Impacts of pellet pH on nitrous oxide emission rates from cattle manure compost pellets

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Abstract

Previous reports indicated that the emission of nitrous oxide (N2O) when manure compost pellets (MCP) were applied to soil was greater than when ordinary manure compost or inorganic fertilizer was applied, but that applying pellets of nitrogen-enriched manure compost, a by-product of deodorizing manure during composting, resulted in N2O emission rates less than those from MCPs. To investigate the mechanism by which N2O emission rates and cumulative emissions were reduced in nitrogen-enriched manure composts pellets (N+MCP), we studied the impact of pellet pH on N2O emission, because pH is different between MCP (pH 8.6) and N+MCP (pH 5.3). In an incubation experiment, the pH of pellets was adjusted to five levels (5.3, 6.0, 7.0, 8.0 and 8.6) with acid or alkaline solutions, and the pellets were incubated without soil in a beaker at 30°C for 90 d (MCP) or 42 d (N+MCP). A large peak in N2O emission rate was observed soon after beginning the incubation (within 1–3 d) in the neutral and alkaline treatments for both MCP and N+MCP, and these peaks corresponded to a rise in the pellet nitrite contents. Thus, this N2O emission peak might have been generated by the denitrification of nitrite in the pellets. In the acid treatments of MCP, the N2O emission was distributed more in the later incubation period (14–90 d), when the reduction of nitrate in MCP occurred. This led to a significant increase in cumulative N2O emission as compared with the alkaline treatments for MCP. Regarding the mechanism by which N2O emission was reduced in N+MCP, although larger cumulative N2O emission rates in the earlier stage (0–14 d for MCP and 0–7 d for N+MCP) were observed when the pellet pH was adjusted close to 7.0, lowering the pH of MCP to 5.3 (the pH of N+MCP) did not demonstrate a significant decrease in cumulative N2O emission as compared with the original pH treatment (pH 8.6). These results indicate that pellet pH might not relate directly to the mechanism by which N2O emission was reduced in N+MCP.

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Yamane, T., & Kubotera, H. (2016). Impacts of pellet pH on nitrous oxide emission rates from cattle manure compost pellets. Soil Science and Plant Nutrition, 62(5–6), 561–566. https://doi.org/10.1080/00380768.2016.1239510

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