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PubMed: Plants as silent teachers: bridging plant biology, human ... iNaturalist: Greater celandine (Chelidonium majus) observed in New Salem iNaturalist: flowering dogwood (Cornus florida) observed in Alexandria iNaturalist: Curlyheads (Clematis ochroleuca) observed in Warrenton iNaturalist: yellow trout lily (Erythronium americanum) observed in Au... iNaturalist: bloodroot (Sanguinaria canadensis) observed in Aurora, OH, US iNaturalist: Celandine Poppy (Chelidonium diphyllum) observed in Popla... iNaturalist: mayapple (Podophyllum peltatum) observed in Chipping Ct, ... PubMed: Plants as silent teachers: bridging plant biology, human ... iNaturalist: Greater celandine (Chelidonium majus) observed in New Salem iNaturalist: flowering dogwood (Cornus florida) observed in Alexandria iNaturalist: Curlyheads (Clematis ochroleuca) observed in Warrenton
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genomics-and-precision-agriculture

5 articles

Genomics and precision agriculture combines large-scale DNA sequencing and genomic analysis with data-driven farming practices to optimize crop performance at the genetic level. By identifying genes and variants associated with yield, stress tolerance, and disease resistance, researchers can develop targeted breeding strategies and site-specific management approaches. This field enables more efficient use of resources while accelerating the development of crops better adapted to changing environmental conditions.
bioRxiv

Machine Learning Predicts Drought Tolerance from Leaf Spectral Signatures

This matters because it could help farmers and seed companies quickly identify drought-resistant ...

eco Wheat eco Sorghum eco Maize
crop-improvement climate-adaptation phenology
PubMed

Assembly and annotation of hexaploid Sesuviumportulacastrum genome ...

This matters because soil salinity is quietly destroying farmland worldwide — and the genetic too...

eco Sea purslane eco Ice plant eco Arabidopsis
climate-adaptation crop-improvement soil-health
bioRxiv

Single-Cell Transcriptomics Reveals 47 Cell Types in Arabidopsis Root Tips

This matters because understanding how plant roots grow and regenerate could lead to crops with d...

eco Arabidopsis
plant-signaling crop-improvement soil-health
PubMed

Challenges in Bringing Pangenome Research Into Breeding: A Case Stu...

This matters because rice feeds more than half the world's population, and these new genetic tool...

eco Rice
crop-improvement climate-adaptation genomics
PubMed

Phylogenomic synteny reveals paleohexaploid-derived genomic blocks ...

This matters because understanding why daisies, sunflowers, lettuce, and artichokes all share tha...

eco Asteraceae eco Asters eco Daisies
plant-signaling crop-improvement genome-evolution

Species in Topic

Rice Wheat Arabidopsis Maize Sorghum eco Sea purslane Chrysanthemums eco Daisies Sunflowers Asters eco Ice plant Asteraceae

Related Topics

crop-improvement climate-adaptation plant-signaling soil-health phenology genomics ai-in-agriculture food-security crop-genetic-engineering genome-evolution