AI Article Synopsis
- Nitrification inhibitors like nitrapyrin and dicyandiamide can effectively reduce nitrous oxide emissions and improve nitrogen use in vegetable crops, but their effects can vary significantly depending on soil type.
- In a study involving four different vegetable soils in China, soil characteristics such as pH, nitrate levels, and microbial biomass were found to heavily influence nitrogen emissions and crop yields.
- While nitrification inhibitors significantly decreased emissions of NO and nitric oxide, they also increased ammonia volatilization across all soil types, indicating that using these inhibitors might lead to unintended nitrogen losses.
Article Abstract
Nitrification inhibitors, a promising tool for reducing nitrous oxide (NO) losses and promoting nitrogen use efficiency by slowing nitrification, have gained extensive attention worldwide. However, there have been few attempts to explore the broad responses of multiple reactive gaseous nitrogen emissions of NO, nitric oxide (NO) and ammonia (NH) and vegetable yield to nitrification inhibitor applications across intensive vegetable soils in China. A greenhouse pot experiment with five consecutive vegetable crops was performed to assess the efficacies of two nitrification inhibitors, namely, nitrapyrin and dicyandiamide on reactive gaseous nitrogen emissions, vegetable yield and reactive gaseous nitrogen intensity in four typical vegetable soils representing the intensive vegetable cropping systems across mainland China: an Acrisol from Hunan Province, an Anthrosol from Shanxi Province, a Cambisol from Shandong Province and a Phaeozem from Heilongjiang Province. The results showed soil type had significant influences on reactive gaseous nitrogen intensity, with reactive gaseous nitrogen emissions and yield mainly driven by soil factors: pH, nitrate, C:N ratio, cation exchange capacity and microbial biomass carbon. The highest reactive gaseous nitrogen emissions and reactive gaseous nitrogen intensity were in Acrisol while the highest vegetable yield occurred in Phaeozem. Nitrification inhibitor applications decreased NO and NO emissions by 1.8-61.0% and 0.8-79.5%, respectively, but promoted NH volatilization by 3.2-44.6% across all soils. Furthermore, significant positive correlations were observed between inhibited NO+NO and stimulated NH emissions with nitrification inhibitor additions across all soils, indicating that reduced nitrification posed the threat of NH losses. Additionally, reactive gaseous nitrogen intensity was significantly reduced in the Anthrosol and Cambisol due to the reduced reactive gaseous nitrogen emissions and increased yield, respectively. Our findings highlight the benefits of nitrification inhibitors for integrating environment and agronomy in intensive vegetable ecosystems in China.
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| http://dx.doi.org/10.1016/j.scitotenv.2017.08.159 | DOI Listing |
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