Natural selection drives emergent genetic homogeneity in a century-scale experiment with barley

Natural selection drives emergent genetic homogeneity in a century-scale experiment with barley

Direct observation is central to our understanding of adaptation, but evolution is rarely documented in a large, multicellular organism for more than a few generations. In this study, we observed evolution across a century-scale competition experiment, barley composite cross II (CCII). CCII was foun...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2024-07, Vol.385 (6705), p.eadl0038
Hauptverfasser: Landis, Jacob B, Guercio, Angelica M, Brown, Keely E, Fiscus, Christopher J, Morrell, Peter L, Koenig, Daniel
Format: Artikel
Sprache:eng
Schlagworte:
Adaptation
Agricultural practices
Alleles
Barley
Biodiversity
Competitiveness
Crop resilience
Crop yield
Crops
Crosses, Genetic
Domestication
Environmental conditions
Evolution
Experiments
Flowering
Genetic crosses
Genetic diversity
Genetic variance
Genetic Variation
Genome, Plant
Genomes
Genotype
Genotypes
Homogeneity
Hordeum - genetics
Loci
Natural selection
Phenotypic variations
Plants (botany)
Population genetics
Population studies
Selection, Genetic
Self-fertilization
Species extinction
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Beschreibung
Zusammenfassung:Direct observation is central to our understanding of adaptation, but evolution is rarely documented in a large, multicellular organism for more than a few generations. In this study, we observed evolution across a century-scale competition experiment, barley composite cross II (CCII). CCII was founded in 1929 in Davis, California, with thousands of genotypes, but we found that natural selection has massively reduced genetic diversity, leading to a single lineage constituting most of the population by generation 50. Selection favored alleles originating from climates similar to that of Davis and targeted loci contributing to reproductive development, including the barley diversification loci , , , and . Our findings point to selection as the predominant force shaping genomic variation in one of the world's oldest biological experiments.
ISSN:0036-8075
1095-9203
1095-9203
DOI:10.1126/science.adl0038