A study was conducted for the development of value added dahi by incorporating fruit pulps, cereal flour and whey proteins concentrate (WHC) to increase the nutritional and sensory quality. Value added dahi (VAD) ...A study was conducted for the development of value added dahi by incorporating fruit pulps, cereal flour and whey proteins concentrate (WHC) to increase the nutritional and sensory quality. Value added dahi (VAD) was prepared by using skim milk, oat flour and WPC. VAD with 1% oat flour, 1% whey protein concentrate was found to be highly acceptable by sensory evaluation and curd tension study. Statistically there was a highly significant difference (P 〈 0.05) between skim milk dahi (control) and VAD VAD scored highest sensory score for all the sensory parameters studied. Curd tension found to be markedly increased in value added dahi with increased firmness of the product. Value added stirred dahi was prepared with oat flour, whey protein concentrate, papaya, fig pulps and sugar with different combination in order to assess the suitable level of addition with maximum acceptability. Value added stirred dahi (VADl) with 1% oat flour, 1% WPC, 5% papaya pulp, 4% sugar combination was found to be acceptable among the other combinations. Storage studies evaluated by sensory score revealed that the value added dahi can be stored up to 7 days at 5 ^(2. A significant increase in acidity and decrease in pH were noticed in the VAD1 during the storage period but within the permissible limit. Statistical analysis revealed no significance difference (P 〉 0.05) in total count and yeast and mould count between VAD0 (control) and VADl during storage 5 ~C. Total yield of value added dahi increased along with cost of production due to increased cost of ingredients (fruits and whey protein concentrate) used for value addition.展开更多
A literature survey and focused interviews with experienced agronomists and socio-economists from south, east, and southeast Asian countries were conducted to determine physical and economic relationships of cereal yi...A literature survey and focused interviews with experienced agronomists and socio-economists from south, east, and southeast Asian countries were conducted to determine physical and economic relationships of cereal yields and N use, using partial factor productivity (PFP) and nitrogen (N) response functions, while considering the impacts of (N) and crop grain prices. The data were drawn from FAOSTAT, World Bank, and survey results from those countries. Rice has the greatest PFP-N (70 kg grain kg^-1 N), wheat a moderate (57 kg grain kg^-1 N), and maize the lowest PFP-N (52 kg grain kg^-1 N) at current application levels. At potential optimal N use rates, estimates for PFP-N were 26 kg grain kg^-1 N for maize, 25 kg for rice and 16 kg for wheat. Assuming a constant average PFP-N (30 kg grain kg^-1 N) for these cereals, it is estimated that 13 Mt N would be needed to meet a projected food demand by 2020 assuming no use of other additional inputs. Assuming a 20% increase in nitrogen use efficiency (NUE) to 36 kg grain kgl N, 10.6 Mt would be needed to meet the food demand, implying an annual growth rate in N use of 1.25%. It is concluded that economically optimal N rates are relatively insensitive to changes in prices of N and cereal grain. Key interventions to improve sustainable food security include increasing N fertilizer use, improving NUE, and reducing environmental impacts.展开更多
文摘A study was conducted for the development of value added dahi by incorporating fruit pulps, cereal flour and whey proteins concentrate (WHC) to increase the nutritional and sensory quality. Value added dahi (VAD) was prepared by using skim milk, oat flour and WPC. VAD with 1% oat flour, 1% whey protein concentrate was found to be highly acceptable by sensory evaluation and curd tension study. Statistically there was a highly significant difference (P 〈 0.05) between skim milk dahi (control) and VAD VAD scored highest sensory score for all the sensory parameters studied. Curd tension found to be markedly increased in value added dahi with increased firmness of the product. Value added stirred dahi was prepared with oat flour, whey protein concentrate, papaya, fig pulps and sugar with different combination in order to assess the suitable level of addition with maximum acceptability. Value added stirred dahi (VADl) with 1% oat flour, 1% WPC, 5% papaya pulp, 4% sugar combination was found to be acceptable among the other combinations. Storage studies evaluated by sensory score revealed that the value added dahi can be stored up to 7 days at 5 ^(2. A significant increase in acidity and decrease in pH were noticed in the VAD1 during the storage period but within the permissible limit. Statistical analysis revealed no significance difference (P 〉 0.05) in total count and yeast and mould count between VAD0 (control) and VADl during storage 5 ~C. Total yield of value added dahi increased along with cost of production due to increased cost of ingredients (fruits and whey protein concentrate) used for value addition.
文摘A literature survey and focused interviews with experienced agronomists and socio-economists from south, east, and southeast Asian countries were conducted to determine physical and economic relationships of cereal yields and N use, using partial factor productivity (PFP) and nitrogen (N) response functions, while considering the impacts of (N) and crop grain prices. The data were drawn from FAOSTAT, World Bank, and survey results from those countries. Rice has the greatest PFP-N (70 kg grain kg^-1 N), wheat a moderate (57 kg grain kg^-1 N), and maize the lowest PFP-N (52 kg grain kg^-1 N) at current application levels. At potential optimal N use rates, estimates for PFP-N were 26 kg grain kg^-1 N for maize, 25 kg for rice and 16 kg for wheat. Assuming a constant average PFP-N (30 kg grain kg^-1 N) for these cereals, it is estimated that 13 Mt N would be needed to meet a projected food demand by 2020 assuming no use of other additional inputs. Assuming a 20% increase in nitrogen use efficiency (NUE) to 36 kg grain kgl N, 10.6 Mt would be needed to meet the food demand, implying an annual growth rate in N use of 1.25%. It is concluded that economically optimal N rates are relatively insensitive to changes in prices of N and cereal grain. Key interventions to improve sustainable food security include increasing N fertilizer use, improving NUE, and reducing environmental impacts.
