Haploid selection within a single ejaculate increases offspring fitness

Diploid organisms produce haploid gametes for sexual reproduction, resulting in a biphasic life cycle. Although selection during the diploid phase is well understood, selection during the haploid gametic stage and its consequences are largely ignored despite its potential importance for fundamental evolutionary processes, including the rate of adaptation and inbreeding depression, as well as for applied research into fertilization technology. A current dogma assumes that in animals selection on the haploid gametic genotype is minimal. We examined the importance of haploid selection in the zebrafish and found strong fitness consequences of selection on sperm phenotype in the resulting offspring. Genomic data support the idea that these effects may well be the consequence of selection on the haploid sperm genotype

F1_abnormal.embryos

Number of abnormal embryos measured in Experiment 1B

F1_sperm velocity_unfiltered_Exp1B

Sperm velocity data from F1 males in Experiment 1B with no applied filters, i.e. raw data. For analyses, data with VCL>45 were excluded as well as any measurements beyond 40s post-fertilisation

F1_sperm velocity_unfiltered_Exp1A

Sperm velocity data from F1 males in Experiment 1A with no applied filters, i.e. raw data. For analyses, data with VCL>45 were excluded as well as any measurements beyond 40s post-fertilisation