摘要
【目的】探究在水培条件下,蜈蚣草受到As、Sb、Cd单一胁迫及交互胁迫后,对其富集特征及体内的赋存形态变化。【方法】选用重金属耐受植物蜈蚣草为载体,利用改良霍格兰营养液水培7d,通过不同梯度As、Sb、Cd胁迫探究富集特征,并探究浓度为50mg/L时不同处理条件下As、Sb、Cd在蜈蚣草中的赋存形态特征。【结果】重金属单一胁迫下,蜈蚣草地下部As、Sb、Cd富集浓度最大值分别为337.56、7020.90、2742.58mg/kg,地上部最大富集浓度分别为886.60、3058.60、4045.80mg/kg,蜈蚣草仅对As的转移系数稳定>1;在浓度50mg/L下,单一胁迫或交互胁迫时,蜈蚣草体内As乙醇态与盐酸态浓度占比为69.49%~94.25%,Sb残渣态浓度占比为47.48%~78.36%,Cd盐酸态浓度占比为93.67%~98.46%;加入Sb后,蜈蚣草地下部、地上部对As的吸附浓度分别提高60.83、144.40mg/kg,As、Cd的加入能大幅降低蜈蚣草根、茎、叶中Sb乙醇态浓度,降幅为72.9%~97.0%,As、Sb的加入会促进蜈蚣草根部Cd盐酸态浓度,升幅达38.2%~206.5%。【结论】蜈蚣草对Sb、Cd的富集能力较强,但仅为高富集作用。在胁迫浓度50mg/L下,蜈蚣草体内As以乙醇提取态与盐酸提取态为主,Sb以残渣态为主,Cd以盐酸提取态为主,Sb可以提高蜈蚣草对As的富集能力,As、Cd对Sb毒性具有拮抗作用,As、Sb对蜈蚣草根部Cd盐酸态有促进作用,蜈蚣草对As、Sb复合污染的土壤具有更好的修复能力。
【Objective】The study was conducted to explore the enrichment characteristics and extraction changes of Pteris vittata in vivo with the single and interactive treatment of As,Sb and Cd under hydroponiculture conditions.【Method】The heavy metal tolerant plant P.vittata was selected as the carrier,and it was cultivated in hydroponics for 7 days with the improved-hoagland nutrient solution.The enrichment characteristics of As,Sb and Cd in different concentrations under adversity stress was explored.And the morphological characteristics of As,Sb and Cd in P.vittata under different treatment conditions were studied when the concentration of 50 mg/L.【Result】Under single heavy metal adversity stress,the maximum enrichment concentrations of As,Sb and Cd in the underground parts of the P.vittata were 337.56,7 020.9,2 742.58 mg/kg,and the maximum enrichment concentrations in the aboveground parts were 886.6,3 058.6,and 4 045.8 mg/kg,respectively.Only the transfer coefficient of the P.vittata to As is stably larger than 1.At the concentration of 50 mg/L and under the single stress or polymetallic interactive stress,the concentration of As in ethanol and hydrochloric acid in P.vittata was 69.49%-94.25%,the concentration of Sb residue was 47.48%-78.36%,and the concentration of Cd in hydrochloric acid state was 93.67%-98.46%.When Sb was added,the adsorption concentrations of the underground and aboveground parts of the P.vittata to As were increased by 60.83 mg/kg and 144.40 mg/kg,respectively.The addition of As and Cd significantly reduced the concentration of Sb in the roots,stems and leaves of the P.vittata by 72.9%-97.0%.The addition of As and Sb increased the concentration of Cd hydrochloric acid in the roots of the P.vittata by 38.2%-206.5%.【Conclusion】P.vittata has a strong enrichment ability for Sb and Cd,but only a high enrichment effect.Under the adversity stress concentration of 50 mg/L,As in the P.vittata is mainly in a state of ethanol extraction and hydrochloric acid extraction,Sb is mainly in a sta
作者
朱桓毅
杨爱江
胡霞
徐鹏
邓秋静
范佳宇
ZHU Huanyi;YANG Aijiang;HU Xia;XU Peng;DENG Qiujing;FAN Jiayu(College of Resources and Environment,Guizhou University,Guiyang 550025,China;Institute of Environmental Engineerting Planing and Designing,Guizhou University,Guiyang 550025,China)
出处
《广东农业科学》
CAS
2019年第6期68-78,共11页
Guangdong Agricultural Sciences
基金
贵州省教育厅省级重点学科建设项目(黔学位合字ZDXK〔2016〕11)
贵州省教育厅自然科学研究项目(黔教合KY字〔2016〕011)
贵州省国内生态学一流学科建设项目(GNYL〔2017〕007)
贵州省科技合作基金(黔科合LH字〔2016〕7460号)
关键词
蜈蚣草
水培
转运能力
重金属形态
多金属互作
拮抗作用
Pteris vittata
hydroponics
transport capacity
heavy metal extraction
polymetallic interaction
antagonism
