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ThesisItem Open Access DEVELOPMENT OF A DUCK MEAT LOAF INCORPORATED WITH KUMURA (Benincasa hispida)(Assam Agricultural University, Khanapara, Guwahati, 2016-07) DAS, JYOTISHKA KUMAR; Hazarika, M.The study was conducted in the Department of Livestock Products Technology, Assam Agricultural University, Khanapara, Guwahati-22 to develop a value added ready-to-eat duck meat loaf incorporating Kumura (Benincsa hispida) at 3 different levels viz 5%, 7.5% and 10% along with the control without affecting the physico-chemical, microbial, organoleptic qualities and shelf life of the products. A total of five batches of cooked duck meat loaves comprising of 4 different formulations in each batch were prepared. The lean meat was substituted by Kumura (Benincasa hispida) at the levels of 5%, 7.5% and 10%. Ducks were collected hygienically; slaughtered, deboned, minced, cured and processed. Different formulations of loaf emulsion were prepared by thoroughly mixing Kumura with required amount of meat , non-meat ingredients, spices, and ice to form a stable meat emulsion. The meat emulsion was stuffed into rectangular stainless steel boxes covered with aluminium foil and cooked in hot water at 850C for 45 minutes. And cooled to room temperature by showering . The meat loaves were packed in food grade packaging (polyethylene) bags separately for each formulation, stored at 4±10C. and evaluated for different quality attributes. Different parameters such as cooking loss, emulsion stability, water holding capacity, pH, thiobarbituric acid value, proximate composition, organoleptic quality, microbial quality, shelf life including cost of the products were studied. The results of the investigation are as follows: Emulsion stability of the Kumura incorporated duck meat loaf emulsions were found to be significantly (P<0.01) higher when compared to control sample without added Kumura. Mean percent cooking loss was found to be gradually increasing as the percentage of Kumura was increasing in the samples. The cooking loss was non significantly lower in control sample (6.20 ±0.59) compared to treated samples with kumura. The duck meat loaf with higher level of Kumura showed significantly (p<0.01). higher water holding capacity. The highest (65.59±2.02) water holing capacity was shown by sample with 10% Kumura followed by T2, T1 and control. The results with respect to pH of the loaves has shown that the product with 10% incorporation of Kumura had the lowest pH value followed by samples with 7.5 percent, 5% and control sample. The pH decreased significantly (P<0.01) with increased incorporation of Kumura. The results pertaining to TBA values indicated that the control sample had the significantly (P<0.01) highest rancidity effect than the other treated samples with Kumura. The TBA values significantly (P<0.01) increased with increase in the storage period in all samples. The percentage of moisture increased, protein decreased, fat decreased and ash also decreased in treated samples as compared to the control samples. M:P ratio ( Moisture: protein ratio) increased in the treated samples as compared to the control. The bacterial counts (TVMBC and Psychrophilic counts) decreased in the treated samples as compared to the control. No yeast and mould were recorded upto 5th day of storage. However yeast and mould were found on 10th day. With respect to the texture and colour profile no significant differences were found among the samples. The panel members offered almost equal scores for sensory attributes for all the samples as there were no significant (P>0.05) differences among the means of sensory scores. The average shelf life of the samples kept at refrigerated temperature (4±10C) was below 5 days. The cost of the loaves were Rs 528.22/kg for control, Rs 511.70/ kg for T1 , Rs .503.11/ kg for T2 and Rs. 494.14/kg for T3. Based on the investigation, it can be concluded that an acceptable ready-to eat duck meat loaf can be developed for future commercial exploitation.