Litcius/Paper detail

Pyrrolizidine-producing weeds in tea gardens as an indicator of alkaloids in tea

Weiting Jiao, Luyao Wang, Lei Zhu, Tingting Shen, Taozhong Shi, Ping Zhang, Chen Wang, Hongping Chen, Xiangwei Wu, Tianyuan Yang, Qing X. Li, Rimao Hua

2022Food Additives and Contaminants Part B10 citationsDOI

Abstract

Pyrrolizidine alkaloids (PAs) can be transferred between plants via soil. Indicators of PAs in tea products are useful for tea garden management. In the present work a total of 37 weed species, 37 weed rhizospheric soils and 24 fresh tea leaf samples were collected from tea gardens, in which PAs were detected in 35 weeds species, 21 soil samples and 10 fresh tea leaves samples. In Shexian tea garden, 12.9 μg/kg of intermedine (Im) in one bud plus three leaves, 1.40 and 14.6 μg/kg of intermedine-N-oxide (ImNO) in one bud plus two leaves and one bud plus three leaves were detected, which were transferred from the PA-producing weeds via soil. However, no PAs were detected in fresh tea leaves collected from Langxi tea garden. The results indicated that synthesis of PAs in weeds and their transfer through the weed-soil-fresh tea leaf route varied with soil environments in different tea gardens.

Topics & Concepts

PyrrolizidineTea gardenWeedHorticultureBiologyBotanyAgronomyPlant Toxicity and Pharmacological PropertiesBotanical Research and ChemistryDrug-Induced Hepatotoxicity and Protection