Robert C. Hill, Gordon D. Z. Williams, Zhen Wang, Jun Hu, Tayel El-Hasan, Owen W. Duckworth, Ewald Schnug, Roland Bol, Anjali Singh and Avner Vengosh*,
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引用次数: 0
摘要
化肥的利用对粮食安全至关重要。本研究考察了磷酸盐岩和矿物肥料中微量元素(TEs)的含量和 Sr 同位素(87Sr/86Sr)的变化,样本收集来自主要磷酸盐生产国。我们在磷酸盐岩(n = 76)中发现了多种微量元素的高浓度,并在特定来源的磷肥(n = 40)中发现了这些微量元素的选择性富集。与母磷酸盐岩中的浓度一致,美国和中东磷肥中的铀、镉、铬、钒和钼的浓度远远高于中国和印度磷肥中的浓度。然而,中国和印度化肥中的砷浓度通常更高。磷肥中的 87Sr/86Sr 直接反映了磷矿石的成分,中国和印度肥料中的 87Sr/86Sr 比率(0.70955-0.71939)明显高于美国和中东地区的磷肥(0.70748-0.70888)。钾肥中的 Sr 和 TE 较少,而 87Sr/86Sr 较高(0.72017-0.79016),导致氮磷钾混合肥料中的 87Sr/86Sr 较高。对农业实验区土壤的选择性萃取(Mehlich III)表明,表层土壤中植物可能利用的磷、锶和毒性元素相对富集,这与当地使用的磷肥中锶同位素的 87Sr/86Sr 变化有关。
Tracing the Environmental Effects of Mineral Fertilizer Application with Trace Elements and Strontium Isotope Variations
Fertilizer utilization is critical for food security. This study examines the occurrence of trace elements (TEs) and Sr isotope (87Sr/86Sr) variations in phosphate rocks and mineral fertilizers from a sample collection representative of major phosphate producing countries. We show high concentrations of several TEs in phosphate rocks (n = 76) and their selective enrichment in phosphate fertilizers (n = 40) of specific origin. Consistent with the concentrations in parent phosphate rocks, phosphate fertilizers from the U.S. and Middle East have substantially higher concentrations of U, Cd, Cr, V, and Mo than those in fertilizers from China and India. Yet, fertilizers from China and India generally have higher concentrations of As. The 87Sr/86Sr in phosphate fertilizers directly mimic the composition of their source phosphate rocks, with distinctive higher ratios in fertilizers from China and India (0.70955–0.71939) relative to phosphate fertilizers from U.S. and Middle East (0.70748–0.70888). Potash fertilizers have less Sr and TEs and higher 87Sr/86Sr (0.72017–0.79016), causing higher 87Sr/86Sr in mixed NPK-fertilizers. Selective extraction (Mehlich III) of soils from an experimental agricultural site shows relative enrichment of potentially plant-available P, Sr, and TEs in topsoil, which is associated with Sr isotope variation toward the 87Sr/86Sr of the local utilized phosphate fertilizer.
期刊介绍:
Environmental Science & Technology Letters serves as an international forum for brief communications on experimental or theoretical results of exceptional timeliness in all aspects of environmental science, both pure and applied. Published as soon as accepted, these communications are summarized in monthly issues. Additionally, the journal features short reviews on emerging topics in environmental science and technology.
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