Creating outbred and inbred populations of haplodiploid mites to measure adaptive responses in the lab

Abstract

AbstractLaboratory studies are often criticized for not being representative of processes occurring in natural populations. This can be partially mitigated by using lab populations that capture large amounts of variation. Additionally, many studies addressing adaptation of organisms to their environment are done with laboratory populations, using quantitative genetics or experimental evolution methodologies. Such studies rely on populations that are either highly outbred or inbred. However, the methodology underlying the generation of such biological resources are usually not explicitly documented.Given their small size, short generation time, amenability to laboratory experimentation and knowledge of their ecological interactions, haplodiploid spider mites are becoming a widely used model organism. Here, we describe the creation of outbred populations of two species of spider mites,Tetranychus urticaeandT. evansi, obtained by performing controlled crosses between individuals from field-collected populations. Subsequently, from the outbred population ofT. evansi, we derived inbred lines, by performing several generations of sib-mating. These can be used to measure broad-sense heritability as well as correlations among traits. Finally, we outline an experimental evolution protocol that can be widely used in other systems. Sharing these biological resources with other laboratories and combining them with the available powerful genetic tools forT. urticae(and other species) will allow consistent and comparable studies that greatly contribute to our understanding of ecological and evolutionary processes.