Silage production with intercropped pueraria lobata and zea may L
2017
Zhang, X. | Zhang, Y. | Li B., | Xu, C. | Cao, W. | Wang, J.
In this study, kudzu vine-corn intercropping model and their mixed silage were estimated. Two factor split plot experiment design was used. The main factor was intercropping density (A), with four levels: A₀, A₁, A₂, A₃. In which A₀ referred to control with only corn. A₁ was twolines cornwith one line kudzu, which meanscorn: kudzu=2: 1.A₂ referred totwo lines cornwith twolines kudzu, which waskudzu: corn= 2: 2.A₃ wastwo linescorn withthree linesof kudzu, which meant the ratio between kudzu and corn was 2: 3. The vice factor was nitrogen utilization level (B), also with four levels: B₀, B₁, B₂, B₃. B₀ meant no nitrogen utilization (0 kg/hm²). B₁ referred to the nitrogen level at 50 kg/hm²; B₂ was 100 kg/hm² and B₃ was 200 kg/hm². Corn was sowed in April and July separately in kudzu vine field. Two forages were harvested together when the corn was at the milk stage. After that, we measured the yield of the forages and then mixed the samples uniformly in each treatment. The mixed samples were chopped up and made into silage using the bag storage method for 60 days and then the silage quality was estimated by nutrition analysis including crude protein, crude fiber, ashes, fat and pH value. The results showed that, intercropping ratio of kudzu vine and corn was the main factor that influenced the system yield and nutrient content. The influence of nitrogen fertilizer declined as the kudzu vine grew. Intercropping density A₁, nitrogen application level B₁ or B₂ can get the highest nutrient yield, at the same time decrease nitrogen input. Meanwhile, the pH value of the silage was low, which indicated a good silage quality.
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