Abstract
Survivor populations of red clover (Trifolium pratense L.) from plots in a field experiment in southern Norway were genetically characterized using genotyping by sequencing, and compared with the original population and each other. Genetic differentiation between populations was characterized on the basis of allele frequencies of single nucleotide polymorphisms (SNPs), using principal component analysis. SNPs that had been under selection, i.e., SNPs with significantly different allele frequencies in survivor populations relative to the original population, or between survivor populations that had received different treatments, were identified by analysis of FST values, using BayeScan and a simple and stringent FST-based test utilizing replicate populations from the field experiment. In addition, we tested the possibility of pooling DNA samples prior to sequencing, and pooling leaf samples prior to DNA extraction and sequencing, followed by allele frequency estimation on the basis of number of variant reads. Overall, survivor populations were more different from each other than from the original population, indicating random changes in allele frequency, selection in response to local variation in conditions between plots in the field experiment, or sampling error. However, some differentiation was observed between plots sown as pure stands or species mixtures, plots sown at different densities, and plots subjected to different harvesting regimes. Allele frequencies could be accurately estimated from pooled DNA, and SNPs under selection could be identified when leaf samples were pooled prior to DNA extraction. However, substantial sampling error required replicate populations and/or a high number of sampled individuals. We identified a number of chromosomal loci that had been under selection in pure stand plots relative to the original sown population, and loci that had been under differential selection in pure stands of red clover vs. red clover grown in species mixtures. These are all candidate loci for establishment success or persistence in red clover.
Highlights
Red clover (Trifolium pratense L.) is a perennial legume used extensively in production of silage and hay in temperate regions, where it is cultivated in mixture with grasses such as timothy, meadow fescue and perennial ryegrass
In 2013, DNA was extracted from leaves of 48 or 47 survivor plants randomly selected from pure stand (Ps) survivor populations sown at high seeding rate and harvested 3 or 5 times a year, and from leaf samples of 88 individuals of the original population seeded in the greenhouse, using DNeasy 96 Plant Kit (Qiagen)
In study 1, the set of single nucleotide polymorphisms (SNPs) with at least 25 genotyped individuals in each of the five population samples and minor allele frequency (MAF) > 0.05 in the original population (4966 SNPs), were used to characterize the genetic changes that had occurred in the field over the two and a half years
Summary
Red clover (Trifolium pratense L.) is a perennial legume used extensively in production of silage and hay in temperate regions, where it is cultivated in mixture with grasses such as timothy, meadow fescue and perennial ryegrass. It has high yields, can largely replace nitrogen fertilization through its symbiosis with nitrogen-fixing rhizobia, and it contributes to protein-rich forage and high intake (Frame et al, 1998; Abberton and Marshall, 2005). This facilitates the identification of genomic regions potentially under selection
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