Physiological Mechanisms Underlying Maize Yield Enhancement by Straw Return in the Thin-Layer Mollisol Region of the Songnen Plain
Chenglong Guan, Tai Ma, Ming Miao, Jiuhui Chen, Zhicheng Bao, Baoyu Chen, Jingkun Lu, Fangming Liu, Nan Wang, Hongjun Wang, Zhian Zhang

TL;DR
Deep straw incorporation improves maize yield in the Songnen Plain by enhancing root systems and photosynthesis, leading to better nutrient transport and grain production.
Contribution
This study reveals the physiological mechanisms of yield enhancement through deep straw incorporation in thin-layer Mollisol soils.
Findings
Deep straw incorporation increased root morphology and nutrient transport capacity significantly compared to conventional tillage.
Improved root systems enhanced shoot photosynthesis and nitrogen accumulation, leading to higher maize yields.
Path analysis identified key traits like root length and bleeding intensity as critical for yield improvement.
Abstract
Long-term intensive cultivation has caused soil fertility decline and structural degradation in the Songnen Plain, thereby constraining maize root development and yield formation. As a fundamental conservation tillage practice, straw return enhances soil function by incorporating exogenous organic matter and regulating root-shoot physiological processes. However, the mechanism underlying yield improvement through root–photosynthesis–nitrogen synergy remains insufficiently understood. A field experiment was conducted to assess the effects of conventional tillage (CT), straw incorporation (SI), straw mulching (SM), and deep straw incorporation (DF) on maize physiological traits and yield. Compared with CT, DF markedly enhanced root morphology and physiology, increasing the root length, surface area, volume, and root-shoot ratio by 16.46%, 23.87%, 26.64%, and 51.34%, respectively. The root…
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Taxonomy
TopicsPlant nutrient uptake and metabolism · Soil Carbon and Nitrogen Dynamics · Agronomic Practices and Intercropping Systems
