Consejo Nacional de Investigación Científica y Técnica (CONICET-CCT San Juan), Facultad de Ingeniería-UNSJ, Av. Libertador Gral. San Martín 1109, 5400, San Juan, Argentina; Instituto Nacional de Tecnología Agropecuaria (INTA), Estación Experimental Agropecuaria San Juan, Calle 11 y Vidart, Pocito, 5427, San Juan, Argentina.
Consejo Nacional de Investigación Científica y Técnica (CONICET-CCT San Juan), Facultad de Ingeniería-UNSJ, Av. Libertador Gral. San Martín 1109, 5400, San Juan, Argentina; Universidad Nacional de San Juan, Facultad de Ingeniería (FI-UNSJ), Av. Lib. San Martín (Oeste) 1109, 5400, San Juan, Argentina; Instituto Nacional de Tecnología Agropecuaria (INTA), Estación Experimental Agropecuaria San Juan, Calle 11 y Vidart, Pocito, 5427, San Juan, Argentina.
Chemosphere. 2022 Dec;308(Pt 2):136146. doi: 10.1016/j.chemosphere.2022.136146. Epub 2022 Aug 26.
Mining activity has degraded large extensions of soil and its waste is composed of metals, anthropogenic chemicals, and sterile rocks. The use of native species in the recovery of polluted soils improves the conditions for the emergence of other species, tending to a process of ecosystem restoration. The objective of this study was to evaluate the bioaccumulation of metal(loid)s in four species of native plants and the effect of their distribution and bioavailability in soil with waste from an abandoned gold mine. Soil samples were taken from two sites in La Planta, San Juan, Argentina: Site 1 and Site 2 (mining waste and reference soil, respectively). In Site 1, vegetative organ samples were taken from Larrea cuneifolia, Bulnesia retama, Plectrocarpa tetracantha, and Prosopis flexuosa. The concentration of metal(loid)s in soil from Site 1 were Zn > As > Cu > Cd, reaching values of 7123, 6516, 240 and 76 mg kg, respectively. The contamination indices were among the highest categories of contamination for all four metal(loid)s. The spatial interpolation analysis showed the effect of the vegetation as the lowest concentration of metal(loid)s were found in rhizospheric soil. The maximum concentrations of As, Cu, Cd and Zn found in vegetative organs were 371, 461, 28, and 1331 mg kg, respectively. L. cuneifolia and B. retama presented high concentrations of Cu and Zn. The most concentrated metal(loid)s in P. tetracantha and P. flexuosa were Zn, As and Cu. Cd was the least concentrated metal in all four species. The values of BAF and TF were greater than one for all four species. In conclusion, the different phytoextraction capacities and the adaptations to arid environments of these four species are an advantage for future phytoremediation strategies. Their application contributes to the ecological restoration and risk reduction, allowing the recovery of ecosystem services.
采矿活动已经破坏了大片土壤,其废物由金属、人为化学品和无菌岩石组成。在受污染土壤的恢复中使用本地物种可以改善其他物种出现的条件,趋向于生态系统恢复的过程。本研究的目的是评估四种本地植物对金属(类)的生物积累,以及其在废弃金矿废物中的分布和生物利用度对土壤的影响。土壤样本取自阿根廷圣胡安拉普拉塔的两个地点:地点 1 和地点 2(分别为采矿废物和参考土壤)。在地点 1,从 Larrea cuneifolia、Bulnesia retama、Plectrocarpa tetracantha 和 Prosopis flexuosa 中采集了植物器官样本。地点 1 土壤中金属(类)的浓度为 Zn>As>Cu>Cd,分别达到 7123、6516、240 和 76 mg kg。所有四种金属(类)的污染指数均属于最高污染类别。空间插值分析显示了植被的影响,因为在根际土壤中发现了最低浓度的金属(类)。在植物器官中发现的 As、Cu、Cd 和 Zn 的最大浓度分别为 371、461、28 和 1331 mg kg。L. cuneifolia 和 B. retama 表现出高浓度的 Cu 和 Zn。P. tetracantha 和 P. flexuosa 中最集中的金属(类)是 Zn、As 和 Cu。在所有四种物种中,Cd 的浓度最低。所有四种物种的 BAF 和 TF 值均大于 1。总之,这四种植物不同的植物萃取能力以及对干旱环境的适应是未来植物修复策略的优势。它们的应用有助于生态恢复和降低风险,恢复生态系统服务。
