Jackfruit seed flour-based waffle ice cream cone: Optimization of ingredient levels using response surface methodology.

The jackfruit seed has excellent nutritional food value which can help to produce healthy and nutritious food products. In this study, wheat flour was partially replaced by jackfruit seed flour (JSF) for the formulation of waffle ice cream cones. The amount of wheat flour added in the batter on the basis of amount of added JSF. The JSF was added after optimization using response surface methodology in a batter formulation for waffle ice cream cones. The waffle ice cream cone was made from 100% wheat flour, was considered as control, and used to compare JSF supplemented waffle ice cream cones. Substitution of wheat flour with JSF has affected the nutritional and sensorial attributes of waffle ice cream cone. In regard to its protein content, ice cream permeability hardness, crispness, and overall acceptability. The protein content was increased (14.55%) after the addition of jackfruit seed flour up to 80% from control. The cone was supplemented with 60% of JSF resulted to the higher values of crispiness and overall acceptability as compared to other waffle ice cream cones. As the JSF have high value in water/oil absorption capacities, therefore it could be utilized into other value-added food products as whole or partial replacement of wheat flour.

Laser Induced breakdown spectroscopy: A rapid tool for the identification and quantification of minerals in cucurbit seeds.

Laser-induced breakdown spectroscopy (LIBS) was investigated to estimate the viability as a simple and rapid method for analysis of nutrient elements in seed kernels of cucurbits. LIBS spectra were recorded in the range of 200-975nm by using Q-switched Nd:YAG laser at 532nm (4ns, 10Hz) attached to echelle spectrometer with intensified charged coupled device (ICCD). The spectral analysis revealed the presence of several elements like C, O, N, Mg, Ca, Na and K in seeds. The quantification of elements (Mg, Ca, Na and K) through LIBS was done using calibration curve method in which all calibration curve shows good linearity (r>0.95). The result obtained through LIBS was in reasonable agreement with that obtained through atomic absorption spectroscopy (AAS). Principal Component Analysis (PCA) was also applied to the LIBS data for rapid categorization of seed samples belonging to same species although samples have similar nutrient elements.

Steeping preservation of cauliflower with hurdle concept.

Cauliflower is a rich source of proteins, carbohydrates, vitamins and minerals and also a very important vegetable having maximum availability in tropical climate from November to February which causes glut in the market and consequently producers do not get remunerative prices. The partially blanched cauliflower pieces of 3-4 cm long having stalk upto 2 cm in length are steeped in different levels of sodium chloride (NaCl, 2-6 %) and acetic acid (1-2 %) along with 350 ppm sulphur dioxide (SO2) using modified response surface methodology (RSM). The cauliflower samples steeped in 4 % NaCl, 1 % acetic acid and 350 ppm SO2 were rated best with maximum mean overall acceptability (OAA) score (6.90) and minimum mean preference (6.25) to the experimental run consisting of 6 % NaCl, 2 % acetic acid and 350 ppm SO2 was noted after 120 days of storage. There has been sharp decrease in pH values after 15 days of storage in all the experimental run of preserved cauliflower samples. The maximum mean decrease in hardness values (15.20-0.55 g.cm) was obtained in steeped cauliflower samples consisting of 6 % NaCl, 2 % acetic acid and 350 ppm SO2 during storage for 120 days at room temperature. The decrease in extent of browning, ascorbic acid and total carotenoids content in cauliflower samples was reported in all the experimental runs during 120 days of storage at room temperature. The optimum concentration for maximum desirability in the preservation of cauliflower consisted of 3.5 % sodium chloride and 1.1 % acetic acid and 350 ppm SO2.