☆ 4.4 Review

Do tropical climatic conditions reduce the effectiveness of nitrification inhibitors? A meta-analysis of studies carried out in Brazil

NUTRIENT CYCLING IN AGROECOSYSTEMS (2023)

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Summary: This review focuses on reducing N2O emissions from agricultural soils, particularly during winter months in cold regions. It found that no-till and NI + UI practices were effective in reducing winter emissions, with no-till showing more significant results in drier climates and NI + UI in medium-textured soils. CCs showed potential for reducing emissions in humid climates but not significantly.

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Efficacy of four nitrification inhibitors for the mitigation of nitrous oxide emissions under different soil temperature and moisture

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Summary: The study found that the efficacy of different NI in inhibiting N2O emissions in sandy soil is influenced by soil temperature and moisture levels, with DMPP and PIADIN showing stronger inhibition effects on the emissions.

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The persistence and efficacy of nitrification inhibitors to mitigate nitrous oxide emissions from New Zealand pasture soils amended with urine

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Summary: This laboratory incubation study investigated the efficacy of two nitrification inhibitors (NIs), DMPP and nitrapyrin, in reducing nitrous oxide (N2O) emissions from urine-amended pasture soils in New Zealand. The results showed that both NIs significantly reduced N2O emissions, with the efficacy varying with the amount of NI and soil type.

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Nitrapyrin reduced ammonia oxidation with different impacts on the abundance of bacterial and archaeal ammonia oxidisers in four agricultural soils

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Summary: The study found that nitrapyrin co-applied with urea ammonium nitrate can inhibit nitrification in soils by reducing nitrate accumulation and inhibiting the growth of ammonia oxidising bacteria. Additionally, the study discovered increased abundance of archaeal amoA gene in response to the co-application of nitrapyrin and UAN, possibly due to reduced competition from ammonia oxidising bacteria. Nevertheless, conclusive effects on downstream N transformations could not be discerned for the four soils.

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DMPP mitigates N2O emissions from nitrogen fertilizer applied with concentrated and standard vinasse

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Summary: The application of vinasse, an organic byproduct of ethanol production, can increase greenhouse gas emissions from N fertilizers, especially nitrous oxide (N2O). However, the nitrification inhibitor (NI) can significantly reduce N2O emissions when vinasse and mineral N fertilizers are combined, making it a suitable mitigation strategy for sugarcane production.

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Summary: The study unveiled the mechanism of action of nitrification inhibitors with copper elements, demonstrating the effects of 3,4-dimethyl-1H-pyrazole dihydrogen phosphate and a new DMP-based nitrification inhibitor. Despite their differences, both compounds showed the same nitrification inhibition efficiency in soils with varying copper content, suggesting that DMP plays an active role in both cases.

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Management and implications of using nitrification inhibitors to reduce nitrous oxide emissions from urine patches on grazed pasture soils - A review

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Summary: Nitrification inhibitors can significantly reduce N2O emissions from urine patches, with DCD showing the most effective results. However, research is needed to establish acceptable maximum residue levels of NIs in soil, plant, and animal products, and optimize physical mixing between NIs and urine patches for livestock grazed systems.

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Impact of dimethylpyrazole-based nitrification inhibitors on soil-borne bacteria

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Urease and Nitrification Inhibitors-As Mitigation Tools for Greenhouse Gas Emissions in Sustainable Dairy Systems: A Review

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