Digit ratio (2D:4D) is a trait, which is sexually differentiated in a variety of species. In humans, males typically have shorter second digits (2Ds) (index fingers) compared to fourth digits (4Ds) (ring fingers) whereas females' fingers are more equal in length. Smaller, more masculine, digit ratios are thought to be associated with higher prenatal testosterone levels, greater sensitivity to prenatal androgens or both. Men with more masculine digit ratios have shown increased ability, achievement and speed in sports and tend to report that they are more physically aggressive. Previous research has shown the same sexually differentiated pattern in the hind paws of laboratory mice as in human hands, males have lower 2D:4D than females. We measured hind paw digit ratio in mice of eight inbred strains. These measurements were made while blind to strain, sex and whether the paw was from the left or right side. We found large differences in digit ratio between the strains and suggest that inbred mice are a promising system for investigating the correlation between digit ratio and behavioral traits.
Anogenital distance (AGD) and the ratio of the second (index) to fourth (ring) digit lengths (2D:4D) are two widely used indicators of prenatal androgen exposure. The former is commonly used in rodent models, while the latter is principally used in human studies. We investigated variation in these two traits in C57BL/6J mice to test the hypothesis that variation in these two traits reflect a common underlying variable, presumably testosterone exposure. AGD is a sexually dimorphic trait used to sex young rodents. This distance typically increases and becomes more male-like in female pups when their uterine neighbors are male. 2D:4D is sexually dimorphic in a number of species, including humans and other great apes. Lower digit ratios may be associated with greater exposure to androgens during fetal development in humans. We found the expected sexual dimorphism in AGD, but no significant sex difference in 2D:4D, and no correlation between 2D:4D and AGD. Gestating next to males increased a pup's 2D:4D ratio, but it had no effect on AGD. The lack of correlation between 2D:4D and AGDs in this mouse strain suggests that these two measures do not reflect a common influence of androgen exposure. The possible roles of temporal and localized effects of masculinization are discussed.
Black-capped (Poecile atricapillus) and mountain chickadees (Poecile gambeli) have been used as a model to examine cognitive functions including perception, episodic-like memory, and spatial learning and orientation. Recently, these species have been used in two studies to examine the relationship between learning and novel environment exploration and novel environment exploration and dominance. In the current study we explored whether these two species show consistency in behavior over time. In same species/same sex groups, male and female black-capped and mountain chickadees were released into a room and then captured by an experimenter with the procedure repeated one week later. Males, but not females in both species show consistency in capture order over both sessions. We discuss implications of this finding in the context of possible sampling biases.
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