AI Article Synopsis
- Fluctuating asymmetry (FA) serves as a measure of developmental instability (DI), often linked to stress and fitness, yet its underlying causes, especially the mechanical effects, are not well understood.
- During early human development, a lack of amniotic fluid can create mechanical pressures that result in increased asymmetry in limb bones of deceased fetuses.
- While both mechanical pressures and urogenital abnormalities contribute to increased FA, the study found that the effects of urogenital abnormalities were more significant, suggesting that understanding these factors can provide better insights into FA and symmetry development in fetuses.
Article Abstract
Fluctuating asymmetry (FA), as an indirect measure of developmental instability (DI), has been intensively studied for associations with stress and fitness. Patterns, however, appear heterogeneous and the underlying causes remain largely unknown. One aspect that has received relatively little attention in the literature is the consequence of direct mechanical effects on asymmetries. The crucial prerequisite for FA to reflect DI is that environmental conditions on both sides should be identical. This condition may be violated during early human development if amniotic fluid volume is deficient, as the resulting mechanical pressures may increase asymmetries. Indeed, we showed that limb bones of deceased human fetuses exhibited increased asymmetry, when there was not sufficient amniotic fluid (and, thus, space) in the uterine cavity. As amniotic fluid deficiency is known to cause substantial asymmetries and abnormal limb development, these subtle asymmetries are probably at least in part caused by the mechanical pressures. On the other hand, deficiencies in amniotic fluid volume are known to be associated with other congenital abnormalities that may disturb DI. More specifically, urogenital abnormalities can directly affect/reduce amniotic fluid volume. We disentangled the direct mechanical effects on FA from the indirect effects of urogenital abnormalities, the latter presumably representing DI. We discovered that both factors contributed significantly to the increase in FA. However, the direct mechanical effect of uterine pressure, albeit statistically significant, appeared less important than the effects of urogenital abnormalities, with an effect size only two-third as large. We, thus, conclude that correcting for the relevant direct factors allowed for a representative test of the association between DI and stress, and confirmed that fetuses form a suitable model system to increase our understanding in patterns of FA and symmetry development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3842303 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0081824 | PLOS |
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