Add to ORKGThe biological oxidation of ammonia (i.e. nitrification), results in the transformation of relatively immobile NH4+ into a highly mobile NO3-, which is vulnerable to losses through leaching and denitrification, resulting in low nitrogen-use efficiency in agricultural systems. The ability of certain plants to suppress soil nitrifier function by releasing inhibitors from roots is termed 'biological nitrification inhibition' (BNI). Using a recombinant luminescent Nitrosomonas europaea, we developed an assay to detect and quantify the inhibitory effects in plant soil systems termed, 'BNI activity', expressed in ATU (allylthiourea unit). Sorghum roots released (into water-based medium, hereafter referred to as root exudates) substantial amount o...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
[EN] Background: The increasing demand for food production has led to a tenfold increase in nitrogen...
Up to 70% of the nitrogen (N) fertilizers applied to agricultural systems are lost due to nitrificat...
The biological oxidation of ammonia (i.e. nitrification), results in the transformation of relativel...
Aims The ability to suppress soil nitrification through the release of nitrification inhibitors f...
Nitrification and denitrification are the two most important processes that contribute to greenhouse...
Nitrification and denitrification are the primary drivers for generating reactive -N (NO3-, N20 and ...
Nitrification results in poor nitrogen (N) recovery and negative environmental impacts in most agric...
The natural ability of plants to release chemical substances from their roots that have a suppressin...
Background Sorghum roots release two categories of biological nitrification inhibitors (BNIs) – h...
To date, most studies on biological nitrification inhibition (BNI) in sorghum have been performed wi...
Sorgoleone is a secondary sorghum metabolite released from roots. It has allelopathic properties and...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Background: The increasing demand for food production has led to a tenfold increase in nitrogen (N) ...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
[EN] Background: The increasing demand for food production has led to a tenfold increase in nitrogen...
Up to 70% of the nitrogen (N) fertilizers applied to agricultural systems are lost due to nitrificat...
The biological oxidation of ammonia (i.e. nitrification), results in the transformation of relativel...
Aims The ability to suppress soil nitrification through the release of nitrification inhibitors f...
Nitrification and denitrification are the two most important processes that contribute to greenhouse...
Nitrification and denitrification are the primary drivers for generating reactive -N (NO3-, N20 and ...
Nitrification results in poor nitrogen (N) recovery and negative environmental impacts in most agric...
The natural ability of plants to release chemical substances from their roots that have a suppressin...
Background Sorghum roots release two categories of biological nitrification inhibitors (BNIs) – h...
To date, most studies on biological nitrification inhibition (BNI) in sorghum have been performed wi...
Sorgoleone is a secondary sorghum metabolite released from roots. It has allelopathic properties and...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane wit...
Background: The increasing demand for food production has led to a tenfold increase in nitrogen (N) ...
Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing ...
[EN] Background: The increasing demand for food production has led to a tenfold increase in nitrogen...
Up to 70% of the nitrogen (N) fertilizers applied to agricultural systems are lost due to nitrificat...