Add to ORKGThe traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants can compete with microbes for low molecular weight (LMW) organic N. Despite a number of studies that have shown LMW organic N uptake by plants, there remains a debate on the overall ecological relevance of LMW organic N uptake by plants across ecosystems with different N availabilities. We here report patterns of glycine N uptake by plants from three different Australian land-use types with intermediate N availability and low inherent glycine concentrations in the soil. Using 15N labeled tracers, we tested the potential of these plants to acquire glycine in ex-situ laboratory experiments and attempted to validate these results in the field by ...
N-15 labeled ammonium, glycine or glutamic acid was injected into subarctic heath soil in situ, with...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...
The traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants c...
Soluble organic nitrogen, including protein and amino acids, was found to be a ubiquitous form of so...
The growing awareness that plants might use a variety of nitrogen (N) forms, both organic and inorga...
It is becoming increasingly apparent that soil amino acids are a principal source of nitrogen (N) fo...
We tested the inter-specific variability in the ability of three dominant grasses of temperate grass...
We used dual labelled stable isotope (13C and 15N) techniques to examine how grassland plant species...
Abstract. There are no published studies of organicN uptake by species of south-easternAustralia (e....
Nitrogen (N) limitation is common in most terrestrial ecosystems, often leading to strong competitio...
In order to follow the uptake and allocation of N in different plant functional types and microbes i...
Although agricultural grassland soils have inherently high rates of net nitrogen (N) mineralization,...
In this study, we assessed whether a range of temperate grassland species showed preferential uptake...
Organic nitrogen (N) is becoming increasingly recognized as a potentially important N source for pla...
N-15 labeled ammonium, glycine or glutamic acid was injected into subarctic heath soil in situ, with...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...
The traditional view of the nitrogen (N) cycle has been challenged since the discovery that plants c...
Soluble organic nitrogen, including protein and amino acids, was found to be a ubiquitous form of so...
The growing awareness that plants might use a variety of nitrogen (N) forms, both organic and inorga...
It is becoming increasingly apparent that soil amino acids are a principal source of nitrogen (N) fo...
We tested the inter-specific variability in the ability of three dominant grasses of temperate grass...
We used dual labelled stable isotope (13C and 15N) techniques to examine how grassland plant species...
Abstract. There are no published studies of organicN uptake by species of south-easternAustralia (e....
Nitrogen (N) limitation is common in most terrestrial ecosystems, often leading to strong competitio...
In order to follow the uptake and allocation of N in different plant functional types and microbes i...
Although agricultural grassland soils have inherently high rates of net nitrogen (N) mineralization,...
In this study, we assessed whether a range of temperate grassland species showed preferential uptake...
Organic nitrogen (N) is becoming increasingly recognized as a potentially important N source for pla...
N-15 labeled ammonium, glycine or glutamic acid was injected into subarctic heath soil in situ, with...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...
Evidence that plants differ in their ability to take up both organic (ON) and inorganic (IN) forms o...