机译:由冬小麦的植物土壤的N2O排放,受冬小麦受到氮肥量和硝化抑制剂的影响
Univ Hohenheim Inst Crop Sci Fertilizat &
Soil Matter Dynam 340i Fruwirthstr 20 D-70593 Stuttgart Germany;
Univ Hohenheim Inst Crop Sci Fertilizat &
Soil Matter Dynam 340i Fruwirthstr 20 D-70593 Stuttgart Germany;
Univ Hohenheim Inst Crop Sci Fertilizat &
Soil Matter Dynam 340i Fruwirthstr 20 D-70593 Stuttgart Germany;
Univ Hohenheim Inst Crop Sci Fertilizat &
Soil Matter Dynam 340i Fruwirthstr 20 D-70593 Stuttgart Germany;
EuroChem Agro GmbH Reichskanzler Muller Str 23 D-68165 Mannheim Germany;
Univ Hohenheim Inst Crop Sci Biostat 340c Fruwirthstr 23 D-70593 Stuttgart Germany;
Univ Hohenheim Inst Crop Sci Fertilizat &
Soil Matter Dynam 340i Fruwirthstr 20 D-70593 Stuttgart Germany;
N2O emission; Winter emission; DMPP; Nitrification inhibitor; N fertilizer amount; Winter wheat;
机译:由冬小麦的植物土壤的N2O排放,受冬小麦受到氮肥量和硝化抑制剂的影响
机译:新型硝化抑制剂3,4-二甲基吡唑琥珀酸(DMPSA)作为DMPP的替代品,可减少地中海湿润条件下小麦作物的N2O排放
机译:两种不同的,经生物炭改良的土壤在冬小麦下的氮利用效率和N2O排放量—覆盖作物—高粱轮作
机译:硝化抑制剂在土壤中的应用在浆料扩散后降低NH3和N2O排放
机译:I.土壤测试信息对作物生产的价值。二。土壤pH对石灰的响应,小麦产量对土壤pH的响应。三,两用冬小麦生产中土壤pH低管理的经济策略。
机译:有机三叶草-冬小麦种植顺序中耕作减少对温室气体排放和土壤碳储量的影响
机译:与冬小麦的植物土壤的N2O排放,受冬小麦受到N-肥料量和硝化抑制剂的影响
机译:小麦农业生态系统土壤碳储量和N2O排放受自由空气CO2浓度增高(FaCE)和氮处理的影响。