry yield per plant as 122.45 per cent and 120.44 per cent, respectively. Spike set percent was shown maximum by PL 8 (97.42 per cent) and driage by PL 49 (20.66 per cent). Based on yield parameters, PL 5, PL 8, PL 9, PL 15, PL 23, PL 24 and PL 25 along with check variety were selected as superior accessions. For volatile oil,oleoresin and piperine content, accessions PL 5, PL 8, PL 12 and PL 50 were promising. Cluster analysis among 42 accessions based on qualitative characters and 20 accessions based on quantitative characters were done by using Multivariate Hierrarchial Cluster Analysis using NTSYS software. The dendrogram derived through qualitative characteristics showed degree of similarity varying from 26 to 100 and at 81 per cent similarity long pepper accessions were grouped into seven clusters. Based on quantitative data, the accessions showed only 14 per cent similarity. Since the accessions showed wide variability it can be utilized in future breeding programmes.
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    ThesisItemOpen Access
    Evaluation of long pepper (Piper longum L) genotypes for growth flowering and yield
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2015) Maheswari R S Nair; KAU; Suma, B
    Long pepper (Piper longum L.) belonging to the family Piperaceae is one among the 14 medicinal plants which has high demand in indigenous drug industry and is also prioritized for cultivation and development by National Medicinal Plant Board. Even though long pepper is well adapted for cultivation as an intercrop in coconut, arecanut and rubber plantations of Kerala, its cultivation is limited due to poor returns from the crop on account of high expenditure on harvesting due to staggered flowering and lack of high yielding varieties with high dry recovery. Germplasm collection of long pepper was initiated at the Department of Plantation Crops and Spices and was further strengthened by KSCSTE funded project and 60 types were assembled. After an initial evaluation, 42 types were selected including check variety ‘Viswam’ for the present study. The present investigations on “Evaluation of “long pepper” (Piper longum L.) genotypes for growth, flowering and yield” was carried out in Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara during December 2012 to May 2014. The objectives of the study were to catalogue the germplasm accessions of long pepper, to study the flowering behavior fruit set and quality and to identify superior long pepper genotypes with high yield and quality. The experiment was laid out in completely randomized design, comprised of 42 treatments and six replications. The accessions studied were collected from Western Ghat regions of Kerala and also entries from NBPGR which includes the collections from different regions of Karnataka and Tirunelveli. Characters studied include six qualitative and eighteen quantitative characters including biochemical attributes. Cataloguing of accessions for qualitative characters using IPGRI descriptor for Piper nigrum revealed wide variation among accessions in growth habit, runner shoot production, leaf shape (base, lamina, margin), spike shape and spike colour. Among the forty two accessions studied, it was noticed that thirty eight accessions were found to be female, three found to be male and one non-flowering type. Maximum inflorescence (more than 55 per cent) was produced during June, July and August and minimum (less than 5 per cent) during December and January. In PL 42, PL 53 and PL 57 flowering was extended during May to October. Coefficient of variation for year round flowering ranged from 7.34 per cent to 46.32 per cent. Among accessions, number of primary branches, spike bearing branches per primary branch and leaves per plant ranged from 1.00 to 8.00, 1.00 to 6.71 and 21.67 to 166.0, respectively. The plant height, petiole length, internodal length of spike bearing branches and leaf area ranged from 39.67 cm to 88.33cm, 1.11 cm to 7.56 cm, 1.86 cm to 7.38 cm and 25.98 cm2 to 63.87 cm 2, respectively. The days from planting to emergence and emergence to maturity of spike in female types ranged from 77 to 146 days and 60 to 80 days whereas, male accessions took 135-141 days and 61-64 days, respectively. Number of spikes/spike bearing branch ranged from 1.00 to 3.21 and coefficient of variation observed were 54.81%. Spike length and girth varied from 0.90 cm to 3.10 cm and 3.75 mm to 8.86 mm in female accessions and male accessions from 8.10 cm to 8.18 cm, and 4mm to 4.03 mm respectively. Coefficient of variation for spike length and girth were 7.87 per cent and 6.83 per cent , respectively. Fresh weight per spike recorded highest in PL8 (1.06 g) and dry weight per spike recorded maximum in PL 12(0.20 g). Fresh and dry yield per plant was recorded highest in PL8 which was on par with PL9 along with check variety Viswam. Coefficient of variation observed for fresh and dry yield per plant as 122.45 per cent and 120.44 per cent, respectively. Spike set percent was shown maximum by PL 8 (97.42 per cent) and driage by PL 49 (20.66 per cent). Based on yield parameters, PL 5, PL 8, PL 9, PL 15, PL 23, PL 24 and PL 25 along with check variety were selected as superior accessions. For volatile oil, oleoresin and piperine content, accessions PL 5, PL 8, PL 12 and PL 50 were promising. Cluster analysis among 42 accessions based on qualitative characters and 20 accessions based on quantitative characters were done by using Multivariate Hierrarchial Cluster Analysis using NTSYS software. The dendrogram derived through qualitative characteristics showed degree of similarity varying from 26 to 100 and at 81 per cent similarity long pepper accessions were grouped into seven clusters. Based on quantitative data, the accessions showed only 14 per cent similarity. Since the accessions showed wide variability it can be utilized in future breeding programmes.