# Impact of water deficiency on cotton ginning efficiency, fiber quality, and seed composition

**Authors:** Fang Bai, Sean P. Donohoe, Abdelraheem Abdelraheem, Nacer Bellaloui, Partson Mubvumba, Linghe Zeng

PMC · DOI: 10.3389/fpls.2026.1761774 · Frontiers in Plant Science · 2026-02-04

## TL;DR

This study shows how water deficiency affects cotton growth, fiber quality, and seed composition, identifying a resilient cotton genotype for breeding.

## Contribution

The study identifies CIM 432 as a water-deficiency-tolerant cotton genotype with stable fiber quality and agronomic traits.

## Key findings

- Water deficiency reduced plant height and boll numbers in most cotton genotypes.
- CIM 432 maintained stable ginning efficiency and fiber quality under water stress.
- A trade-off was observed between lint yield and seed oil accumulation under water deficiency.

## Abstract

Water deficiency is a prevalent abiotic stress that significantly constrains cotton productivity worldwide. This study aimed to evaluate the impact of water deficiency on ginning efficiency, fiber quality, and seed composition in cotton (Gossypium spp.). Ten cotton genotypes were assessed under irrigated and non-irrigated field conditions. Water deficiency markedly reduced plant height and the number of bolls, with genotypes MD 52ne, MD 25-26ne, and 1517–99 displaying high sensitivity, whereas CIM 432 exhibited notable water deficiency tolerance. Ginning efficiency analysis showed a general reduction in energy requirements under water deficiency, particularly in MD10-5, MD 15, and MD 52ne. CIM 432, however, maintained high boll numbers, and stable ginning rate and ginning energy under stress. Fiber quality traits such as length, strength, and uniformity were adversely affected by water deficiency across most genotypes, although CIM 432, MD 15 and 84524 showed greater stability. Correlation analyses under water deficiency revealed strong positive associations among fiber length, strength, and uniformity, along with a significant negative correlation between lint percentage and oil content, suggesting a trade-off between lint yield and seed oil accumulation. Cottonseed composition analysis indicated that when oil content declined under water deficiency, protein and seed fiber levels remained relatively unaffected. Significant genotypic variation was observed for most traits, with minimal genotype-by-treatment interactions, indicating consistent genotype performance across irrigated and non-irrigated treatments. Overall, CIM 432 emerged as a robust candidate for breeding water deficiency-tolerant cotton, combining agronomic resilience with stable fiber quality. These findings underscore the complexity of genotype-water deficiency stress interactions and highlight the importance of integrated phenotypic assessment for developing water deficiency-tolerant cotton varieties.

## Full-text entities

- **Genes:** Sucrose synthase [NCBI Gene 107958826]
- **Diseases:** Drought (MESH:C536747), Water deficiency (MESH:D003681), water (MESH:D000069578), SI (MESH:D009366), MD (MESH:C535955)
- **Chemicals:** ethephon (MESH:C005073), thidiazuron (MESH:C016785), MD (MESH:D008573), diuron (MESH:D004237), Silicon (MESH:D012825), LP (-), carbohydrate (MESH:D002241), Oil (MESH:D009821), Valor (MESH:C106487), carbon (MESH:D002244), Radiant (MESH:C548262), nitrogen (MESH:D009584), sucrose (MESH:D013395), lipid (MESH:D008055), Water (MESH:D014867), K2O (MESH:C068440), Lead Sulfide (MESH:C018391), Prowl (MESH:C030856)
- **Species:** Gossypium hirsutum (American cotton, species) [taxon 3635], Gossypium raimondii (Peruvian cotton, species) [taxon 29730], Gossypium arboreum (tree cotton, species) [taxon 29729]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12913115/full.md

## References

54 references — full list in the complete paper: https://tomesphere.com/paper/PMC12913115/full.md

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Source: https://tomesphere.com/paper/PMC12913115