During vegetative growth, the vertical profile of leaf nitrogen (N) often parallels the profile of light distribution within the canopy. This is more advantageous in terms of canopy photosynthesis than a uniform distribution of leaf N. We investigated the influence of both reproductive growth and N supply on the profiles of N and light in canopies of irrigated cotton crops ( Gossypium hirsutum L.). Regular samplings were made from soon after the onset of reproductive growth until crop maturity. Every 2 weeks, a 1 m 2 sample of the canopy was cut in four successive vertical layers of equal thickness. Leaf area and N concentration (%) in each layer were measured. The vertical N gradient became more marked with ongoing reproductive development...
Photosynthesis rate per unit leaf area and leaf longevity are significant components of field cotton...
Light is one of the most important resources for plant. Light level in canopy varies greatly. Previo...
The effects of plant population density on diurnal changes of leaf orientation behavior and canopy s...
Leaf nitrogen content and light intensity affect leaf photosynthesis. Responses of cotton (Gossypium...
The development of vertical canopy gradients of leaf N has been regarded as an adaptation to the lig...
The objective was to investigate how nitrogen allocation patterns in plants are affected by their ve...
Planting density and genotype choice are important agronomic techniques to achieve high crop yields....
Vertical leaf nitrogen (N) gradient within a canopy is classically considered as a key adaptation to...
Due to an indeterminate growth habit, we hypothesised that different canopy layers of cotton might b...
Nitrogen (N) limitation reduces canopy carbon assimilation by directly reducing leaf photosynthesis,...
Ultra-narrow row cotton (UNR, with rows spaced less than 40 cm apart) has long been proposed to have...
Carbohydrate production and reproductive structure development in cotton (Gossypium hirsutum) depend...
Background and aims Leaf nitrogen distribution in the plant canopy is an important determinant for c...
Assessing nitrogen (N) status is important from economic and environmental standpoints. To date, man...
Petiole-NO3, leaf N and chlorophyll (SPAD) meter readings are good in-season indicators of the N sta...
Photosynthesis rate per unit leaf area and leaf longevity are significant components of field cotton...
Light is one of the most important resources for plant. Light level in canopy varies greatly. Previo...
The effects of plant population density on diurnal changes of leaf orientation behavior and canopy s...
Leaf nitrogen content and light intensity affect leaf photosynthesis. Responses of cotton (Gossypium...
The development of vertical canopy gradients of leaf N has been regarded as an adaptation to the lig...
The objective was to investigate how nitrogen allocation patterns in plants are affected by their ve...
Planting density and genotype choice are important agronomic techniques to achieve high crop yields....
Vertical leaf nitrogen (N) gradient within a canopy is classically considered as a key adaptation to...
Due to an indeterminate growth habit, we hypothesised that different canopy layers of cotton might b...
Nitrogen (N) limitation reduces canopy carbon assimilation by directly reducing leaf photosynthesis,...
Ultra-narrow row cotton (UNR, with rows spaced less than 40 cm apart) has long been proposed to have...
Carbohydrate production and reproductive structure development in cotton (Gossypium hirsutum) depend...
Background and aims Leaf nitrogen distribution in the plant canopy is an important determinant for c...
Assessing nitrogen (N) status is important from economic and environmental standpoints. To date, man...
Petiole-NO3, leaf N and chlorophyll (SPAD) meter readings are good in-season indicators of the N sta...
Photosynthesis rate per unit leaf area and leaf longevity are significant components of field cotton...
Light is one of the most important resources for plant. Light level in canopy varies greatly. Previo...
The effects of plant population density on diurnal changes of leaf orientation behavior and canopy s...