Abstract
Biogas production in agricultural biogas plants generates digestate—liquid waste containing organic matter and mineral nutrients. Utilisation of the digestate on farm fields adjacent to the biogas plants is limited. Therefore, bio-refineries implement advanced forms of digestate processing, including precipitation of struvite (MgNH4PO4.6H2O). Struvite can be transported over long distances and dosed precisely to meet the nutritional needs of the plants. Divergent opinions on the fertilising value of struvite and its function over time call for further research on its effects on crop yields in the first and subsequent years after application. This study investigates the effects of struvite (STR), struvite with ammonium sulphate (STR + N), and commercial ammonium phosphate (AP) on the yields, nutrient concentration in the crops, nutrient uptake by the crops, and soil N, P, and Mg content in the second growing period after the application of fertilisers to silty loam (SL) and loamy sand (LS) soils under grass cultivation. Struvite was recovered from the liquid fraction of digestate obtained from a bio-refinery on the De Marke farm (Netherlands). The soils investigated in the pot experiment originated from Obory (SL) and Skierniewice (LS) (Central Poland). The results obtained over the first growing period following fertilisation were published earlier. In our prior work, we showed that the majority of the struvite phosphorus remains in the soil. We hypothesised that, in the second year, the yield potential of the struvite might be higher than that of commercial P fertiliser. Currently, we have demonstrated that, in the second growing period following the application, struvite causes an increase in grass yield, nutrient uptake by the crops, and P and Mg content in the soil. On SL and LS soils, the yields of the four grass harvests from the STR and STR + N treatments were higher than those from AP by approximately 8% and 16.5%, respectively. Our results confirm that struvite is more effective as a fertiliser compared to commercial ammonium phosphate. Struvite can be, therefore, recommended for fertilising grasslands at higher doses once every two years.
Highlights
The recent growth in demand for biomass for consumption, fodder, and energy purposes triggered an increase in demand for fertiliser components
The results of our study demonstrate that struvite recovered from the liquid fraction of the bio-refineries’ digestates is a valuable sustainable complex fertilizer for agricultural applications
In the second year past the fertilisation, the averaged grass yields from the four harvests after the struvite treatments (STR and STR + N) in silty loam (SL) and loamy sand (LS) soils exceeded those from the commercial ammonium phosphate treatment, approximately by 8% and 16.5%, respectively
Summary
The recent growth in demand for biomass for consumption, fodder, and energy purposes triggered an increase in demand for fertiliser components. An increase in the application of mineral fertilisers can soon become the cause of exhaustion of the global resources of raw materials used for fertiliser production [1]. 95% of the global depletion is allocated for agricultural purposes, primarily for the production of mineral fertilisers, and to a lower degree for the production of pesticides and feedstuff additives. The future cost of extraction and treatment of the mined minerals, and the production of phosphorus fertilisers, is expected to increase. An increase in fertiliser prices in global markets will cause an increase in food prices [4]
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