Geographical distribution of adolescent body height with respect to effective day length in Japan: an ecological analysis

• Published in: PloS one Vol. 7; no. 12; p. e50994
• Main Authors: Yokoya, Masana, Shimizu, Hideyasu, Higuchi, Yukito
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 05.12.2012; Public Library of Science (PLoS)
• Subjects: Adolescence; Adolescent; Adolescents; Analysis; Biology; Body height; Body Height - physiology; Body size; Body Weight - physiology; Child; Circadian rhythm; Climate; Climate change; Climatic data; Data processing; Day length; Earth Sciences; Ecological and Environmental Phenomena; Ecological effects; Ecological monitoring; Economic development; Economic growth; Environmental factors; Female; Females; Food intake; Genetic factors; Geographical distribution; Geography; Humans; Influence; Internet; Japan; Light intensity; Luminous intensity; Male; Males; Medicine; Melatonin; Migration; Multiple regression analysis; Photoperiod; Physiology; Radiation (Physics); Regression Analysis; Secretion; Significance; Sleep; Social and Behavioral Sciences; Solar radiation; Standard deviation; Statistical analysis; Statistical significance; Systematic review; Teenagers; Temperature; Youth; Japan
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0050994

The height of Japanese youth raised in the northern region tends to be greater than that of youth raised in the southern region; therefore, a geographical gradient in youth body height exists. Although this gradient has existed for about 100 years, the reasons for it remain unclear. Consideration of the nutritional improvement, economic growth, and intense migration that has occurred in this period indicates that it is probably the result of environmental rather than nutritional or genetic factors. To identify possible environmental factors, ecological analysis of prefecture-level data on the body size of 8- to 17-year-old youth averaged over a 13-year period (1996 to 2008) and Japanese mesh climatic data on the climatic variables of temperature, solar radiation, and effective day length (duration of photoperiod exceeding the threshold of light intensity) was performed. The geographical distribution of the standardized height of Japanese adolescents was found to be inversely correlated to a great extent with the distribution of effective day length at a light intensity greater than 4000 lx. The results of multiple regression analysis of effective day length, temperature, and weight (as an index of food intake) indicated that a combination of effective day length and weight was statistically significant as predictors of height in early adolescence; however, only effective day length was statistically significant as a predictor of height in late adolescence. Day length may affect height by affecting the secretion of melatonin, a hormone that inhibits sexual and skeletal maturation, which in turn induces increases in height. By affecting melatonin production, regional differences in the duration of the photoperiod may lead to regional differences in height. Exposure to light intensity greater than 4000 lx appears to be the threshold at which light intensity begins to affect the melatonin secretion of humans who spend much of their time indoors.