Repeatability of crossover rate in wild sticklebacks

Abstract

AbstractCrossovers in meiosis have an important role in sexual reproduction in ensuring the segregation of chromosomes and shuffling of genetic material. Despite their profound importance, little is known about heritability and repeatability of the crossover rate in the wild. We studied crossover rate variation in outbred nine- (Pungitius pungitius) and three-spined (Gasterosteus aculeatus) stickleback populations to estimate its heritability (h2) and repeatability (R). Based on crossover rate interpreted from parent–F1-offspring linkage maps created from single nucleotide polymorphism data, the repeatability of crossover rate was moderate at best, but higher in females (R = 0.24 and R = 0.33) than in males (R = 0.017 and R = 0.11) in both species. Owing to the low degree and variance of parental relatedness and low sample sizes, heritabilities could not be estimated with confidence. However, given that R sets the upper limit to h2, the heritability of crossover rate is indicated to be low in males. A review and comparison with the previously reported repeatability and heritability estimates revealed that the repeatabilities in stickleback females were relatively high, whereas those in males were very low. Collectively, our results and review of earlier estimates suggest low evolvability of the crossover rate.