Currently our focus is to gain an understanding of the factors that drive - and constrain - the evolution of sexual size dimorphism (SSD) using the spiders (Araneae) as a model group. Sexual size dimorphism, defined as a difference in the mean body size between adult males and females, is the most prominent manifestation of sexual dimorphism in the animal kingdom, with most animals expressing some degree of SSD. Importantly, SSD provides an excellent general model to understand evolutionary processes. This is because body size is one of the most important quantitative traits of an organism; it is strongly correlated with many physiological, behavioral and fitness traits. Natural selection (through the combined effects of sexual selection, fecundity selection and viability selection) often favors a different optimal body size in males and females of a given species, ultimately as a result of the different reproductive roles of males and females. However, body size is determined largely by the same set of genes and developmental pathways in the sexes, leading to intralocus sexual conflict. Thus, genetic and developmental, as well as physiological and phylogenetic constraints pose limits to the evolution of SSD, and it has recently been suggested that intralocus sexual conflict may indeed persist in populations and profoundly affect evolutionary dynamics to a much greater extent than previously thought. Any manifestation of SSD therefore provides evidence of powerful natural selection processes which need to be analyzed as an important step towards understanding biological diversity.