Placentation, the formation of the placenta, is a dynamic process which is vital for the development of a fetus. A key structural feature of placenta in ruminants, such as sheep, is a placentome. Placentomes are thickenings in tissue that form along both the maternal and fetal sides of the placenta. During pregnancy, placentomes generally begin with the same type of structure, called Type A. Over the course of a gestation, Type A placentomes are found to convert to functionally more efficient forms (Types B, C, or D). Prenatal stress (PS) has been shown to reduce uterine blood flow in pregnant sheep model. This would influence placental blood flow, supply of nutrients, clearance of metabolites and exposure to stress hormones. Undernutrition accelerates the placentomal conversion in pregnant ewes of certain breeds as an adaptive response to maintain the fetal developmental growth curve, while other breeds are not able to adapt. We hypothesized that placentomal conversion is influenced by PS. We modeled chronic PS in the last trimester in pregnant sheep through reoccurring and unpredictable bouts of maternal isolation over a period of 30 days, a validated paradigm to model human PS. At ~136 days of gestation (full term is 145 days), the placentomes were collected, weighed, and sorted according to their morphology. The weights of Type B, but not Type A, placentomes were found to be lower for the stressed sheep when compared to the control. These findings confirm our hypothesis that PS reduces the degree of the placentomal conversion from Type A to a more advanced form, Type B. This may be caused by a chronic reduction in placental perfusion (blood circulation) during PS. The found reduction in placentomal conversion may be one of the missing mediating factors linking PS to known postnatal developmental abnormalities in metabolism and phenotype.