Loading...
Thumbnail Image

Theses

Browse

Search Results

Now showing 1 - 3 of 3
  • ThesisItemOpen Access
    A study on processing, nutritional evaluation and product development of Sesbania bispinosa (Dhaincha)
    (CCSHAU, Hisar, 2023-01) Seema; Kawatra, Asha
    The present study was carried to evaluate the physicochemical properties & nutritional composition of Sesbania bispinosa grains and to analyse effect of different processing technique (soaking, roasting, boiling, sprouting and fermentation) on its nutritional composition and utilization of grains for product development Seed density, Hydration capacity, hydration index, swelling capacity and swelling index of sesbania grains was recorded to be 1.06 g/ml, 0.01 g/seed, 0.68, 0.10 ml/seed and 0.02, respectively Cooking time of sesbania grain was as 46 minutes. Crude protein, crude fat, crude fibre, ash and total carbohydrates in sesbania grains was observed to be 30.97, 5.69, 6.72, 3.18 and 53.44 g/100g, respectively on dry matter basis. Crude protein content increased by 5.13 percent and 3.45 per cent on sprouting and germination, respectively whereas, it decreased (P≤0.05) after roasting, soaking and boiling process. Crude fat decreased significantly (P≤0.05) after all processing treatments except roasting. Crude fibre conent reduced significantly during all processing treatments except sprouting and fermentation. Total sugar content improved significantly (P≤0.05) while, starch content reduced with all processing treatments. Total dietary fibre content and dietary fibre constituents (NDF, ADF, lignin, cellulose and hemicellulose) altered with all thermal and non-thermal processing methods. Polyphenol content decreased after roasting, soaking and boiling whereas, increased significantly (P≤0.05) after sprouting and fermentation. Total antioxidant activity in sesbania grains improved significantly (P≤0.05) after each processing treatments being highest after sprouting. All the processings i.e. roasting, soaking, sprouting, boiling and fermentation resulted in improved in vitro protein digestibility in sesbania. Different processing treatment had significantly (P≤0.05) lowering effect upon antinutrients content including phytic acid, trypsin inhibitor activity and saponin content. Highest lowering effect exhibited by boiling and lowest was showed by soaking process. Physico-chemical properties improved significantly (P≤0.05) in flour obtained by all the processing treatments of sesbania grain. Different value added products (bakery, extruded, traditional, sprouted, fermented) were formulated using processed as well as unprocessed sesbania flour in different (10-50 %) proportions. Most of the developed food products were acceptable up to 10-30 per cent level of incorporation of processod and unprocessed samples. Sesbania grain can be used to contribute good amount of protein and other nutrients at low cost sparing other conventional legumes. This underutilized legumes (Sesbania bispinosa) should be further explored in respect of safe level of consumption, frequency of consumption, serving size to improve health status of human beings.
  • ThesisItemOpen Access
    Effect of salinity on soil properties and water productivity of brinjal (Solanum melongena L.) under drip irrigation
    (CCSHAU, Hisar, 2021-07) Seema; Dahiya, Rita
    Field experiment was conducted at the Research farm of Soil Science Department, CCSHAU, Hisar in the Kharif season during the years 2019 and 2020. The brinjal variety Hisar Shyamal was transplanted in split plot design and the experiment consisted of two irrigation methods (drip and surface flood) and three saline water levels (canal, ECiw=2.5 and 5.0 dS/m) as main treatments and three N fertilizer levels (75, 100 and 125% RDN) as sub-main treatment. The results revealed that the soil physical properties (bulk density, MWHC and SWRC) did not significantly affected by the saline water. The SOC decreased with increased saline water levels and the highest values were observed at 125% RDN. Soil pH and ECe increased with the saline water up to ECiw=5.0 dS/m and lower values were observed under drip irrigation. The cationic and anionic composition of soil extract was observed highest in saline water of ECiw=5.0 dS/m under surface flood irrigation. Available N and P of soil decreased and available K increased significantly with the increasing water salinity up to ECiw=5.0 dS/m. Available P and K decreased with the N fertilizer application at 125% RDN. The total NPK content in plant was significantly higher under canal water followed by ECiw=2.5 dS/m and ECiw=5.0 dS/m, respectively. The nitrogen fertilizer applied through drip increased the total N by 33.8, 27.9 and 25.9% at 75, 100 and 125% RDN over the flood irrigation. The data on the plant height, number of branches, fruit height, fruit diameter, number of fruits per plant, fruit weight, dry matter and fruit yield decreased with the increasing water salinity. However, the values of these parameters were more under drip than the surface flood irrigation. Regarding brinjal fruit quality, a significant decrease was observed in protein and carotenoid content while, total phenol and ascorbic acid increased under increasing water salinity. However, all the quality parameter increased with nitrogen application but total phenol decreased with the highest nitrogen doses (upto 125% RDN). The physiological parameters were also significantly affected by the increased saline water and N fertilizer levels under both the irrigation methods. These physiological parameters were observed improved under drip irrigation. The effect of the nitrogen fertilization at 100% RDN on physiological parameters was found statistically at par with the 125% RDN. Drip irrigation increased the nitrogen use efficiency and water use efficiency by 29.3 and 141.5% (ECiw=2.5 dS/m) and 36.8% and 147.3% (ECiw=5.0 dS/m) over surface flood irrigation method. The Hydrus-2D model performed well for simulating soil water and salt dynamics in drip irrigation as compared to surface flood irrigation
  • ThesisItemOpen Access
    Nutritional evaluation and development of value added products of chickpea (Cicer arietinum L.) leaves at different stages of maturity
    (CCSHAU, 2016) Seema; Khetarpaul, Neelam
    The present study was carried out with the objectives to determine the nutrient composition and antioxidant properties of chickpea leaves of desi and kabuli varieties (HC-1, C-235, HK-1 and HK- 2) at different stages of maturity (30, 45 and 45 DAS), to develop value added products from the chickpea leaves (10, 15 and 20%) and carry out the sensory and nutritional evaluation of developed products. Moisture, crude fat, carbohydrate were found maximum in the chickpea leaves at 30 DAS while crude protein, crude fibre and ash content were found to be maximum in the leaves was taken at 60 DAS. Dietary fibres (total insoluble and soluble) were found to be the highest in the leaves taken at 45 and 60 DAS. β -carotene in fresh leaves and dry leaves was highest (30 DAS) vitamin C in fresh leaves 60 DAS. Both the anti nutrients were lowest in chickpea leaves (30 DAS). Total and HCl extractable minerals were maximum at 45 and 60 DAS in all the varieties. Available minerals (Fe, Ca and Zn) in chickpea leaves were more at 45 DAS in desi and kabuli chickpea varieties. Antioxidants like phenolic compounds DPPH free radical scavenging activity and flavonoids in leaves of HK-1 were maximum i.e. 2.02 mg /GAE (HK-1, 45 DAS), 8.04 per cent (HK-2, 60 DAS) and 1.98 mg / g (HK-2, 60 DAS), respectively. Chutney, spinach sag, sev and churan goli fell in the category of ‘liked moderately’. Highest mean scores of overall acceptability for the chutney were with 15 per cent fresh leaves (45 DAS), spinach sag with 20 per cent fresh leaves (45 DAS), sev with 20 per cent dried leaves powder (45 DAS) and churan goli supplemented with 15 per cent dried leaves powder at 45 days after sowing. Moisture content in chutney, spinach sag and churan goli was found non significant having leaves of desi and kabuli chickpea varieties. Crude protein (g/100 g) of sev having leaves of HK-1 was significantly (p ≤ 0.05) higher (21.88) over that of sev having 20 per cent dried leaves powder of HC-1 (21.38), C-235 (21.73) and HK-2 (21.22). Crude protein of different products was not affected by chickpea varieties. Crude fat (g/100 g) in sev (20% dried leaves powder, 45 DAS) was significantly higher in variety HK-2 (22.50) over HK-1 (22.14), HC-1 (22.00) and C-235 (22.24). Sev and chutney were significantly (p ≤ 0.05) affected by the chickpea varieties for crude fibre content (g/100 g) and it was found to be the highest in HK-1 (4.47) followed by C-235 (4.39) and HK-2 (4.33 g) sev. Ash content of Churan goli was not affected by the varietal difference. But in chutney, spinach sag and sev, ash contents were significantly (p ≤ 0.05) affected by the supplementation levels of chickpea leaves. Carbohydrate content was significantly higher (51.15%) in sev having 20 per cent dried leaves powder of HC-1. Dietary fibres were significantly higher in sev supplemented with 20 per cent chickpea leaves of HK-1 at 45 DAS. Vitamin C content was significantly higher in chutney (HK-2, 2.56 mg / 100 g, 45 DAS). β - carotene content was maximum in spinach sag (3.24 mg /100 g, HK-1, 45 DAS) and churan goli (22.18 mg /100 g, HK-1, 40 DAS) having leaves of kabuli chickpea varieties. Varietal differences affected the oxalic acid in spinach sag and sev and phytic acid in chutney, spinach sag and sev significantly and were low in these products. Total calcium content was significantly higher (1604.2 mg / 100 g) in chutney containing leaves from desi chickpea variety (C-235, 45 DAS). Total potassium, phosphorus, iron and manganese contents in chutney and sev were significantly affected by supplementation levels of leaves of kabuli chickpea varieties but HCl extractable minerals (Ca, P, Fe, Zn, K and Mg and Cu) and available minerals (Fe, Ca and Zn) were not affected by any supplementation levels of leaves of chickpea varieties. Antioxidant activity in chutney, sev, and churan goli having leaves of desi chickpea varieties were significantly (p ≤ 0.05) affected. Sev and churan goli were tested for shelf life (0-13 weeks) and were found in the category ‘liked moderately’ and acceptable range. Lowest fatty acid in sev was observed in kabuli chickpea variety HK-1 (7.4 mg KOH/100 g) at zero day to 7.1 mg KOH /100 g at 13th week of storage which were not significantly different. Sev containing desi chickpea variety HC-1 leaves (20%, 45 DAS) had 294.56 mg free fatty acid per 100 g at 7th week. Lowest fat acidity was observed in churan goli having 15 per cent dried leaves powder of desi chickpea variety HC-1(3.0 and 14.42 mg KOH /100 g) at zero day and at 13th week of storage, respectively. The lowest free fatty acid content was observed in churan goli having 15 per cent dried leaves powder of kabuli chickpea variety HC-1 (60.62 mg / 100 g fat, as oleic acid) at 45 DAS as compared HK-2 (62.10 mg /100 g fat, as oleic acid). In a nutshell, the leaves of kabuli chickpea variety HK-1 had higher nutritional contents i.e. crude protein and fat, total dietary fibre, soluble dietary fibre, β - carotene, vitamin C, total minerals as well as HCl extractable and available minerals and highest antioxidant activity and the chickpea leaves could be supplemented in the various products like chutney (15% fresh leaves, 45 DAS) and spinach sag (20% fresh leaves, 45 DAS) and sev (20%, 45 DAS) and churan goli (20 and 15 %, 45 DAS, respectively) with good storability up to 13 weeks.