Elucidating the mechanism of soybean-derived protein hydrolysate in stabilizing rice yield and enhancing agronomic efficiency
Shunchang Zhang, Lijuan Tang, Xing Zhan, Dianwen Wang, Anning Zhang, Hao Wu, Cheng Huang, Hongping Chen, Jilin Wang

TL;DR
This study explores how a soybean-derived protein hydrolysate boosts rice yield and resilience to stress in real-world conditions.
Contribution
The study provides new insights into the molecular mechanisms and practical efficacy of soybean-derived protein hydrolysates in rice cultivation.
Findings
Application of 'Lifenggu' increased rice yield by 8.9%-14% across multiple field trials.
The hydrolysate enhances stress tolerance by boosting antioxidant enzyme activity and reducing harmful compounds like MDA and H2O2.
Transcriptomic analysis shows 'Lifenggu' regulates genes related to phytohormones and stress response pathways.
Abstract
As a type of biostimulant, protein hydrolysates (PHs) can promote crop growth, increase yield, and enhance crop tolerance to abiotic stresses. However, their application and research in rice production remain relatively limited. Focusing on“Lifenggu” (a soybean-derived protein hydrolysate), this study carried out multilocation field trials to evaluate the real-world application efficacy of this biostimulant on rice production across varying environmental conditions. Meanwhile, laboratory-based assays were conducted to analyze the doseresponse of rice growth to “Lifenggu” and its protective mechanisms under high-temperature and herbicide stress. Field experimental results showed that “Lifenggu” could increase rice yield by 8.9%-14% (with an average increase of 10%). Physiological analysis revealed that “Lifenggu” might promote biomass accumulation by increasing the SPAD value of rice…
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Taxonomy
TopicsPlant Growth Enhancement Techniques · Phytase and its Applications · Legume Nitrogen Fixing Symbiosis
