摘要
[目的]研究组配改良剂对 Cd 污染稻田的修复效果。[方法]在湖南省长沙县春华镇污染稻田进行了组配改良剂的田间试验,设4个处理,分别为 T1:未添加改良剂(CK);T2:生石灰(0.1%)翻耕整地时混施;T3:TH01(0.4%)+生石灰(0.1%)翻耕整地时混施;T4:翻耕整地时混施 TH02(0.4%),分蘖前期撒施生石灰(0.1%)。研究添加改良剂对水稻产量、重金属含量和土壤重金属含量的影响。[结果]4个处理间水稻分蘖情况、子粒生物量差异不明显;T3处理子粒的 Cd 含量最低,且 T3、T4处理水稻子粒的 Cd 含量分别降低了45.22%、38.14%,而与 T2处理相比,T3、T4处理水稻子粒 Cd 含量分别降低36.16%、27.91%;不同生长期水稻茎叶、根 Cd 含量与土壤醋酸铵 Cd 含量呈线性相关关系。[结论]可在孕穗期后水稻进入灌浆期前采取农艺措施或添加稳定剂降低稻田土壤醋酸铵 Cd 含量,从而降低水稻子粒 Cd 含量。
Abstract
Objective] The aim was to study remediation effect of improved agent on Cd contaminated paddy soils .[Method] A field experiment of improved agent was conducted on a contaminated paddy soil in Chunhua Town ,Changsha County,Hunan Province.Setting up 4 treatments,in-cluding T1 :without improved agent(CK); T2:quick lime (0.1%),fertilizing in soil preparation process; T3:TH01 (0.4%) + quick lime (0.1%),fertilizing in soil preparation process; T4:TH02(0.4%),fertilizing in soil preparation process,quick lime(0.1%) applying at early tillering stage.Effects of adding improved agent on rice yield,heavy metal content and soil heavy metal content were studied.[Result] Rice tiller and grain biomass had no significant difference among 4 treatments; Cd content was lowest in T 3 treatment,Cd content reduced 45.22% and 38.14% in T3 and T4 ,compared with T2 ,Cd content reduced 36.16% and 27.91% in T3 and T4 .In different growth period,stems,leaves and roots Cd content showed linear correlationship with ammonium acetate Cd content .[Conclusion] In order to reduce brown rice Cd content,agro-nomic measures or adding passivator,could be implemented to reduce ammonium acetate Cd content in time after the booting stage of rice into the filling stage.
基金项目
广东省科技计划项目(2015B090904008)
广东省软科学研究计划项目(2014B090903015)
深圳市科技计划项目(CXZZ20140418105252027)
深圳市战略性新兴产业发展专项资金(发改办高技[2013]2556号)
广东省工程技术研究开发中心入库项目(粤科函政字[2013]1589号)
国家科技期刊平台
NSTL
维普
万方数据