The availability of poor quality fodders for livestock feeding is a major hurdle for the dairy industry in South Asia. Thelow content of Zn in fodders, leads to its malnutrition in animals. In fodders, Zn facilitates ...The availability of poor quality fodders for livestock feeding is a major hurdle for the dairy industry in South Asia. Thelow content of Zn in fodders, leads to its malnutrition in animals. In fodders, Zn facilitates protein synthesis, gene expressions,energy production and involves in various metabolic activities of plants, animals and humans. To achieve these objectives,multi-location field trials were conducted on enrichment of oats fodder with Zn through bio-fortification. The experiment consists ofeight different treatment combinations for enrichment of oats fodder with Zn including control, soil and soil plus foliar application ofZn at different stages of plant growth. The results of the study reported that soil application of Zn at the rate of 25 kg/ha and soil +foliar application of Zn at 0.5% at 60 days after sowing (DAS) (jointing stage), 90 DAS (booting stage) and both 60 DAS and 90DAS showed improvement in plant growth parameters. The results further reported that foliar application of Zn at the rate of 0.5% at60 DAS, 90 DAS, both 60 DAS and 90 DAS reported significant increase in biomass yield and fodder quality. Integrated applicationof Zn at 25 kg/ha in soil along with foliar Zn at the rate of 0.5% at 60 DAS and 90 DAS showed maximum Zn enrichment, greenfodder yield, dry fodder yield, plant height, and Zn accumulation in oats fodder as compared to other treatments of Zn application.These treatments of Zn application through integrated mode also reported significant improvement in fodder quality with maximumcrude protein (CP) and crude protein yield (CPY) while neutral detergent fiber (NDF), acid detergent fiber (ADF), ash content andorganic matter showed a non-significant effect. Thus, the results of experimental study concluded that soil and foliar application ofZn at 25 kg/ha and 0.5% Zn, respectively, at 60 DAS and 90 DAS enhanced the growth, yield and quality of oats fodder which willcertainly improve livestock production through bio-fortification.展开更多
文摘The availability of poor quality fodders for livestock feeding is a major hurdle for the dairy industry in South Asia. Thelow content of Zn in fodders, leads to its malnutrition in animals. In fodders, Zn facilitates protein synthesis, gene expressions,energy production and involves in various metabolic activities of plants, animals and humans. To achieve these objectives,multi-location field trials were conducted on enrichment of oats fodder with Zn through bio-fortification. The experiment consists ofeight different treatment combinations for enrichment of oats fodder with Zn including control, soil and soil plus foliar application ofZn at different stages of plant growth. The results of the study reported that soil application of Zn at the rate of 25 kg/ha and soil +foliar application of Zn at 0.5% at 60 days after sowing (DAS) (jointing stage), 90 DAS (booting stage) and both 60 DAS and 90DAS showed improvement in plant growth parameters. The results further reported that foliar application of Zn at the rate of 0.5% at60 DAS, 90 DAS, both 60 DAS and 90 DAS reported significant increase in biomass yield and fodder quality. Integrated applicationof Zn at 25 kg/ha in soil along with foliar Zn at the rate of 0.5% at 60 DAS and 90 DAS showed maximum Zn enrichment, greenfodder yield, dry fodder yield, plant height, and Zn accumulation in oats fodder as compared to other treatments of Zn application.These treatments of Zn application through integrated mode also reported significant improvement in fodder quality with maximumcrude protein (CP) and crude protein yield (CPY) while neutral detergent fiber (NDF), acid detergent fiber (ADF), ash content andorganic matter showed a non-significant effect. Thus, the results of experimental study concluded that soil and foliar application ofZn at 25 kg/ha and 0.5% Zn, respectively, at 60 DAS and 90 DAS enhanced the growth, yield and quality of oats fodder which willcertainly improve livestock production through bio-fortification.
