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[1] Changes in fractions of metals in soil affecting their accumulation, bioaccessibility, and risk in vegetables cultivated under plastic sheds [SCI]. International Journal of Environmental Analytical Chemistry, 2026,
[2] An index for characterizing bioavailability and risk of metals in soil-vegetable systems [SCI]. Pedosphere,
[3] A Collaborative Approach for Metal Pollution Assessment in Production System of Plastic-Shed Vegetables Near Industrial Areas
[4] Fractionation of metals in soil for strawberry cultivation: Effect on metal migration in food chain and application in risk assessment
[5] A Collaborative Approach for Metal Pollution Assessment in Production System of Plastic-Shed Vegetables Near Industrial Areas Bulletin of Environmental Contamination and Toxicology, 2024,
[6] Fractionation of metals in soil for strawberry cultivation: Effect on metal migration in food chain and application in risk assessment Environmental Research, 2024,
[7] Potential use of hydroxyapatite combined with hydrated lime or zeolite to promote growth and reduce cadmium transfer in the soil-celery-human system
[8] Accumulation, migration and health risk of trace metals in a soil-strawberry-human system of the Yangtze River Delta region, China
[9] Anthropogenic activities affecting metal transfer and health risk in plastic-shed soil-vegetable-human system via changing soil pH and metal contents
[10] Bioavailability of cadmium to celery (Apium graveolens L.) grown in acidic and Cd-contaminated greenhouse soil as affected by the application of hydroxyapatite with different particle sizes
[11] Bioaccessibility and health risk assessment of trace metals in soils of greenhouse vegetable production near the industrial areas of the Yangtze River Delta, China
[12] Using pXRF to assess the accumulation, sources, and potential ecological risk of potentially toxic elements in soil under two greenhouse vegetable production systems in North China
[13] Occurrence, speciation, and risks of trace metals in soils of greenhouse vegetable production from the vicinity of industrial areas in the Yangtze River Delta, China
[14]Yang Yunxi,Yu Yuechen,Wang Zehao,Tian Wenfei,Tian Kang,Huang Biao,You Wenhua. Potential use of hydroxyapatite combined with hydrated lime or zeolite to promote growth and reduce cadmium transfer in the soil‑celery‑human system [SCI]. Environmental Science and Pollution Research, 2022,
[15] Anthropogenic activities affecting metal transfer and health risk in plastic-shed soil-vegetable-human system via changing soil pH and metal contents Chemosphere, 2022, 307:
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