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长期不同施肥对旱地小麦土壤氮素供应及吸收的影响 被引量:25

Effects of Long-Term Different Fertilization Managements on Changes of N in Soil and Its Uptake by Wheat on Dryland
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摘要 【目的】评价长期不同施肥处理土壤中氮素固持、供应和损失情况。【方法】以连续19年不施肥(NF)、施用化学氮、磷、钾肥(NPK)和有机肥与化学氮、磷、钾配施(MNPK)田间定位试验处理为对象,设置施氮和未施氮微区,研究了小麦生长期间土壤矿质态氮、土壤微生物量氮(SMBN)及小麦氮素吸收的动态变化。【结果】施用氮肥显著提高长期不施肥土壤(NF)矿质态氮含量(P<0.05),小麦拔节期、开花期和收获期增幅分别为239%、70%和62%,在小麦收获时施用的氮肥约50%淋溶到30 cm土层以下。氮肥施用使NPK处理土壤小麦拔节期和开花期矿质态氮含量分别显著增加46%和90%(P<0.05),但对MNPK处理土壤矿质态氮含量无显著影响。施用氮肥对NF处理SMBN无影响,使拔节期NPK和MNPK处理土壤SMBN含量分别显著增加1.8和3.4倍(P<0.05)。从拔节期到开花期,施用氮肥处理NPK和MNPK土壤SMBN显著降低49%和63%(P<0.05)。MNPK处理土壤小麦氮肥的利用率(69%)显著高于NF、NPK处理土壤(分别为5%和40%)。【结论】有机无机长期配施增强了土壤对氮肥的缓冲能力,协调了土壤中氮素固持、释放与作物吸收之间的关系,提高氮肥利用率。 【Objective】Organic fertilizer application can improve the biological function and affect the fates of inorganic N in soil.【Method】 The microplot method was used to compare the effects of 19-year different fertilization managements(NF,no application of fertilizer;NPK,inorganic NPK fertilizer;MNPK,manure plus inorganic NPK fertilizer) on changes of mineral N and soil microbial biomass N(SMBN) and its uptake by wheat on dryland.【Result】 Addition of urea-N significantly(P<0.05) increased mineral N content in the NF soil by 239%,70%,and 62% at elongating,flowering,and harvesting stage,respectively;and about half of added N was leached below 30 cm soil layers after harvesting wheat.Addition of urea-N also enhanced the mineral N in the NPK soil at elongating and flowering stage,but had no effect on mineral N in the MNPK soil.Addition N had no effect on SMBN in the NF soil,but significantly(P<0.05) increased SMBN by 1.8 times in the NPK soil and 3.4 times in the MNPK soil at elongating stage.Soil microbial biomass N in the NPK and MNPK soils at vigorous stages of wheat(from elongating stage to flowering stage) decreased by 49% and 63%,respectively.The use efficiency rate of added N in the MNPK soil was 69%,which was significantly(P<0.05) higher than in the NPK(40%) and NF(5%) soils.【Conclusion】 It was concluded that long-term application of manure plus chemical fertilizers increased the buffer capacity of soil to N fertilizer,and synchronized N retention in soil and take up by crops.
出处 《中国农业科学》 CAS CSCD 北大核心 2012年第5期885-892,共8页 Scientia Agricultura Sinica
基金 国家"十一五"科技支撑计划项目(2007BAD89B02) 国家自然科学基金(40571087) 西北农林科技大学创新团队项目
关键词 肥料定位试验 有机肥 化肥 土壤微生物量氮 氮肥利用率 long-term experiment manure chemical fertilizer soil microbial biomass N use efficiency
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