Optimizing the rhizosphere to enhance photosynthesis and functional traits of Cyperus esculentus in saline-alkali soils: A comparison between biochemical amendments and salt-tolerant plant intercropping
Key Points
Enhancements in photosynthesis and functional traits during intercropping indicate positive responses to biochemicals.
Photosynthesis increased by 30% with biochemical amendments in saline-alkali soils, highlighting effective interventions.
This observational analysis compares the effects of biochemical amendments and intercropping using salt-tolerant plants.
These findings suggest that optimizing the rhizosphere with specific amendments may improve crop resilience in saline environments.
Optimizing the rhizosphere to enhance photosynthesis and functional traits of Cyperus esculentus in saline-alkali soils: A comparison between biochemical amendments and salt-tolerant plant intercropping | Synapse
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