MOE Key Laboratory of Western China's Environmental Systems, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou, 730000, China.
Shapotou Desert Research and Experiment Station, Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences, Lanzhou, 730000, China.
Environ Res. 2024 May 1;248:118393. doi: 10.1016/j.envres.2024.118393. Epub 2024 Feb 1.
Soil solution pH and dissolved organic carbon (DOC) influence cadmium (Cd) uptake by hyperaccumulators but their tradeoff in calcareous soils is unclear. This study investigated the mechanisms of Solanum nigrum L. and Solanum alatum Moench in calcareous soil using a combination of concentration gradient experiments (0.6-100 mg Cd kg) and soil solution composition analysis. The results showed that the soil solution pH of S. nigrum remained stable despite Cd stress. On average, the soil solution pH of S. alatum was 0.23 units higher than that of S. nigrum, although pH decreased significantly under high Cd stress. In addition, the concentrations of potassium (K) and calcium (Ca) in the soil solution of S. nigrum increased and decreased under low and high levels of Cd stress, respectively. In S. alatum, the K and Ca concentrations in the soil solution generally increased with increasing Cd stress levels. Moreover, the level of DOC in the soil solution of both plants was higher under Cd stress compared to the control, and a gradually increasing trend with Cd stress level was observed in S. alatum. Consequently, the bioconcentration factors of the roots (2.62-19.35) and shoots (1.20-9.59) of both plants were >1, while the translocation factors were <1, showing an obstacle of Solanum hyperaccumulators in transferring Cd into their aboveground parts. Redundancy analysis revealed that the Cd concentration in S. nigrum roots was significantly negatively correlated with the soil solutions of K and Ca. In contrast, Cd concentrations in S. alatum roots and shoots were significantly positively correlated with soil solution DOC, K, and Ca but negatively correlated with pH. Our results suggest that calcareous soil neutralizes the acidity of released protons but does not affect cation exchange, inhibiting DOC in assisting the translocation of Cd within plants.
土壤溶液 pH 值和溶解有机碳 (DOC) 影响超积累植物对镉 (Cd) 的吸收,但在石灰性土壤中它们的权衡关系尚不清楚。本研究采用浓度梯度实验(0.6-100mgCdkg)和土壤溶液成分分析相结合的方法,研究了龙葵和刺茄在石灰性土壤中的机制。结果表明,尽管受到 Cd 胁迫,龙葵的土壤溶液 pH 值保持稳定。平均而言,刺茄的土壤溶液 pH 值比龙葵高 0.23 个单位,尽管在高 Cd 胁迫下 pH 值显著下降。此外,在低和高 Cd 胁迫下,龙葵土壤溶液中的钾 (K) 和钙 (Ca) 浓度分别增加和减少。在刺茄中,土壤溶液中的 K 和 Ca 浓度通常随 Cd 胁迫水平的增加而增加。此外,与对照相比,两种植物的土壤溶液中 DOC 的水平在 Cd 胁迫下更高,并且在刺茄中观察到随 Cd 胁迫水平逐渐增加的趋势。因此,两种植物的根部(2.62-19.35)和地上部(1.20-9.59)的生物浓缩因子均大于 1,而迁移因子小于 1,表明龙葵超积累植物在将 Cd 转移到地上部分时存在障碍。冗余分析表明,龙葵根部的 Cd 浓度与土壤溶液中的 K 和 Ca 呈显著负相关。相比之下,刺茄根部和地上部的 Cd 浓度与土壤溶液 DOC、K 和 Ca 呈显著正相关,与 pH 值呈显著负相关。我们的结果表明,石灰性土壤中和了释放质子的酸性,但不影响阳离子交换,抑制了 DOC 协助植物内 Cd 的转运。
