Abstract
Many mineral P fertilizers contain toxic uranium (U) in high concentrations. When the fertilizers are applied to agricultural sites, U can either accumulate in the soil or leach to ground- and surface waters. We analyzed the U fluxes at three arable and three grassland agricultural sites on the Swiss plateau for one year. We calculated all inputs and outputs to the soils, modeled the speciation of U in the soil solution and investigated the possible leaching of U along preferential flow paths. We found that all sites showed positive U budgets (+0.9-6.6 g ha-1 y-1), indicating an accumulation of U. However, the accumulation of U was low and a doubling of soil concentration in the surface soil would need between 850 and 2660 years assuming today’s U fluxes. Mineral P fertilizers were the quantitatively most important input, followed by manure application and mineral weathering (only important in the soils developed on limestone). While at sites with slightly acidic pH only little U (< 0.01 µg L-1) was leached, the U leaching increased at neutral pH values, because of the formation of carbonato-U complexes. In all soil solutions, the U concentrations (≤0.8 µg L-1) were below legal threshold values and comparable to local drinking and surface waters. We found no indication for enhanced U leaching along preferential flow paths.
Highlights
Mineral P fertilizers are regularly applied to many agricultural sites, they often inadvertently contain uranium (U) in high concentrations
U output with crop harvest was highest for wheat at NE (0.3 g ha−1 a−1) and lowest for wheat at OE (0.1 g ha−1 a−1)
We suggest that the soil pH and carbonate concentrations are a more important control of dissolved U concentrations in soil solution than the total U concentration in the soils or the amount of U added with mineral P fertilizers
Summary
Mineral P fertilizers are regularly applied to many agricultural sites, they often inadvertently contain uranium (U) in high concentrations. Mineral P fertilizers are supposed to be the main source of anthropogenic U for agricultural soils. Different types of mineral P fertilizers may have different U concentrations depending on the source and production process. Manure, Uranium Budgeting and Leaching sewage sludge application, and deposition from the atmosphere can be additional U sources for soils (Kabata-Pendias and Mukherjee, 2007; Kratz et al, 2008; Bottcher et al, 2012). Kratz et al (2008) found that U inputs from manure or sewage sludge would cause 13–45% of the U inputs which would be caused by applying the same amount of P with mineral P fertilizers. Humans ingest negligible amounts of U from plant products (Schnug, 2012; Schnug and Lottermoser, 2013)
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