Add to ORKGThe objective of this study was to identify physiological traits that could distinguish between cotton genotypes that were tolerant or sensitive to water deficits. The experiment was conducted in a completely randomized design through a factorial combination to analyze four genotypes (BRS 187 8H and ACALA SJ-4 - water deficit tolerant; CNPA 7H and SU-0450/8909 - water deficit sensitive) and two water regimes (watered/always irrigated and stressed/with a water deficit imposed at flowering). Irrigation was suspended for the plants in the water deficit treatment groups when their first flowers appeared. Leaf water potential (ψpd) was monitored until the plants reached -3.0 MPa predawn, at which point leaf samples were collected for analysis. T...
Drought stress is one of the major abiotic factors affecting crop growth and limiting production wor...
ABSTRACT The aim of this study was to evaluate the changes in osmoregulatory metabolism of cotton ge...
Understanding the genetic and physiological basis of abiotic stress tolerance under field conditions...
ABSTRACT. The objective of this study was to identify physiological traits that could distinguish be...
Deficit irrigation water (DW) is one of the main stress factors that negatively affect cotton cultiv...
The screening of 21 cotton genotypes for drought stress tolerance was done under water limiting cond...
This article presents the findings of an extensive research endeavor aimed at comprehending the phys...
This article presents the findings of an extensive research endeavor aimed at comprehending the phys...
We evaluated an array of progeny of interspecific cotton crosses in the field. Significant water str...
Drought stress significantly limits cotton growth and production due to the necessity of water at ev...
Abstract Background Cotton production is adversely effected by drought stress. It is exposed to drou...
Cotton (Gossypium hirsutum L.) is an economically important crop with mutiple uses as fiber, biofuel...
Climate change and rising temperatures caused water deficits due to lesser and irregular rainfalls, ...
Drought stress is a major limiting factor in crop production.Genetic improvement is possible in cott...
Cotton plant breeders need well-defined phenotypic parameters by which they can select drought toler...
Drought stress is one of the major abiotic factors affecting crop growth and limiting production wor...
ABSTRACT The aim of this study was to evaluate the changes in osmoregulatory metabolism of cotton ge...
Understanding the genetic and physiological basis of abiotic stress tolerance under field conditions...
ABSTRACT. The objective of this study was to identify physiological traits that could distinguish be...
Deficit irrigation water (DW) is one of the main stress factors that negatively affect cotton cultiv...
The screening of 21 cotton genotypes for drought stress tolerance was done under water limiting cond...
This article presents the findings of an extensive research endeavor aimed at comprehending the phys...
This article presents the findings of an extensive research endeavor aimed at comprehending the phys...
We evaluated an array of progeny of interspecific cotton crosses in the field. Significant water str...
Drought stress significantly limits cotton growth and production due to the necessity of water at ev...
Abstract Background Cotton production is adversely effected by drought stress. It is exposed to drou...
Cotton (Gossypium hirsutum L.) is an economically important crop with mutiple uses as fiber, biofuel...
Climate change and rising temperatures caused water deficits due to lesser and irregular rainfalls, ...
Drought stress is a major limiting factor in crop production.Genetic improvement is possible in cott...
Cotton plant breeders need well-defined phenotypic parameters by which they can select drought toler...
Drought stress is one of the major abiotic factors affecting crop growth and limiting production wor...
ABSTRACT The aim of this study was to evaluate the changes in osmoregulatory metabolism of cotton ge...
Understanding the genetic and physiological basis of abiotic stress tolerance under field conditions...