The main goal of this work is to demonstrate the suitability of survival analysis for ontogenetic studies. The research material includes retrospective data of the age of the occurrence of ontogenetic events such as birth (N = 487), menarche (N = 2016) and menopause (N = 3597). In order to study the time of occurrence of ontogenetic events and to indicate the impact of environmental factors the survival analysis was applied. First, the percentiles of functions established for studied events were calculated. Next, the Kaplan-Meier survival curves were derived. In the last step theinfluence of environmental factors was established and the comparison of groups determined based on the chosen factors was performed. The delivery time shows that 14% of infants were bornpreterm. The risk of preterm delivery increases with the severity of factors disrupting pregnancy (from none to coexisting maternal and fetal risk factors) (; p < 0.001). In the case of menarche percentile positions indicate that the menarche occurs between the 12thand the 14thyear of life as the period in which most girls exceed the puberty threshold. The Cox’s proportional hazard model indicates that the time of menarche occurrence is significantly depended (; p < 0.001) on the place of the mother’s residence and number of children in the family (respectively p < 0.03 and p < 0.001). The time interval established for 50% occurrence of this experience was designated between the 49th and the 52nd years of life. The time of menopause occurrence is significantly depended on both of considered factors: the educational level and smoking cigarettes (, p < 0.001). Survival analysis is suitable for studies of the distribution in time of developmental events. It can be used to indicate the factors which significantly influence the course of development by modifying the duration of developmental stages.
 Szwed, A. and Kosińska, M. (2012) Biological Maturity at Birth, the Course of the Subsequent Ontogenetic Stages and Age at Menarche. HOMO-Journal of Comparative Human Biology, 63, 292-300.
 James-Todd, T., Tehranifar, P., Rich-Edwards, J., Titievsky, L. and Terry, M.B. (2010) The Impact of Socioeconomic Status across Early Life on Age at Menarche among a Racially Diverse Population of Girls. Annals of Epidemiology, 20, 836-842.
 INSERM Collective Expertise Centre (2007) INSERM Collective Expert Reports Paris, Institut national de la sante et de la recherche 2000. Growth and Puberty Secular Trends, Environmental and Genetic Factors.
 Latinen, J., Power, Ch. and J?rvelin, M.-R. (2001) Family Social Class, Maternal Body Mass Index, Childhood Body Mass Index, and Age at Menarche as Predictors of Adult Obesity. American Journal of Clinical Nutrition, 74, 287-294.
 Kramer, M.S., Wilkins, R., Gouletf, L., Séguinf, L., Lydonc, J., Kahnd, S.R., McNamarae, H., Dassaf, C., Dahhoua, M., Masseh, A., Minere, L., Asselinh, G., Gauthierf, H., Ghanemf, A., Benjamine, A. and Platta, R.W. (2009) Investigating Socio-Economic Disparities in Preterm Birth: Evidence for Selective Study Participation and Selection Bias. Paediatric and Perinatal Epidemiology, 23, 301-309.
 ?aska-Mierzejewska, T. and Olszewska, E. (2004) The Maturation Rate of Girls Living in Rich and Poor Rural Regions of Poland before and after the Transformation of 1989. HOMO-Journal of Comparative Human Biology, 55, 129-142.