Optimising soil P levels reduces N₂O emissions in grazing systems under different N fertilisation

Abstract: The effect of long‐term soil phosphorus (P) on in situ nitrous oxide (N2O) emissions from temperate grassland soil ecosystems is not well understood. Grasslands typically receive large nitrogen (N) inputs both from animal deposition and fertiliser application, with a large proportion of this N being lost to the environment. Understanding optimum nutrient stoichiometry by applying N fertilisers in a relative balance with P will help to reduce N losses by enabling maximum N‐uptake by plants and microbes. This st… Show more

“…Basso et al (2022) propose a modelling approach that could be applied to Mediterranean catchments affected by wildfires, with the aim of reducing soil loss. Finally, O'Neill et al (2022) describe how nitrous oxide emissions from temperate grassland can be reduced by up to 50% by optimising soil phosphorus applications, thus leading to a win–win scenario for farmers.…”

Let's give a voice to young soil researchers

“…Basso et al (2022) propose a modelling approach that could be applied to Mediterranean catchments affected by wildfires, with the aim of reducing soil loss. Finally, O'Neill et al (2022) describe how nitrous oxide emissions from temperate grassland can be reduced by up to 50% by optimising soil phosphorus applications, thus leading to a win–win scenario for farmers.…”

Let's give a voice to young soil researchers