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← Back to Discoveries | PubMed → · research article 2026-03-26 synthesized

Quantifying microbiota impact on plant traits for the guidance of breeding programs.

Blouin M, Crépin O, Blanchard C, Gonzalo M, Lamotte O

Soil Health

Invisible microbial world in your garden soil directly shapes how well your plants grow — and this research could lead to crop varieties bred to partner with those microbes, reducing the need for fertilizers and pesticides.

Plants don't grow alone — they constantly interact with billions of tiny microbes in the soil around their roots. This study figured out how to measure just how much those microbes shape things like plant size, health, and productivity. That knowledge can now help plant breeders intentionally develop crops that team up well with helpful soil microbes instead of ignoring that relationship.

Key Findings

1

Soil and root-associated microbiota have a measurable, quantifiable effect on key plant traits relevant to agriculture

2

A framework was proposed to separate microbial contributions to plant performance from genetic and environmental factors

3

Integrating microbiome data into breeding programs could improve selection accuracy for complex agronomic traits

chevron_right Technical Summary

Researchers developed methods to measure how soil and root microbes influence plant traits like growth and yield, with the goal of helping breeders select crop varieties that work best with beneficial microbes.

hub This connects to 9 other discoveries — soil-health, crop-improvement, mycorrhizal-networks +1 more 5 related articles
soil-health crop-improvement mycorrhizal-networks plant-signaling

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agriculture Crop Improvement
Topic
agriculture

Crop-improvement refers to the systematic enhancement of plant varieties through selective breeding, genetic modification, and biotechnological approaches to develop cultivars with superior agronomic, nutritional, or environmental traits. This field is essential for addressing global food security,

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