Add to ORKGThe breakdown of organic nitrogen in soil is a potential rate-limiting step in nitrogen cycling. Arbuscular mycorrhizal (AM) fungi are root symbionts that might improve the ability of plants to compete for organic nitrogen products against other decomposer microbes. However, AM uptake of organic nitrogen, especially in natural systems, has traditionally been difficult to test. We developed a novel quantitative nanotechnological technique to determine in situ that organic nitrogen uptake by AM fungi can occur to a greater extent than has previously been assumed. Specifically, we found that AM fungi acquired recalcitrant and labile forms of organic nitrogen. Moreover, N enrichment of soil reduced plot-scale uptake of these compounds. Since mo...
The ability of the external mycelium in arbuscular mycorrhiza for N uptake and transport was studied...
Mycorrhizal fungi have considerable effects on soil carbon (C) storage, as they control the decompos...
International audienceDead organic matter (OM) is a major source of nitrogen (N) for plants. The maj...
The breakdown of organic nitrogen in soil is a potential rate-limiting step in nitrogen cycling. Arb...
Arbuscular mycorrhizal (AM) fungi can significantly contribute to plant nitrogen (N) uptake from com...
Nitrogen (N) capture by arbuscular mycorrhizal (AM) fungi from organic material is a recently discov...
Arbuscular mycorrhizal fungi (order Glomales), which form mycorrhizal symbioses with two out of thre...
Background and Aims The importance of the uptake of nitrogen in organic form by plants and mycorrhiz...
Arbuscular mycorrhizal fungi (AMF) can transfer nitrogen (N) to host plants, but the ecological rele...
While it is well established that plants are able to acquire nitrogen in inorganic form, there is le...
Arbuscular mycorrhizal (AM) fungi increase nitrogen (N) uptake by their host plants, but their role ...
Mycorrhizal plants from a variety of ecosystems have the capacity to take up organic forms of nitrog...
We examined the extent to which arbuscular mycorrhizal (AM) fungi root improved the acquisition of s...
The Arbuscular Mycorrhiza is arguably the world's most important interaction. The roots of over 70 %...
Trees within farmers’ fields can enhance systems’ longer-term productivity, for example, via nutrien...
The ability of the external mycelium in arbuscular mycorrhiza for N uptake and transport was studied...
Mycorrhizal fungi have considerable effects on soil carbon (C) storage, as they control the decompos...
International audienceDead organic matter (OM) is a major source of nitrogen (N) for plants. The maj...
The breakdown of organic nitrogen in soil is a potential rate-limiting step in nitrogen cycling. Arb...
Arbuscular mycorrhizal (AM) fungi can significantly contribute to plant nitrogen (N) uptake from com...
Nitrogen (N) capture by arbuscular mycorrhizal (AM) fungi from organic material is a recently discov...
Arbuscular mycorrhizal fungi (order Glomales), which form mycorrhizal symbioses with two out of thre...
Background and Aims The importance of the uptake of nitrogen in organic form by plants and mycorrhiz...
Arbuscular mycorrhizal fungi (AMF) can transfer nitrogen (N) to host plants, but the ecological rele...
While it is well established that plants are able to acquire nitrogen in inorganic form, there is le...
Arbuscular mycorrhizal (AM) fungi increase nitrogen (N) uptake by their host plants, but their role ...
Mycorrhizal plants from a variety of ecosystems have the capacity to take up organic forms of nitrog...
We examined the extent to which arbuscular mycorrhizal (AM) fungi root improved the acquisition of s...
The Arbuscular Mycorrhiza is arguably the world's most important interaction. The roots of over 70 %...
Trees within farmers’ fields can enhance systems’ longer-term productivity, for example, via nutrien...
The ability of the external mycelium in arbuscular mycorrhiza for N uptake and transport was studied...
Mycorrhizal fungi have considerable effects on soil carbon (C) storage, as they control the decompos...
International audienceDead organic matter (OM) is a major source of nitrogen (N) for plants. The maj...