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- Title
Fluoride contents in commonly used commercial phosphate fertilizers and their potential risks in China.
- Authors
Li, Hao; Ma, Xuzhe; Huang, Xunrong; Ji, Wei; Chen, Kun; Xu, Shaoquan; Gao, Pengcheng
- Abstract
The application of phosphate fertilizer is an important source of anthropogenic fluoride in agricultural soil. However, relatively few studies have examined the fluoride content of phosphate fertilizers, and that has limited our understanding of the phosphate fertilizer contribution to soil fluoride accumulation and distribution. To examine this problem, we first quantified the total fluoride (TF) and water-soluble fluoride (WF) contents of six of the most commonly used commercial phosphate fertilizers in China (potassium dihydrogen phosphate (MKP), calcium superphosphate (SSP), monoammonium phosphate (MAP), diammonium phosphate (DAP), ternary compound fertilizer (NPK), and water-soluble macroelement fertilizer (WSF)). After calculating the [P2O5]/TF ratio for each of those fertilizers, we used those ratios and the average P2O5 application per crop of five typical crops grown in China (apples, greenhouse vegetables, wheat, corn, and rice) to estimate the annual fluoride accumulations in their soils after application of each type of phosphate fertilizer. Among the six fertilizer types, SSP, DAP, and NPK had much higher total fluoride and water-soluble fluoride contents than MKP, MAP, and WSF had. During crop production, the risk of fluoride accumulation was lower with MKP, MAP, and WSF (high [P2O5]/TF ratios) and higher with SSP, DAP, and NPK (low [P2O5]/TF ratios), especially in cash crops (fruit and greenhouse vegetables), which traditionally have unreasonably high P2O5 applications. Based on our findings, we proposed steps that should be taken to help effectively mitigate fluoride accumulation in China's agricultural soils.
- Subjects
CHINA; PHOSPHATE fertilizers; GREENHOUSE plants; POTASSIUM dihydrogen phosphate; CASH crops; DIAMMONIUM phosphate; AGRICULTURE; FLUORIDES
- Publication
Environmental Monitoring & Assessment, 2023, Vol 195, Issue 9, p1
- ISSN
0167-6369
- Publication type
Article
- DOI
10.1007/s10661-023-11623-w