# Sulfur fertilization optimizes maize yield through nutrient regulation and biomass responses in six contrasting soils of Northeast China

**Authors:** Shuai Cui, Shuoran Liu, Yu Zhang, Xinyuan Zhang, Qiang Gao

PMC · DOI: 10.3389/fpls.2026.1750011 · Frontiers in Plant Science · 2026-03-13

## TL;DR

Adding sulfur fertilizer improves maize yield in six different soils in Northeast China by boosting early growth and nutrient balance.

## Contribution

Quantifies how sulfur fertilization optimizes maize yield through biomass and nutrient responses in six contrasting soils.

## Key findings

- Optimal sulfur rates increased grain yield by 2.5%-25.8% across six soils.
- Yield gains were linked to increased kernel number and thousand-kernel weight.
- Moderate sulfur supply improved biomass accumulation and remobilization efficiency.

## Abstract

Sulfur (S) deficiency has re-emerged as a constraint to maize production due to reduced atmospheric deposition and the widespread use of S-free fertilizers. However, how S fertilization influences yield formation under contrasting soil conditions in Northeast China remains insufficiently quantified.

Here, a two-year field experiment was conducted on six representative soil types using five S rates (0, 30, 60, 90, and 120 kg S ha-¹) with measurements of grain yield and its components, S and N accumulation and stoichiometry, and dry matter production and remobilization before and after silking.

Across the six soils, fitted optimal S rates (61.4–89.7 kg S ha-¹) increased grain yield by 2.5%-25.8%, with the largest responses observed in black soil and aeolian sandy soil. Yield gains were mainly associated with increases in kernel number and thousand-kernel weight, supported by path analysis. Moderate S supply (S60–S90) enhanced S and N uptake at silking and maturity, improved N/S ratios, and increased pre-silking biomass accumulation. Biomass remobilization efficiency increased from 5.0% (S0) to 11.6%–11.7% (S60–S90), contributing to a higher harvest index (40.8% at S0 vs. 42.6%–42.7% at S30–S90). Pre-silking biomass was positively related to grain yield across soils.

Overall, under the studied conditions, S fertilization improved maize yield primarily through promoting early-season growth, nutrient coordination, and biomass remobilization rather than increasing post-silking assimilation alone. These findings provide a scientific basis for soil-specific sulfur management in temperate spring maize systems of Northeast China.

## Linked entities

- **Chemicals:** Sulfur (PubChem CID 5362487)
- **Species:** Zea mays (taxon 4577)

## Full-text entities

- **Chemicals:** Sulfur (S) deficiency (-), N (MESH:D009584), S (MESH:D013455)

## Full text

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## Figures

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## References

53 references — full list in the complete paper: https://tomesphere.com/paper/PMC13021764/full.md

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Source: https://tomesphere.com/paper/PMC13021764