Shaping an Optimal Soil by Root–Soil Interaction
Crop production depends on the availability of water and mineral nutrients, and increased yields might be facilitated by a greater focus on roots–soil interactions. Soil properties affecting plant growth include drought, compaction, nutrient deficiency, mineral toxicity, salinity, and submergence. Plant roots respond to the soil environment both spatially and temporally by avoiding stressful soil environments and proliferating in more favorable environments. We observe that crops can be bred for specific root architectural and biochemical traits that facilitate soil exploration and resource acquisition, enabling greater crop yields. These root traits affect soil physical and chemical properties and might be utilized to improve the soil for subsequent crops. We argue that optimizing root–soil interactions is a prerequisite for future food security.
| Item Type | Article |
|---|---|
| Open Access | Not Open Access |
| Additional information | No Pink Form No funding information in paper |
| Keywords | heterogeneity, root–soil interaction, root system, soil structure |
| Project | Designing Future Wheat (DFW) [ISPG], DFW - Designing Future Wheat - Work package 1 (WP1) - Increased efficiency and sustainability, DFW - Designing Future Wheat - Work package 2 (WP2) - Added value and resilience |
| Date Deposited | 05 Dec 2025 09:55 |
| Last Modified | 19 Dec 2025 14:37 |
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