期刊论文

Liao, Yulin;Nie, J

英文

Science of The Total Environment

0048-9697

2024

935

173306

10.1016/j.scitotenv.2024.173306

This work was financially supported by the National Key Research and Development Program of China (2021YFD1700200), the National Natural Science Foundation of China (32202607, 32302676), the Hunan Provincial Natural Science Foundation (2023JJ40392), the Hunan Provincial Fund for Agricultural Science and Technology Innovation (2023CX47, 2023CX45), and the Special Fund for the Construction of Modern Agricultural Industry Technology System (CARS-22-G-11). CRediT authorship contribution statement Changyu Fang: Writing – original draft, Visualization, Methodology, Formal analysis, Data curation. Peng Li: Writing – review & editing, Methodology. Jianglin Zhang: Methodology. Yanhong Lu: Project administration, Investigation. Youyun Tang: Project administration, Investigation. Naimei Tu: Writing – review & editing, Supervision, acquisition. Yulin Liao: Project administration, Investigation, acquisition, Writing – review & editing. Jun Nie: Resources, Project administration,

本校为其他机构

Excessive heavy metals in soils can threaten food security and soil health. New practical technology is urgently needed to remediate cadmium (Cd) contaminated paddies in many parts of the world. Chinese milk vetch (M), rice straw (R), and soil amendments can reduce Cd activity in soil; however, the mechanism underlying this reduction is not well understood. This study explored the impact of co-incorporation of milk vetch, rice straw, and either lime (L), sesbania biochar (B), or sepiolite on soil Cd bioavailability through field experiments. The results indicated that the rice grain Cd concent...