Tea Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310008, China; Graduate School of Chinese Academy of Agricultural Sciences, Beijing 100081, China.
School of Chemical Engineering and Materials, Zhejiang University of Technology, Hangzhou 310008, China.
J Environ Sci (China). 2025 Feb;148:350-363. doi: 10.1016/j.jes.2023.12.014. Epub 2023 Dec 26.
Pyrrolizidine alkaloids (PAs) and their N-oxides (PANOs) are phytotoxins produced by various plant species and have been emerged as environmental pollutants. The sorption/desorption behaviors of PAs/PANOs in soil are crucial due to the horizontal transfer of these natural products from PA-producing plants to soil and subsequently absorbed by plant roots. This study firstly investigated the sorption/desorption behaviors of PAs/PANOs in tea plantation soils with distinct characteristics. Sorption amounts for seneciphylline (Sp) and seneciphylline-N-oxide (SpNO) in three acidic soils ranged from 2.9 to 5.9 µg/g and 1.7 to 2.8 µg/g, respectively. Desorption percentages for Sp and SpNO were from 22.2% to 30.5% and 36.1% to 43.9%. In the mixed PAs/PANOs systems, stronger sorption of PAs over PANOs was occurred in tested soils. Additionally, the Freundlich models more precisely described the sorption/desorption isotherms. Cation exchange capacity, sand content and total nitrogen were identified as major influencing factors by linear regression models. Overall, the soils exhibiting higher sorption capacities for compounds with greater hydrophobicity. PANOs were more likely to migrate within soils and be absorbed by tea plants. It contributes to the understanding of environmental fate of PAs/PANOs in tea plantations and provides basic data and clues for the development of PAs/PANOs reduction technology.
吡咯里西啶生物碱(PAs)及其 N-氧化物(PANOs)是各种植物产生的植物毒素,已成为环境污染物。由于这些天然产物从产生 PAs 的植物向土壤的水平转移,以及随后被植物根系吸收,因此 PAs/PANOs 在土壤中的吸附/解吸行为至关重要。本研究首次研究了具有不同特征的茶园土壤中 PAs/PANOs 的吸附/解吸行为。在三种酸性土壤中,三叶斑鸠菊碱(Sp)和三叶斑鸠菊碱 N-氧化物(SpNO)的吸附量分别为 2.9 至 5.9μg/g 和 1.7 至 2.8μg/g。Sp 和 SpNO 的解吸百分比分别为 22.2%至 30.5%和 36.1%至 43.9%。在混合的 PAs/PANOs 体系中,测试土壤中 PAs 对 PANOs 的吸附更强。此外,Freundlich 模型更准确地描述了吸附/解吸等温线。线性回归模型确定了阳离子交换容量、砂含量和总氮是主要影响因素。总体而言,表现出对具有更大疏水性化合物更高吸附能力的土壤。PANOs 更有可能在土壤中迁移并被茶树吸收。这有助于理解 PAs/PANOs 在茶园中的环境归宿,并为开发 PAs/PANOs 减排技术提供基础数据和线索。
