Add to ORKGNitrogen (N), being the most critical and essential nutrient for plant growth, largely determines the productivity in both extensive- and intensive- grassland systems. Nitrification and denitrification processes in the soil are the primary drivers generating reactive-N: NO3-, N2O, and NO, and is largely responsible for N-loss and degradation of grasslands. Suppressing nitrification can thus facilitate the retention of soil-N to sustain long-term productivity of grasslands and forage-based production systems. Certain plants can suppress soil nitrification by releasing inhibitors from roots, a phenomenon termed ‘biological nitrification inhibition’ (BNI). Recent methodological developments (e.g. bioluminescence assay to detect BNIs from plant...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
It is widely recognized that less than 50% of applied nitrogen (N) fertilizer is recovered by crops,...
Nitrogen (N), being the most critical and essential nutrient for plant growth, largely determines th...
Nitrogen (N), being the most critical and essential nutrient for plant growth, largely determines th...
Nitrogen (N), the most critical and essential nutrient for plant growth, largely determines the prod...
Up to 70% of the nitrogen (N) fertilizers applied to agricultural systems are lost due to nitrificat...
The natural ability of plants to release chemical substances from their roots that have a suppressin...
Nitrification is one of the key processes leading to water contamination and greenhouse gas emission...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Modern intensively managed pastures that receive large external nitrogen (N) inputs account for hig...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Higher rates of nitrification in soil facilitate nitrogen (N) losses from agricultural systems throu...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
It is widely recognized that less than 50% of applied nitrogen (N) fertilizer is recovered by crops,...
Nitrogen (N), being the most critical and essential nutrient for plant growth, largely determines th...
Nitrogen (N), being the most critical and essential nutrient for plant growth, largely determines th...
Nitrogen (N), the most critical and essential nutrient for plant growth, largely determines the prod...
Up to 70% of the nitrogen (N) fertilizers applied to agricultural systems are lost due to nitrificat...
The natural ability of plants to release chemical substances from their roots that have a suppressin...
Nitrification is one of the key processes leading to water contamination and greenhouse gas emission...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Modern intensively managed pastures that receive large external nitrogen (N) inputs account for hig...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Higher rates of nitrification in soil facilitate nitrogen (N) losses from agricultural systems throu...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
It is widely recognized that less than 50% of applied nitrogen (N) fertilizer is recovered by crops,...