Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, 510650, China; University of Chinese Academy of Sciences, Beijing, 100049, China.
Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, 510650, China.
Environ Pollut. 2021 Aug 15;283:117159. doi: 10.1016/j.envpol.2021.117159. Epub 2021 Apr 15.
Pfaffia glomerata is a candidate for the remediation of heavy metal-contaminated soil, but phytoremediation efficiency requires enhancement. In this study, we evaluated how application of DA-6, EDTA, or CA affected the growth and heavy metal accumulation of P. glomerata and soil microorganisms. We found that P. glomerata removed more Cd and Zn than Pb or Cu from contaminated soil. When compared to the control, application of DA-6, CA, or CA + DA-6 increased plant biomass and increased stem Cd concentration by 1.28-, 1.20-, and 1.31-fold respectively; increased leaf Cd concentration by 1.25-, 1.28-, and 1.20-fold, respectively; and increased the total quantity of Cd extracted by 1.37-, 1.37-, and 1.38-fold, respectively. When compared to the control, application EDTA or EDTA + DA-6 significantly increased the soil available metal and Na concentrations, which harmed plant growth. Application of EDTA or EDTA + DA-6 also significantly decreased the Cd concentration in roots and stems. 16S rRNA high-throughput sequencing analysis revealed that application of EDTA or CA alone to soil significantly reduced the richness and diversity of soil bacteria, while foliar spraying of DA-6 combined with EDTA or CA slightly alleviated this reduction. EDTA or CA addition significantly changed the proportion of Actinobacteria and Proteobacteria. In addition, EDTA or CA addition caused changes in soil properties (e.g. heavy metal availability, K concentration, Na concentration, soil pH, soil CEC, and soil DOC concentration) that were associated with changes in the bacterial community. EDTA addition mainly affected the soil bacterial community by changing soil DOC concentration, the soil available Pb and Na concentration, and CA addition mainly affected the soil bacterial community by changing the soil available Ca concentration.
巨叶巴布麻是一种用于修复重金属污染土壤的候选植物,但植物修复效率需要提高。在这项研究中,我们评估了施用 DA-6、EDTA 或 CA 对巨叶巴布麻生长和土壤微生物重金属积累的影响。我们发现,与对照相比,巨叶巴布麻从污染土壤中去除了更多的 Cd 和 Zn,而不是 Pb 或 Cu。与对照相比,施用 DA-6、CA 或 CA+DA-6 分别增加了 1.28、1.20 和 1.31 倍的植物生物量和茎 Cd 浓度,分别增加了 1.25、1.28 和 1.20 倍的叶 Cd 浓度,分别增加了 1.37、1.37 和 1.38 倍的 Cd 提取总量。与对照相比,施用 EDTA 或 EDTA+DA-6 显著增加了土壤有效金属和 Na 浓度,这对植物生长有害。施用 EDTA 或 EDTA+DA-6 还显著降低了根和茎中的 Cd 浓度。16S rRNA 高通量测序分析显示,单独施用 EDTA 或 CA 显著降低了土壤细菌的丰富度和多样性,而叶面喷施 DA-6 与 EDTA 或 CA 联合使用则略微缓解了这种降低。EDTA 或 CA 的添加显著改变了放线菌门和变形菌门的比例。此外,EDTA 或 CA 的添加导致土壤性质(如重金属有效性、K 浓度、Na 浓度、土壤 pH、土壤 CEC 和土壤 DOC 浓度)发生变化,进而影响了细菌群落。EDTA 的添加主要通过改变土壤 DOC 浓度、土壤有效 Pb 和 Na 浓度来影响土壤细菌群落,CA 的添加主要通过改变土壤有效 Ca 浓度来影响土壤细菌群落。
