摘要
选用来自作物秸秆腐解过程中产生的化感物质( 苯甲酸和对叔丁基苯甲酸) ,在不同浓度和水分条件下对其减少施用尿素土壤中N2O 释放的影响进行了研究.结果表明,化感物质对土壤N2O释放有明显的抑制作用,且随着浓度的增大,其抑制效果越显著.在土壤水分为165 % 的状态下,100 ppm 、250 ppm 和500 ppm 浓度的苯甲酸处理( 培养温度25—30℃) 可减少474 % —753% N2O 从土壤中释放;而当土壤水分为100 % 状态时,上述浓度处理可减少502 % —911 % 左右.当培养温度为18 —20 ℃时,对叔丁基苯甲酸的不同浓度处理(100 ppm 、250 ppm 、500 ppm 和1000 ppm) 在土壤水分165% 和100 %时,可分别减少478 % —749 % 和288% —781% N2O 释放.试验还表明,化感物质可减缓土壤中NH4 + 向NO3 - 氧化,使尿素水解后释出的氨能在土壤中保持时间更长。
Benzoic acid and p \|tert\|benzoic acid are two allelochemicals which can be produced from decomposition of crop residue.N\-2O emission from soil was determined at various soil moistures when the two allelochemicals were applied at various concentration.The results showed that the allelochemicals could inhibit N\-2O emission from the soil,and the inhibiting effects increase with concentration.At concentrations of 100,250 and 500?mg/kg,benzoic acid inhibited 42.78%—67.93% of the N\-2O emission when soil moisture was 16.5%.At the same moisture, p \|tert\|benzoic acid reduced 45.27%—73.42% of N\-2O emission,at concentrations of 100,250,500,and 1000?mg/kg.While soil moisture was 100%,the two allelochemicals reduced 44.67%—89.78% and 26.40%—77.09% N\-2O emission,respectively.In addition,allelochemicals could retard oxidization of NH\-4\++ to NO\-3\+-.Therefore,as one of hydrolystates of urea,ammonia could retain longer in soil.Application of allelochemicals would improve the efficiency of fertilization and reduce environmental pollution.
出处
《环境科学学报》
CAS
CSCD
北大核心
1999年第5期478-482,共5页
Acta Scientiae Circumstantiae
基金
国家自然科学基金
