# Impact of “dry sowing and wet emergence” water regulation on cotton soil water and salt dynamics, root growth and yield

**Authors:** Qiang Hu, Yu Xiao, Huqiang Li, Xiaofeng Wang, Jiao Lin, Wenqing Zhao, Zhiguo Zhou, Guodong Chen, Lu Han, Nan Cao, Sumei Wan

PMC · DOI: 10.3389/fpls.2025.1685785 · Frontiers in Plant Science · 2025-10-24

## TL;DR

This study explores how a water regulation technique called 'dry sowing and wet emergence' affects soil moisture, salt levels, cotton root growth, and yield in Xinjiang's saline-alkali land.

## Contribution

The study introduces a novel irrigation strategy (DSWE) that optimizes water use, reduces soil salinity, and enhances cotton root development and yield.

## Key findings

- F2 irrigation frequency improved soil moisture and reduced salt content more effectively than F1.
- W2F2 and W3F2 treatments enhanced root growth and reduced oxidative stress in cotton roots.
- W2F2 treatment achieved the highest yield without significant differences compared to local spring irrigation.

## Abstract

Xinjiang, with unique favorable conditions for cotton growth, faces challenges like water scarcity and soil salinization. The dry sowing and wet emergence (DSWE) water regulation technology may alleviate regional water shortages, but its impacts on soil water-salt dynamics, soil desalination rate (SDR), cotton root growth, yield, and irrigation water production efficiency (IWPE) in saline-alkali land remain poorly documented.

A two-year field trial was conducted during 2023 and 2024, involving three different seedling irrigation amounts (W1, 22.5 mm, W2, 37.5 mm, and W3, 45.0 mm) and two drip irrigation frequencies (F1: one-time irrigation and F2: two-time irrigation), resulting in a total of six irrigation combinations, and a local spring irrigation amount was conducted as CK.

Results demonstrated that under the same emergence water amount, F2 treatment exhibited higher soil moisture content and lower soil salt content compared to F1. Increased irrigation frequency and enhanced emergence water amount (W2F2 and W3F2) had greater root length density (RLD) and root vitality, but a lower root-shoot ratio. The W2F1 and W3F1 treatments significantly increased the activities of peroxidase (POD), superoxide dismutase (SOD), and the content of malondialdehyde (MDA) in cotton roots. In contrast, the activities of POD, SOD, and catalase (CAT), as well as the MDA content in cotton roots under the W2F2 and W3F2 treatments were comparable to those in the CK, indicating no obvious physiological stress. Compared with F1, F2 significantly increased cotton boll number and seedcotton yield by 23.3% and 23.5%, respectively. Notably, however, there were no significant differences in boll number and seedcotton yield among the CK, W2F2, and W3F2 treatments, suggesting that increasing water amount did not further improve yield.

In conclusion, DSWE technology maintains optimal soil moisture levels, thereby improving root system development, while simultaneously leaching salts from the rhizosphere and reducing oxidative stress. Under the current experimental conditions, the W2F2 treatment emerges as the most effective strategy for regulating seedling emergence water, effectively integrating water conservation, salinity reduction, and seedling vigor enhancement.

## Linked entities

- **Proteins:** peroxidase (peroxidase PPOD1-like), Cat (Catalase)
- **Species:** Gossypium hirsutum (taxon 3635)

## Full-text entities

- **Genes:** CAT (catalase) [NCBI Gene 847], SOD1 (superoxide dismutase 1) [NCBI Gene 6647] {aka ALS, ALS1, HEL-S-44, IPOA, SOD, STAHP}
- **Chemicals:** salt (MESH:D012492), MDA (MESH:D008315), water (MESH:D014867)

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12591945/full.md

## References

42 references — full list in the complete paper: https://tomesphere.com/paper/PMC12591945/full.md

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Source: https://tomesphere.com/paper/PMC12591945