Evolutionary Insights into Life History

Dear Colleagues,

Mammals’ life cycles are punctuated by major milestones, among which are weaning, sexual maturity, reproduction fitness, and lifespan. Together with the pattern and timing of growth and development, these traits define what is termed “life history”. Among primates, modern humans show a uniquely extended life history. Their particular pattern is characterized by slow and prolonged growth and development, involving specific ontogenic stages known as childhood and adolescence. The modern human life cycle is also unique in implying first reproduction at a relatively late age, menopause for females in late adulthood, and an exceptionally long lifespan among primates. Several advantages could result from this unusual pace of development, such as an extended period for brain growth and maturation, the acquisition of technical skills, and the socialization and development of complex social roles. As the correlation between ontogeny and phylogeny becomes better understood, evolutionary developmental biology concepts (EvoDevo) are especially relevant in exploring the variability in life history.

Yet, this extended life cycle may come with non-negligible drawbacks in humans. A prolonged period of exposition to an unfavorable environment at an early stage of life crucial for the survival of the individual may favor the appearance of “mismatch” diseases. This constitutes one of the major challenges in evolutionary medicine, entailing investigation of the interaction between evolution, development and growth patterns, environment, and health (e.g., diseases).

Recent advances in paleobiology and the emergence of new investigation techniques have led to a substantial increase in the corpus of studies exploring the interplay between ontogeny and life history, especially in past populations. Among these new analytical tools are imaging techniques that are either totally or partially nondestructive—propagation phase contrast synchrotron radiation micro-CT and synchrotron X-ray fluorescence, respectively—enabling the study of precious human fossil remains. Most palaeobiological data are derived from the analysis of preserved hard mineralized tissues, especially bone and teeth. Interestingly, recent breakthroughs in ancient DNA analyses have enabled further exploration in the evolution of micro-organisms and improved our understanding of the evolution of infectious diseases and their relationship with the development and complexification of human societies.

In this Special Issue, we aim to address the following research questions:

1. How can the study of bone and tooth hard tissues unveil the evolution of life history in fossil and extant hominids?
2. How can ancient DNA bring new insights into life history studies?
3. How can an EvoDevo approach to ontogeny enrich our understanding of life history?
4. How can the study of the interaction between genotype, phenotype, and environment contribute to our understanding of match/mismatch diseases from an evolutionary medicine standpoint?

Original research articles and reviews are welcome. We are looking forward to receiving your contributions.

Prof. Dr. Thomas Colard
Dr. Adeline Le Cabec
Guest Editors

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• human evolution
• evolutionary developemental biology