Add to ORKGPlant root systems are highly plastic in their development and can adapt their architecture in response to the prevailing environmental conditions. One important parameter is the availability of phosphate, which is highly immobile in soil such that the arrangement of roots within the soil will profoundly affect the ability of the plant to acquire this essential nutrient. Consistent with this, the availability of phosphate was found to have a marked effect on the root system architecture of Arabidopsis. Low phosphate availability favored lateral root growth over primary root growth, through increased lateral root density and length, and reduced primary root growth mediated by reduced cell elongation. The ability of the root system to respond...
<p>Roots are developmentally plastic and highly dependent on the immediate environment. By studying...
Premise of the study: Lateral roots, responsible for water and nutrient uptake, maintain nonvertical...
In order to optimally establish their root systems, plants are endowed with several mechanisms to us...
Plant root systems are highly plastic in their development and can adapt their architecture in respo...
International audiencePhosphorus is a crucial component of major organic molecules such as nucleic a...
Phosphorus (P) is an essential macronutrient for plant growth and development. Inorganic phosphate (...
Nutrient availability and salinity of the soil affect growth and development of plant roots. Here, w...
International audienceThe coordinated distribution of inorganic phosphate (Pi) between roots and sho...
Plant root systems can respond to nutrient availability and distribution by changing the three-dimen...
The root tip responds to mechanical stimulation with a transient increase in cytosolic free calcium ...
Root architecture differences have been linked to the survival of plants on phosphate (P)-deficient ...
We characterized the growth of the primary root of Arabidopsis under phosphorus sufficiency (1 mm ph...
Available from British Library Document Supply Centre- DSC:DXN055042 / BLDSC - British Library Docum...
Arabidopsis plants responding to phosphorus (P) deficiency increase lateral root formation and reduc...
Abstract The root cap has a fundamental role in sensing environmental cues as well as regulating roo...
<p>Roots are developmentally plastic and highly dependent on the immediate environment. By studying...
Premise of the study: Lateral roots, responsible for water and nutrient uptake, maintain nonvertical...
In order to optimally establish their root systems, plants are endowed with several mechanisms to us...
Plant root systems are highly plastic in their development and can adapt their architecture in respo...
International audiencePhosphorus is a crucial component of major organic molecules such as nucleic a...
Phosphorus (P) is an essential macronutrient for plant growth and development. Inorganic phosphate (...
Nutrient availability and salinity of the soil affect growth and development of plant roots. Here, w...
International audienceThe coordinated distribution of inorganic phosphate (Pi) between roots and sho...
Plant root systems can respond to nutrient availability and distribution by changing the three-dimen...
The root tip responds to mechanical stimulation with a transient increase in cytosolic free calcium ...
Root architecture differences have been linked to the survival of plants on phosphate (P)-deficient ...
We characterized the growth of the primary root of Arabidopsis under phosphorus sufficiency (1 mm ph...
Available from British Library Document Supply Centre- DSC:DXN055042 / BLDSC - British Library Docum...
Arabidopsis plants responding to phosphorus (P) deficiency increase lateral root formation and reduc...
Abstract The root cap has a fundamental role in sensing environmental cues as well as regulating roo...
<p>Roots are developmentally plastic and highly dependent on the immediate environment. By studying...
Premise of the study: Lateral roots, responsible for water and nutrient uptake, maintain nonvertical...
In order to optimally establish their root systems, plants are endowed with several mechanisms to us...