Nitrogen Release from Slow-Release Fertilizers in Soils with Different Microbial Activities
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2024, Results in EngineeringInorganic versus organic fertilizers: How do they lead to methylmercury accumulation in rice grains
2022, Environmental PollutionCitation Excerpt :Since inorganic fertilizers are generally used to elevate the growth, yield and quality of rice, rice flourishing was showed to be accompanied by the release of more root exudates into paddy soil (Yoshida and Hasegawa, 1982). Inorganic fertilizers could also facilitate microbial activities due to inorganic mineral and carbon supplements (OM in root exudates) to microbial metabolism (Chu et al., 2007; Hu et al., 2018; Kaminski et al., 2004; Nardi et al., 2018). The hgcA copy numbers (Fig. 3F) in potting soil in inorganic fertilizer application treatments were higher than the corresponding hgcA copy numbers in CK treatment, implying the enhancement of Hg-methylating microorganisms in soil induced by inorganic fertilizer application.
Half-a-century effects of a slow-release nitrogen fertilizer, ureaformaldehyde, on stand growth and soil processes in a Scots pine stand
2022, Forest Ecology and ManagementCitation Excerpt :Leaching of N, studied using ion exchange resins buried in the soil, was shown to be minimal from ureaformaldehyde (Aarnio and Martikainen 1995). N losses from ureaformaldehyde were also low in field and laboratory experiments where the risks were maximized by various experimental designs (Alexander and Helm 1990, Insam and Palojärvi 1995, Nardi et al. 2018). In addition, no harmful effects were detected in case studies dealing with decomposition, amounts of bacteria and fungi, or the infection capacity of mycorrhizal fungi toward pine seedlings (Martikainen et al. 1989, 1994, Sen 1990).
Abandoned agriculture soil can be recultivated by promoting biological phosphorus fertility when amended with nano-rock phosphate and suitable bacterial inoculant
2022, Ecotoxicology and Environmental SafetyCitation Excerpt :The increase in enzyme-P by using nano-rock phosphate could simply be related to a higher microbial turnover rate, particularly with PSB inoculants, to acquire labile P for energy metabolism and biomass synthesis. Thus, our results significantly support previous findings related to the use of polymer coated fertilizer, which show a significant contribution of nano-fertilizer to microbial biomass build up due to the stimulatory effects of bio-based coating materials (Nardi et al., 2018; Zhang et al., 2020). Our study shows that PSB inoculation had the most favorable contribution to the labile P (e.g., resin-P) compared to uninoculated conditions.
A review on application of controlled released fertilizers influencing the sustainable agricultural production: A Cleaner production process
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