Root morphology and exudation define a plants sphere of influence in soils, and are in turn shaped by the physiochemical characteristics of soil. We explored how particle size and chemistry of growth substrates affect root morphology and exudation of the model grass Brachypodium distachyon . Root fresh weight and root lengths were correlated with particle size, whereas root number and shoot weight remained constant. Mass spectrometry imaging suggested that both, root length and number shape root exudation. Exudate metabolite profiles detected with liquid chromatography / mass spectrometry were comparable for plants growing in glass beads or sand with various particles sizes, but distinct for plants growing in clay. However, when exudates of...
Root exudation is an important process determining plant interactions with the soil environment. Man...
Like all higher organisms, plants have evolved in the context of a microbial world, shaping both the...
Root exudates are plant-derived, exported metabolites likely shaping root-associated microbiomes by ...
Root morphology and exudation define a plants' sphere of influence in soils. In turn, soil character...
Root morphology and exudation define a plants' sphere of influence in soils. In turn, soil character...
Plant root exudation is a crucial means through which plants communicate with soil microbes and infl...
There is a dynamic reciprocity between plants and their environment: On one hand, the physiochemical...
Primary and secondary metabolites exuded by plant roots have mainly been studied under laboratory co...
Primary and secondary metabolites exuded by plant roots have mainly been studied under laboratory co...
There is a dynamic reciprocity between plants and their environment: soil physiochemical properties ...
There is a dynamic reciprocity between plants and their environment: soil physiochemical properties ...
Although interactions between plants and microbes at the plant–soil interface are known to be import...
Accurate information about the quantity, quality and spatiotemporal dynamics of metabolite release f...
The rhizosphere is a hot spot of soil microbial activity and is largely fed by root exudation. The c...
We hypothesized that plant exudates could either gel or disperse soil depending on their chemical ch...
Root exudation is an important process determining plant interactions with the soil environment. Man...
Like all higher organisms, plants have evolved in the context of a microbial world, shaping both the...
Root exudates are plant-derived, exported metabolites likely shaping root-associated microbiomes by ...
Root morphology and exudation define a plants' sphere of influence in soils. In turn, soil character...
Root morphology and exudation define a plants' sphere of influence in soils. In turn, soil character...
Plant root exudation is a crucial means through which plants communicate with soil microbes and infl...
There is a dynamic reciprocity between plants and their environment: On one hand, the physiochemical...
Primary and secondary metabolites exuded by plant roots have mainly been studied under laboratory co...
Primary and secondary metabolites exuded by plant roots have mainly been studied under laboratory co...
There is a dynamic reciprocity between plants and their environment: soil physiochemical properties ...
There is a dynamic reciprocity between plants and their environment: soil physiochemical properties ...
Although interactions between plants and microbes at the plant–soil interface are known to be import...
Accurate information about the quantity, quality and spatiotemporal dynamics of metabolite release f...
The rhizosphere is a hot spot of soil microbial activity and is largely fed by root exudation. The c...
We hypothesized that plant exudates could either gel or disperse soil depending on their chemical ch...
Root exudation is an important process determining plant interactions with the soil environment. Man...
Like all higher organisms, plants have evolved in the context of a microbial world, shaping both the...
Root exudates are plant-derived, exported metabolites likely shaping root-associated microbiomes by ...