Chris Deter scite author profile

Across mammalian species, the periodicity with which enamel layers form (Retzius periodicity) in permanent teeth corresponds with average body mass and the pace of life history. According to the Havers-Halberg Oscillation hypothesis (HHO), Retzius periodicity (RP) is a manifestation of a biorhythm that is also expressed in lamellar bone. Potentially, these links provide a basis for investigating aspects of a species' biology from fossilized teeth. Here, we tested intra-specific predictions of this hypothesis on skeletal samples of human juveniles. We measured daily enamel growth increments to calculate RP in deciduous molars (n = 25). Correlations were sought between RP, molar average and relative enamel thickness (AET, RET), and the average amount of primary bone growth (n = 7) in humeri of age-matched juveniles. Results show a previously undescribed relationship between RP and enamel thickness. Reduced major axis regression reveals RP is significantly and positively correlated with AET and RET, and scales isometrically. The direction of the correlation was opposite to HHO predictions as currently understood for human adults. Juveniles with higher RPs and thicker enamel had increased primary bone formation, which suggests a coordinating biorhythm. However, the direction of the correspondence was, again, opposite to predictions. Next, we compared RP from deciduous molars with new data for permanent molars, and with previously published values. The lowermost RP of 4 and 5 days in deciduous enamel extends below the lowermost RP of 6 days in permanent enamel. A lowered range of RP values in deciduous enamel implies that the underlying biorhythm might change with age. Our results develop the intra-specific HHO hypothesis.

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Deciduous enamel 3D microwear texture analysis as an indicator of childhood diet in medieval Canterbury, England

Mahoney

Schmidt

Deter

et al. 2016

Journal of Archaeological Science

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Enamel biorhythms of humans and great apes: the Havers‐Halberg Oscillation hypothesis reconsidered

et al. 2016

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The Havers-Halberg Oscillation (HHO) hypothesis links evidence for the timing of a 28 biorhythm retained in permanent tooth enamel (Retzius periodicity) to adult body mass and 29 life history traits across mammals. Potentially, these links provide a way to access life 30 history of fossil species from teeth. Recently we assessed intra-specific predictions of the 31 HHO on human children. We reported Retzius periodicity (RP) corresponded with enamel 32 thickness, and cusp formation time, when calculated from isolated deciduous teeth. We 33 proposed the biorhythm might not remain constant within an individual. Here, we test our 34 findings. RP is compared between deciduous second and permanent first molars within the 35 maxillae of four human children. Following this, we report the first RP's for deciduous teeth 36 from modern great apes (n=4), and compare these to new data for permanent teeth (n=18) 37 from these species, as well as to previously published values. We also explore RP in teeth 38 that retain hypoplastic defects. 39 R e s u l t s s h o w R P c h a n g e d w i t h i n t h e m a x i l l a o f e a c h child, from thinner to thicker 40 enameled molars, and from one side of a hypoplastic defect to the other. When considered 41 alongside correlations between RP and cusp formation time, these observations provide 42 further evidence that RP is associated with enamel growth processes, and does not always 43 remain constant within an individual. RP of five days for great ape deciduous teeth lay below 44 the lowermost range of those from permanent teeth of modern orangutan and gorilla, and 45 within the lowermost range of RP's from chimpanzee permanent teeth. Our data suggest 46 associations between RP and enamel growth processes of humans might extend to great apes. 47These findings provide a new framework from which to develop the HHO hypothesis, which 48 can incorporate enamel growth along with other physiological systems. Applications of the 49 HHO to fossil teeth should avoid transferring RP between deciduous and permanent enamel, 50 or including hypoplastic teeth. 51

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Enamel growth rates of anterior teeth in males and females from modern and ancient British populations

Aris

Mahoney

Deter

2020

American J Phys Anthropol

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Objective This study explored biological sex differences in the regional daily growth rates of human anterior enamel from modern and ancient populations in Britain. Methods Maxillary permanent incisors (n = 80) and canines (n = 69) from Roman, Anglo‐Saxon, Medieval, and Modern day populations were analyzed using histological methods. Daily secretion rates (DSRs) were collected for inner, mid, and outer regions of cuspal and lateral enamel. Modern day samples were of known sex, archeological individuals had sex determined using standard osteological methods. Variation in DSRs between the sexes, both between and within populations, was sought using parametric and nonparametric tests. Results When all samples were pooled, there was no significant difference between males and females. Similarly no significant differences in DSRs were identified between male and females within each population. When DSRs were compared between the populations, DSRs decreased from the more ancient to the more recent populations for males, and for females. More interpopulation differences were observed in males. Discussion This study presents evidence for the relative consistency of enamel DSRs between male and female groups within each British population. Interpopulation analyses found DSRs slowed significantly between Roman and modern day populations for both sexes, with male DSRs showing the greatest variation between populations.

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Chris Deter

Bone deep: Variation in stable isotope ratios and histomorphometric measurements of bone remodelling within adult humans

Biorhythms, deciduous enamel thickness, and primary bone growth: a test of the Havers‐Halberg Oscillation hypothesis

Deciduous enamel 3D microwear texture analysis as an indicator of childhood diet in medieval Canterbury, England

Enamel biorhythms of humans and great apes: the Havers‐Halberg Oscillation hypothesis reconsidered

Enamel growth rates of anterior teeth in males and females from modern and ancient British populations

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