dc.description.abstract | Growing concern has been expressed about uranium (U) accumulation in agricultural soils
caused by the long-term application of mineral fertilizers. More than 80% of naturally occurring
U transfers from phosphate rock (PR), the raw material used in mineral fertilizer production, to
phosphorus (P) fertilizers. These fertilizers are then distributed on agricultural soils, where the U
could accumulate over time and become a risk to the environment. The objective of this work was to
review the reported content of U in P fertilizers, its potential dispersion in soils, and its uptake by
plants in different countries in the world as reported in the literature. The articles for this systematic
review were selected from the Scopus database published between 2003 and 2022. The preferred
reporting items for systematic reviews and meta-analyses (PRISMA) protocol were used. A total of
54 articles were assessed based on the standard inclusion and exclusion criteria. U concentrations
in P fertilizers, agricultural soil dissemination, and plant uptake for available data were obtained
and assessed. In order to compare a set of related data from the collected articles, box and whisker
plots showing the distribution of U in P fertilizers are presented by region. The results from the
reviewed articles show that the U concentrations in P fertilizer were in the range of 0.1–653 mg kg−1.
Interestingly, Minjingu P fertilizers from Tanzania, which are used in six East African countries,
showed the highest U concentrations (159 to 653 mg kg−1, average 390 mg kg−1). The reported
U concentrations for these fertilizers are, in fact, comparable to those of conventional low-grade
uranium deposits mined in Namibia and elsewhere. Additionally, approximately 96% of the reviewed
articles indicate that fertilized soil has higher U concentrations than non-fertilized soils, hinting at
a measurable effect of mineral fertilizer use. The review recommends U extraction during mineral
fertilizer production so that potential environmental risks can be reduced and U resources that would
otherwise be lost can be recovered and used to substitute conventional U mining elsewhere. | en_US |