锑胁迫对苎麻生长及锑富集转运的影响OA
Effect of antimony stress on the growth and antimony bioaccumulation and transport of ramie
湖南冷水江锡矿区重金属污染、矿区生态修复及农田安全利用问题备受关注.因此,探索寻找高锑积累富集植物迫在眉睫.本研究以栽培种苎麻中苎一号和采集于锡矿区野生苎麻为材料,采用盆栽法进行不同锑浓度(0、500、1000、2000、3000 mg·kg-1)胁迫试验.结果表明:中苎一号在锑浓度≤1000 mg·kg-1和野生苎麻≤2000 mg·kg-1处理时可明显促进苎麻植株生长,较高浓度的锑胁迫对苎麻生长产生了抑制作用,尤其对中苎一号影响更为显著.锑胁迫导致2种苎麻叶片SPAD值减少,中苎一号在≤1000 mg·kg-1锑处理时影响明显;随锑浓度增加,中苎一号和野生苎麻全株锑含量持续增高,最高分别达691.46和360.40 mg·kg-1,锑富集系数逐渐减少,分别为0.24~0.76、0.13~0.25,锑转运系数逐渐增大,分别为0.10~0.45、1.12~1.76.栽培种中苎一号具有根系锑含量和积累量高特征,可用于锑污染土壤根系吸收固定修复,野生苎麻根系低吸收积累,在高锑浓度下表现出较强适应性和耐受性,且锑积累能力持续增强,转运系数高于1,2种苎麻都可作为锑污染矿区土壤修复优选植物应用.
The heavy metal pollution,ecological restoration,and safe utilization of farmland in the Lengshuijiang tin mining area of Hunan Province have attracted much attention.It is therefore urgent to identify plant species with high antimony accumulation and enrichment.In this study,a pot experiment was conducted to evaluate the growth and antimony accumulation characteristics of ramie cultivar Zhongzhu No.1 and wild ramie collected from the tin mining area.Plants were subjected to five antimony concentrations(0,500,1000,2000,and 3000 mg·kg-1).The results showed that the growth of ramie plants was significantly promoted when treated with antimony concentra-tion ≤1000 mg·kg-1 in Zhongzhu No.1 and ≤2000 mg·kg-1 in wild ramie.Higher antimony stress inhibited plant growth,with Zhongzhu No.1 being more sensitive.Antimony stress led to varying degrees of reduction in SPAD values in leaves of two types of ramie,with Zhongzhu No.1 showing a significant effect when antimony treat-ment was≤1000 mg·kg-1.With the increases of antimony concentrations,the antimony content in the whole plants of Zhongzhu No.1 and wild ramie continued to increase,and reached a maximum of 691.46 and 360.40 mg·kg-1,respectively.The bioaccumulation factor of antimony gradually decreased with increasing antimony stress,with ranges of 0.24-0.76 and 0.13-0.25 for Zhongzhu No.1 and wild ramie,respectively,while the trans-location factor gradually increased,with ranges of 0.10-0.45 and 1.12-1.76,respectively.Zhongzhi No.1 pos-sessed the characteristic of high antimony content and accumulation in roots,making it suitable for the phytoremedi-ation of antimony-contaminated soil through root uptake and fixation.In contrast,wild ramie exhibited low antimony uptake and accumulation in roots,showing strong adaptability and tolerance under high antimony concentration,and its antimony accumulation ability continued to increase with increasing antimony stress,with a translocation fac-tor being higher than 1.Our findings suggest that both types of ramie can be used as preferred plants for soil remedi-ation in antimony-contaminated mining areas.
孟桂元;蒋文杰;韩杰铖;唐海鹰;段仁燕;周静
湖南人文科技学院农业与生物技术学院,湖南娄底 417000湖南人文科技学院农业与生物技术学院,湖南娄底 417000湖南人文科技学院农业与生物技术学院,湖南娄底 417000湖南人文科技学院农业与生物技术学院,湖南娄底 417000湖南人文科技学院农业与生物技术学院,湖南娄底 417000湖南人文科技学院农业与生物技术学院,湖南娄底 417000
苎麻锑胁迫生长锑富集与转运土壤修复
ramieantimony stressgrowthantimony enrichment and transportsoil remediation
《生态学杂志》 2026 (5)
1577-1585,9
国家自然科学基金项目(32371589)和湖南省自然科学基金项目(2023JJ50473、2023JJ50476、2023JJ50474)资助.
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