Infant mortality across species. A global probe of congenital abnormalities

Infant mortality, by which we understand the postnatal stage during which mortality is declining, is a manifestation and embodiment of congenital abnormalities. Severe defects will translate into death occurring shortly after birth whereas slighter anomalies may contribute to death much later, possi...

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Bibliographic Details
Published inPhysica A Vol. 535; p. 122308
Main Authors Bois, Alex, Garcia-Roger, Eduardo M., Hong, Elim, Hutzler, Stefan, Irannezhad, Ali, Mannioui, Abdelkrim, Richmond, Peter, Roehner, Bertrand M., Tronche, Stéphane
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2019
Elsevier
Subjects
Congenital anomalies
Infant mortality
Malformations
Manufacturing defects
Physics
Malformations
Manufacturing defects
Infant mortality
Congenital anomalies
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Summary:Infant mortality, by which we understand the postnatal stage during which mortality is declining, is a manifestation and embodiment of congenital abnormalities. Severe defects will translate into death occurring shortly after birth whereas slighter anomalies may contribute to death much later, possibly only in adult age. While for many species birth defects would be nearly impossible to identify, infant mortality provides a convenient global assessment. In the present paper we examine a broad range of species from mammals to fish to gastropods to insects. One of the objectives of our comparative analysis is to test a conjecture suggested by reliability engineering according to which the frequency of defects tends to increase together with the complexity of organisms. For that purpose, we set up experiments specially designed to measure infant mortality. In particular, we studied two species commonly used as model species in biological laboratories, namely the zebrafish Danio rerio and the rotifer Brachionus plicatilis. For the second, whose number of cells is about hundred times smaller than for the first, we find, as expected, that the screening and weeding out effect of the infant phase (measured by the ratio of the death rate at birth to the death rate at the end of the infant phase) is of much smaller amplitude. Our analysis also raises a number of challenging questions for which further investigation is necessary. For instance, why is the infant death rate of beetles and molluscs falling off exponentially rather than as a power law as observed for most other species? A possible research agenda is discussed in the conclusion of the paper.
ISSN:0378-4371
1873-2119
0378-4371
DOI:10.1016/j.physa.2019.122308