Genetics of somatotype and physical fitness in children and adolescents

Objectives To analyze the influence of genetic and environmental factors on the variation in somatotype, physical fitness, and their mutual associations. Methods Twins from 214 pairs (87 monozygotic) of the Autonomous Region of Madeira, Portugal, from 3 to 18 years of age (51% girls) were assessed i...

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Bibliographic Details
Published in:American journal of human biology 2021-05, Vol.33 (3), p.e23470-n/a
Main Authors: Silventoinen, Karri, Maia, José, Jelenkovic, Aline, Pereira, Sara, Gouveia, Élvio, Antunes, António, Thomis, Martine, Lefevre, Johan, Kaprio, Jaakko, Freitas, Duarte
Format: Article
Language:English
Subjects:
Adolescents
Anthropometry
Children
Endurance
Environmental factors
Gender aspects
Genetic analysis
Genetic diversity
Genetic factors
Genetics
Girls
Heritability
Motor ability
Muscle strength
Physical fitness
Quantitative genetics
Sex differences
Teenagers
Youth
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Summary:Objectives To analyze the influence of genetic and environmental factors on the variation in somatotype, physical fitness, and their mutual associations. Methods Twins from 214 pairs (87 monozygotic) of the Autonomous Region of Madeira, Portugal, from 3 to 18 years of age (51% girls) were assessed in anthropometry and physical fitness tests. We estimated endomorphy, mesomorphy, and ectomorphy based on anthropometric measures and physical fitness using the Eurofit test battery. Two age categories were analyzed: children (3‐11 years) and adolescents (12‐18 years). Genetic and environmental variations were estimated using quantitative genetic twin modeling. Results No genetic sex differences were found, thus boys and girls were pooled in all genetic analyses. Heritability estimates were high for somatotype (a2 = 0.80‐0.93), physical fitness traits (a2 = 0.67‐0.83), and largely similar in children and adolescents. Positive correlations were found for ectomorphy with motor ability and cardiorespiratory endurance as well as for endomorphy and mesomorphy with muscular strength (r = 0.25‐0.37). In contrast, negative associations were found for ectomorphy with muscular strength, as well as for endomorphy and mesomorphy with motor ability and cardiorespiratory endurance (−0.46 to −0.26). Twin modeling indicated that these associations were explained mostly by genetic factors in common to the two associated traits (84% or more). Conclusions Associations between somatotype and physical fitness tests are mainly explained by common genetic background in children and adolescents. Therefore, interventions in youth should consider that a child's performance in physical fitness tests partly reflects their inherited physique.
ISSN:1042-0533
1520-6300
DOI:10.1002/ajhb.23470