喀斯特地区青贮玉米用地土壤肥力平衡研究

为保证土壤肥力平衡,应用投入产出关系对青贮玉米种植用地土壤肥力平衡进行研究,通过单位面积青贮玉米中氮、磷、钾产出量,结合土壤对相应肥料的淋溶损失,提出青贮玉米在乳熟后期至腊熟期氮、磷、钾的合理施肥比例为1∶0.273∶0.845。

黄土高原黑垆土肥力平衡研究

摘要本文研究了黄土高原黑垆土的培肥途径。在粮食作物种植中,加入约三分之一面积的豆科牧草,结合深耕,合理施肥,经过三年轮作后,作物产量逐年增加,经济效益明显,土壤养分供应能有所提高,氮、磷、钾比例失调现象改善。其中土壤有机质、有效磷、速效钾的增加达极显著水平,水解性氮达显著水平;氮、磷、钾比例由原来的15～49:11:26～106,变为4.5:1:11,并且增强了土壤的自身代谢和抗逆性能,特别是促进了有效磷、钾的转化率,对协调黄土高原土壤肥力平衡有良好的作用。

现阶段作物生产的生态与经济效益评估——以江苏省为例

通过成本、效益比较和土壤养分投入产出分析,对江苏省现阶段的作物生产状况进行了生态与经济效益评估。结果表明:在农业劳动力多而耕地少的地区,棉花与玉米、小麦、油菜接作均可获得较高经济效益;在劳动力紧缺、规模化生产的地区,种植水稻+玉米、水稻+小麦、水稻+油菜为宜,不仅省工,且可获得较高的经济效益和产品能,水稻+玉米种植模式还能获得较高的秸秆能。在当前条件下,5种作物的N肥投入均大于产出,P肥产投接近平衡,而K肥投入远远小于产出。为兼顾经济效益和生态效益,维持土壤肥力平衡,水稻施N量应减少165～225 kg/hm2,小麦应减少75～105 kg/hm2,玉米应减少90～165 kg/hm2,棉花应减少120 kg/hm2,油菜应减少60～90 kg/hm2。棉花施K量应增加120 kg/hm2,而其余作物可通过秸秆还田来补充土壤K,维持K的产投平衡。

无公害蔬菜的施肥技术

1施肥原则无公害蔬菜的施肥原则是:以有机肥为主,其他肥料为辅;以施基肥为主,追肥为辅。尽量限制化肥的施用量,如确实需要,可以有限度、有选择的施用部分化肥,但应注意掌握以下原则:

探讨无公害蔬菜生产与施肥

1概述所谓无公害蔬菜是指蔬菜中农药残留、重金属、亚硝酸盐等有害物质的含量,控制在国家规定的允许范围内,人们食用后对人体健康不会造成危害的蔬菜。随着社会的进步和经济的发展,蔬菜的营养和安全卫生问题越来越突出,因其生长速度快,生长期较短,可食用部分比例高,与人类日常生活关系更为密切,受污染后对人体影响较大而倍受重视。

Effect of Biofertilizer on Biomass Productivity, Nutrient Balance and Soil Fertility in Rainfed Organic Ginger Production System

Farmers of North-Eastern India grow ginger organically and obtain low yield. Biofertilizer may help in increasing yield and maintaining soil fertility. An investigation made with different biofertilizers showed that seed treatment with biofertilizer increased biomass by 18.3%, enhanced N, P and K removal and improved short-term soil fertility status by increasing N and P balance and reducing negative K balance over control plots. Use of high dose （5.0 kg haL） of Azotobacter （a3） and medium dose （3.75 kg hal） of both Azospirillum （b2） and Phosphotica （c2） increased rhizome biomass by 6.8%-12.5% and shoot biomass by 5.6%-14.3% over other levels. They enhanced N, P and K removal by both rhizome and shoot when compared with other levels. The above biofertilizer treatments improved organic carbon and available N and P status of the soil by increasing N and P balance. The result showed overall strong negative K balance; but biofertilizer treatments greatly reduced the negative K balance in soil as compared to the control plots. Seed treatment with high level of Azotobacter along with medium level of Phosphotica （a3c2） produced the highest biomass yield （7.4 t hal）, increased N and P balance and fertility status in spite of hizh N, P and K removal.