作 者:
赵言文;刘常珍;胡正义;高义民;王彩绒;毕冬梅
单 位:
南京农业大学农学院;西北农林科技大学;中国科学院南京土壤研究所土壤与持续农业国家重点实验室
摘 要:
采用温室盆栽淋洗试验 ,以NH_4 HCO_3为氮肥源 ,研究了元素硫 (S0 )和双氰胺 (DCD)对种葱和不种作物土壤NO3- N淋失量和NO_3~- N、NH_4 ~+ N浓度的影响 .结果表明 ,在 1 2周试验期间 ,与对照相比 ,S0 +DCD和S0 处理NO_3~ N淋失量分别低 83%~ 86 %和 83% ;NH4 + N淋失量分别高 1 6 8~ 2 1 0mg·盆 - 1和 2 0 4~ 2 5 0mg·盆 - 1;而同期无机氮 (NO3- N +NH4 + N)淋失量则低 6 0 % .试验结束后 ,,S0 +DCD和S0 处理土壤无机氮含量分别比对照高 79 9%~ 85 4 %和 74 9%~ 82 6 % ,以NH4 + N为主 .S0 +DCD处理无机氮淋失量比S0 和DCD处理分别低 4 6 %~ 1 4 4 %和 1 5 4 %~ 30 1 % ;试验结束后土壤无机氮分别高 6 1 %和 1 6 8~ 36 0 % .在Na2 S2 O3+DCD、Na_2 S_2 O_3和DCD处理中也发现类似结果 .可见S0施入土壤具有与DCD同样的氨稳定和硝化抑制作用 .S0 与DCD配合施用可使DCD的硝化抑制性增强 ,其作用机理是S0 氧化中间体 S_2 O_32 - 、S4 O6 2 - ,具有抑制硝化和DCD降解作用 ,延缓DCD硝化抑制效果 .S0 与DCD配合施用可用于延缓太湖流域蔬菜地土壤NH_4~ + N向NO_3~- N转化 ,减少氮向水体迁移风险 .
译 名:
Effects of elemental sulphur and dicyandiamide on mitigating NO_3~-N leaching loss from vegetable soil
作 者:
ZHAO Yanwen 1,2 ,LIU Changzhen 1,2 ,HU Zhengyi 2,GAO Yimin 3,WANG Cairong 3,BI Dongmei 1 ( 1Department of Agronomy,Nanjing Agricultural University,Nanjing 210095,China; 2State Key Laboratory of Soil and Sustainable Agriculture,Institute of Soil Science,Chinese Academy of Sciences,Nanjing 210008,China; 3Northwest Sci Tech University of Agriculture and Forestry,Yangling 712100,China).
关键词:
Element sulphur, Vegetable soil, Nitrate, Nitrification inhibitor
摘 要:
In a pot experiment with allium as test plant and NH 4HCO 3 as nitrogen source,this paper studied the effects of element sulphur(S 0)and dicyandiamide (DCD) on mitigating the NO 3 - N leaching loss from soil and on soil inorganic nitrogen (NO 3 - N and NH 4 + N) content.The results showed that within the 12 weeks of the experiment,the cumulative leaching loss of soil NO 3 - N in treatments S 0+DCD and S 0 was 83%~86% and 83% lower,while that of soil NH 4 + N was 16 8~21.0 mg·pot -1 and 20.4~25.0 mg·pot -1 higher than CK,respectively,and the cumulative loss of soil (NH 4 ++NO 3 -) N was 60% lower.By the end of the experiment,soil inorganic nitrogen content in treatments S 0 +DCD and S 0 was 79.9%~85.4% and 74.9~82.6% higher than CK,respectively.The cumulative leaching loss of inorganic N in treatment S 0 +DCD was 4.6%~14.4% and 15.4%~30.1% lower,and the soil inorganic nitrogen content by the end of the experiment was 6.1% and 16 8%~36 0% higher than that of treatments S 0 and DCD,respectively.Similar results were obtained when S 0 was replaced by Na 2S 2O 3,but not by Na 2SO 4.The fact that the application of S 0 could obviously decrease the NO 3 - N leaching loss from soil could be contributed to the inhibitory effects of S 2O 3 2- and S 4O 6 2- originated from S 0 oxidation in soil on the nitrification of NH 4 + N.S 0 could retard the decomposition of DCD due to the effect of its oxidized products S 2O 3 2- and S 4O 6 2- ,and thus,extend the inhibitory effect of DCD on NH 4 + N nitrification.It is suggested that S 0 combined with DCD could be used as an effective nitrification inhibitor to control the NO 3 - N leaching loss from vegetable soils.
