Abstract
In Saudi Arabia, more than 335,000 tons of cow manure is produced every year from dairy farming. However, the produced cow manure is usually added to the agricultural soils as raw or composted manure; significant nitrogen losses occur during the storage, handling, and application of the raw manure. The recovery of ammonia from cow manure through thermochemical treatments is a promising technique to obtain concentrated nitrogen fertilizer and reducing nitrogen losses from raw manure. However, the byproduct effluents from the recovery process are characterized by different chemical properties from the original raw manure; thus, its impact as soil amendments on the soil carbon and nitrogen dynamics is unknown. Therefore, a 90-day incubation experiment was conducted to study the impact of these effluents on CO2 efflux, organic C, microbial biomass C, available NH4+, and NO3− when added to agricultural soil. In addition to the two types of effluents (produced at pH 9 and pH 12), raw cow manure (CM), composted cow manure (CMC), cow manure biochar (CMB), and control were used for comparison. The application of CM resulted in a considerable increase in soil available nitrogen and CO2 efflux, compared to other treatments. Cow manure biochar showed the lowest CO2 efflux. Cumulative CO2 effluxes of cow manure effluents were lower than CM; this is possibly due to the relatively high C:N ratio of manure effluent. The content of P, Fe, Cu, Zn, and Mn decreased as incubation time increased. Soil microbial biomass C for soil treated with cow manure effluents (pH 12 and 7) was significantly higher than the rest of the soil amendments and control.
Highlights
Agriculture is the primary source of ammonia emission globally [1] and regionally in, e.g., Europe [2] and the USA [3]
The results showed that the addition of different organic materials caused an increase in the available NO3 − nitrogen contents after 20 days of incubation time and decreased the available NH4 + concentration after
In the cow cow manure-stripped ammonia effluents (CMSAEs) produced at pH12 and T95 ◦ C, cow manure (CM) and composted cow manure (CMC)
Summary
Agriculture is the primary source of ammonia emission globally [1] and regionally in, e.g., Europe [2] and the USA [3]. Regarding CO2 efflux from soil treated with organic amendments [5] showed that the total annual emissions of greenhouse gases (GHGs) from agriculture to the atmosphere in 2011 were 5335 Mt CO2 eq 25% of this amount is released into the atmosphere due to manure storage, management, and amendments. Risse et al [10] reported that among many applied fertilizers to maize in China, CO2 and NO2 emissions were significantly correlated to pig manure and inorganic fertilizer due to their low C:N ratio. An incubation experiment [11] showed that the biochar amendments to soils reduced N-gases volatilization and decreased CO2 emissions from soils due to the low C:N ratio in the used biochar
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