Regression equations for the estimation of stature and body mass using a Greek documented skeletal collection

Body size is an important variable in bioarchaeological and forensic studies, making the accurate calculation of stature and body mass imperative. Given that anatomical and morphometric approaches offer accurate results but require a particularly good preservation of the skeletal material, whereas mathematical and mechanical methods are more easily applicable but they are largely population-specific, the present paper uses a ‘hybrid’ approach in order to generate regression equations for the prediction of stature and body mass in a modern Greek sample. Specifically, anatomical and morphometric methods were used to calculate the stature and body mass of the individuals and regression equations using the Ordinary Least Squares and Reduced Major Axis methods were generated with long bone lengths and femoral head breadth as predictors. The obtained equations exhibit low random and directional error and perform better than existing equations designed using different samples from the United States, Europe, and the Balkans. Therefore, these equations are more appropriate for modern Greek material.     

Temperature affects operational sex ratio and intensity of male-male competition: an experimental study of sand gobies, Pomatoschistus minutus

The operational sex ratio is intimately related to the intensityof sexual selection, but factors governing variation in theoperational sex ratio and their effects on mating competitionare still poorly understood. In this study, temperature wasfound to affect both the operational sex ratio and the intensityof male-male competitive interactions in the sand goby [Pomatoschistusminutus (Pallas)]. In an experiment with two different temperaturetreatments, the operational sex ratio became male biased inthe warm treatment (15°C) and males in that treatment interactedmore frequendy than in the cold treatment (8.5°C). Theseresults were as predicted since the potential reproductive rateof males increases faster with temperature than does the potentialreproductive rate of females. Thus, an environmental factor,water temperature, affects not only the reproductive rates ofthe sexes, but also the operational sex ratio and mating competition,and thereby the intensity of sexual selection. Operational sexratio was not found to be correlated with male behavior. Thismay suggest a direct effect of temperature or potential reproductiverates on mate competition. The mechanism behind the evolutionof such a direct relationship would, however, probably be theimpact of potential reproductive rates on operational sex ratio,which in turn direcdy affects sexual selection.