| 紫色土坡耕地氮淋溶过程及其环境健康效应 |
| 摘要点击 3045 全文点击 1520 投稿时间:2013-10-28 修订日期:2013-12-18 |
| 查看HTML全文
查看全文 查看/发表评论 下载PDF阅读器 |
| 中文关键词 壤中流 降雨 施肥处理 氮素迁移 紫色土 |
| 英文关键词 subflow rainfall fertilizations nitrogen transfer purple soil |
|
| 中文摘要 |
| 本研究通过观测3场不同降雨强度及不同施肥方式处理下氮素随紫色土坡耕地的壤中流迁移过程,并对氮素淋溶效应的环境健康效应进行风险评价,进而为控制紫色土地区氮素非点源污染及建立合理施肥制度提供科学依据. 结果表明,不同降雨强度下,氮素随壤中流输出形态差异较大,溶解态氮(DN)的比重为53.74%~99.21%,其中硝酸盐(NO3--N)的比重约为35.70%~93.65%,而在中雨强度下硝酸盐比重高达84.09%~93.65%;对于不同降雨强度,中雨强度下(降雨量为24.7 mm)壤中流各形态氮素输出通量最高,总氮(TN)、DN、颗粒态氮(PN)、铵态氮(NH4+-N)和亚硝态氮(NO2--N)输出通量分别可高达737.17、711.12、26.06、12.70和0.46 mg·m-2,而NO3--N输出通量可高达686.12 mg·m-2,对地下水环境存在巨大污染隐患. 通过对地下水氮素进行污染风险评价,表明秸秆还田能够有效缓解施肥带来的氮淋溶效应,降低地下水氮素污染风险,特别是有机-无机肥配施能有效减缓地下水污染状况,达到改善土壤肥力从而增加农作物产量的目的. |
| 英文摘要 |
| In this paper, we monitored different forms of nitrogen(N) transported by the subsurface flow under three different natural rainfall events and different fertilizations and conducted an associated risk evaluation on environmental health, which provides scientific basis for controlling N non-point pollution and establishing a reasonable fertilization system in purple soil area. The results showed that there were different forms of N transport by subsurface flow under different rainfall events, where in dissolved nitrogen (DN) accounted for about 53.74%-99.21%, and nitrate (NO3--N) accounted for about 35.70%-93.65% of DN, and especially under the moderate rainfall, NO3--N could reach 84.09%-93.65% of DN. The different N fluxes were the highest under moderate rainfall among different rainfall events, in which the flux of total nitrogen(TN), DN, particle nitrogen(PN), ammonia(NH4+-N) and nitrite(NO2--N) reached 737.17, 711.12, 26.06,12.70 and 0.46 mg·m-2, respectively, and the NO3--N flux was as high as 686.12 mg·m-2, showing a huge potential threat on groundwater health. Through the risk assessment on N pollution for groundwater quality, we concluded that the straw returning could be used to effectively alleviate the N leaching and groundwater N pollution; especially, the combined application of organic and chemical fertilizer could effectively mitigate the groundwater pollution, improve soil fertility and increase crop yield. |
|
|
|
