Assessment of Cotton Leaf and Yield Responses to Water-Deficit Stress During Flowering and Boll Development

Burke, John P.; Ulloa, Mauricio

doi:10.56454/vauu8696

JCS

2019

DOI: 10.56454/vauu8696

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Assessment of Cotton Leaf and Yield Responses to Water-Deficit Stress During Flowering and Boll Development

John P. Burke¹,

Mauricio Ulloa²

Abstract: Rainfall future events are predicted to decline to 30 to 127 mm in the majority of counties of the Texas High Plains and Rolling Plains because of climate change. Cotton (Gossypium hirsutum L.) is the major crop grown on the High Plains of Texas, and the lower humidity associated with the predicted reduction in rain raises the possibility of increased vegetative water-deficit stress and reproductive dehydration stress. This study assesses the vegetative and reproductive developmental processes of commercial co… Show more

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Cited by 2 publications

References 32 publications

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Assessing agronomic and physiological traits during reproductive developmental stages for breeding upland drought‐tolerant cotton

Witt,

Habimana,

Sanchez

et al. 2024

Agrosystems Geosci & Env

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Increasing crop production in a changing climate is one of the challenges facing the agricultural research community. The goal of this study was to identify and evaluate specific determinant traits for improving water stress resiliency of cultivated upland cotton (Gossypium hirsutum L.). Two genotypes (PhytoGen 72 [PHY72] and Stoneville 474 [STV474]) representing different production regions of the US were evaluated for water stress resiliency under greenhouse conditions. More than 20 vegetative and reproductive traits were evaluated through six physiological reproductive stages, from plant emergence to open bolls and under two irrigation levels. Significant differences (p ≤ 0.05) were observed between irrigation levels for most traits within each genotype. PHY72 had rapid increases in plant height under regular water and limited water conditions (RW and LW). RW approximated daily evapotranspiration rates, while LW rate provided 50% less water by mass. However, by the fourth stage, peak blooming, the two genotypes were the same height, indicating that early and rapid vegetative plant growth from emergence to first reproductive stage was not a good indicator of improved growth and boll production under diverse irrigation levels. Some traits, such as leaf temperature, chlorophyll fluorescence yield, leaf and boll number, as well as leaf and reproductive fresh weight, showed clear differences between the two genotypes in one or both irrigation rates. Cotton breeders/geneticists currently cannot predict end‐of‐season productivity based on early‐season evaluations under water stress conditions. Early season, controlled environment screening before field testing may reveal the genetic potential of breeding lines for water stress resiliency.

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Assessing agronomic and physiological traits during reproductive developmental stages for breeding upland drought‐tolerant cotton

Witt,

Habimana,

Sanchez

et al. 2024

Agrosystems Geosci & Env

View full text Add to dashboard Cite

show abstract

Enhancing Upland cotton for drought resilience, productivity, and fiber quality: comparative evaluation and genetic dissection

Ulloa¹,

Santiago

Hulse‐Kemp

et al. 2019

Mol Genet Genomics

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Assessment of Cotton Leaf and Yield Responses to Water-Deficit Stress During Flowering and Boll Development

Cited by 2 publications

References 32 publications

Assessing agronomic and physiological traits during reproductive developmental stages for breeding upland drought‐tolerant cotton

Assessing agronomic and physiological traits during reproductive developmental stages for breeding upland drought‐tolerant cotton

Enhancing Upland cotton for drought resilience, productivity, and fiber quality: comparative evaluation and genetic dissection

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