Mechanisms Underlying Nutrient Interaction of Compost and Mineral Fertilizer Application in Maize (Zea mays L.) Cropping System in Ghana

Abstract: Mechanisms underlying interactive effects of nutrient inputs on crop yields are poorly understood especially throughout sub-Saharan Africa. This research thus sought to evaluate the possible mechanisms causing the interaction effects from compost and mineral fertilizer and quantify the relative contribution(s) of the mechanisms to added benefits in grain yield. The research involved a 3-year field experiment followed by a greenhouse incubation study. Both field and incubation experiments were 5 × 5 factorial a… Show more

“…The lower true NUE trend observed in FW and GW compost treatments could also be attributed to the priming effect of compost on indigenous soil N mineralization, which in turn enhances the immobilization of fertilizer N and leads to lower fertilizer N uptake (Jenkinson et al., 1985). Positive N priming effects and temporary N immobilization have been attributed to synergistic and antagonistic interactions between composts and mineral fertilizers (Essel et al., 2021). Studies reported that compost application causes high immobilization of urea‐N, resulting in lower fertilizer N uptake efficiency in a corn system (Choi et al., 2001).…”

Effects of food waste and green waste composts on yield and nitrogen‐use efficiency in irrigated tomato crops

“…The lower true NUE trend observed in FW and GW compost treatments could also be attributed to the priming effect of compost on indigenous soil N mineralization, which in turn enhances the immobilization of fertilizer N and leads to lower fertilizer N uptake (Jenkinson et al., 1985). Positive N priming effects and temporary N immobilization have been attributed to synergistic and antagonistic interactions between composts and mineral fertilizers (Essel et al., 2021). Studies reported that compost application causes high immobilization of urea‐N, resulting in lower fertilizer N uptake efficiency in a corn system (Choi et al., 2001).…”

Effects of food waste and green waste composts on yield and nitrogen‐use efficiency in irrigated tomato crops

“…The combined application of manure and chemical fertiliser also increased SOC and N content associated with all aggregate fractions, compared to +m (Figure 2B,C), indicating that the mineral fertiliser is more beneficial for SOC sequestration when applied in combination with manure. Such findings were explained by the lower priming effect causing a reduction in SOC decomposition rate in +s+m due to the abundance of nutrients, mainly dissolved N, compared to +m (Abdalla et al., 2022; Essel et al., 2021). The higher soil N abundance limits the soil microbial need for soil organic matter mining for nutrients, thus reducing the decomposition rate and promoting C stabilisation (Chen et al., 2022).…”

Soil organic carbon and nitrogen in aggregates in response to over seven decades of farmyard manure application

Compost and Mineral Fertilizer Application Affects Soil Microbial Activity and Nutrient Mineralization in an Ultisol