PT - JOURNAL ARTICLE AU - Samuel Knapp AU - Thomas F. Döring AU - Hannah E. Jones AU - John Snape AU - Luzie U. Wingen AU - Martin S. Wolfe AU - Michelle Leverington-Waite AU - Simon Griffiths TI - Natural selection towards wild-type in composite cross populations of winter wheat AID - 10.1101/678938 DP - 2019 Jan 01 TA - bioRxiv PG - 678938 4099 - http://biorxiv.org/content/early/2019/06/21/678938.short 4100 - http://biorxiv.org/content/early/2019/06/21/678938.full AB - Most of our crops are grown in monoculture with single genotypes grown over wide acreage. An alternative approach, where segregating populations are used as crops is an exciting possibility, but outcomes of natural selection upon this type of crop are not well understood. We tracked allelic frequency changes in evolving composite cross populations (CCPs) of wheat grown over ten generations under organic and conventional farming. At three generations, each population was genotyped with 19 SSR and 8 SNP markers. The latter were diagnostic for major functional genes. Gene diversity was constant at SSR markers but decreased over time for genic markers. Population differentiation between the four locations could not be detected, suggesting that organic vs. non-organic crop management did not drive allele frequency changes. However, we did see changes for genes controlling plant height and phenology in all populations independently and consistently. We interpret these changes as the result of a consistent natural selection towards wild-type. Independent selection for alleles that are associated with plant height suggests that competition for light was central, resulting in the predominance of stronger intraspecific competitors, and highlighting a potential trade-off between individual and population performance.