Add to ORKGPlant root systems are highly plastic in response to environmental stimuli. Improved nutrient acquisition can increase fertilizer use efficiency and is critical for crop production. Recent analyses of field-grown crops highlighted the importance of root system architecture (RSA) in nutrient acquisition. This indicated that it is feasible in practice to exploit genotypes or mutations giving rise to optimal RSA for crop design in the future, especially with respect to plant breeding for infertile soils.Plant root systems are highly plastic in response to environmental stimuli. Improved nutrient acquisition can increase fertilizer use efficiency and is critical for crop production. Recent analyses of field-grown crops highlighted the importanc...
Root systems determine the water and nutrients for photosynthesis and harvested products, underpinni...
Most of the effort of crop breeding has focused on the expression of aboveground traits with the goa...
Global agriculture requires the development of nutrient-efficient crops to improve food security whi...
Plant root systems are highly plastic in response to environmental stimuli. Improved nutrient acquis...
An increasing body of evidence indicates that the engineering of root system architecture has the po...
Abiotic stresses increasingly curtail crop yield as a result of global climate change and scarcity o...
Abstract Improving crop nutrient efficiency becomes an essential consideration for environmentally f...
AbstractPlant survival and fitness are dependent on root system architecture (RSA). In Australia, ro...
In recent years the study of root phenotypic plasticity in response to sub-optimal environmental fac...
Phosphorus (P) and nitrogen macronutrient deficiencies remain a primary constraint to global agricul...
An increasing body of evidence indicates that the engineering of root system architecture has the po...
Crop production depends on the availability of water and mineral nutrients, and increased yields mig...
The amazing achievement of the 20th century was that widely affordable food was produced for a four-...
Root phenotypic plasticity has been proposed as a target for the development of more productive crop...
Background and Aims: Root architecture is a primary determinant of soil resource acquisition. We hyp...
Root systems determine the water and nutrients for photosynthesis and harvested products, underpinni...
Most of the effort of crop breeding has focused on the expression of aboveground traits with the goa...
Global agriculture requires the development of nutrient-efficient crops to improve food security whi...
Plant root systems are highly plastic in response to environmental stimuli. Improved nutrient acquis...
An increasing body of evidence indicates that the engineering of root system architecture has the po...
Abiotic stresses increasingly curtail crop yield as a result of global climate change and scarcity o...
Abstract Improving crop nutrient efficiency becomes an essential consideration for environmentally f...
AbstractPlant survival and fitness are dependent on root system architecture (RSA). In Australia, ro...
In recent years the study of root phenotypic plasticity in response to sub-optimal environmental fac...
Phosphorus (P) and nitrogen macronutrient deficiencies remain a primary constraint to global agricul...
An increasing body of evidence indicates that the engineering of root system architecture has the po...
Crop production depends on the availability of water and mineral nutrients, and increased yields mig...
The amazing achievement of the 20th century was that widely affordable food was produced for a four-...
Root phenotypic plasticity has been proposed as a target for the development of more productive crop...
Background and Aims: Root architecture is a primary determinant of soil resource acquisition. We hyp...
Root systems determine the water and nutrients for photosynthesis and harvested products, underpinni...
Most of the effort of crop breeding has focused on the expression of aboveground traits with the goa...
Global agriculture requires the development of nutrient-efficient crops to improve food security whi...