PLoS ONE (Jan 2020)

Associations between daily ambient temperature and sedentary time among children 4-6 years old in Mexico City.

  • Sandy Wong,
  • Alejandra Cantoral,
  • Martha María Téllez-Rojo,
  • Ivan Pantic,
  • Emily Oken,
  • Katherine Svensson,
  • Michael Dorman,
  • Iván Gutiérrez-Avila,
  • Johnathan Rush,
  • Nia McRae,
  • Robert O Wright,
  • Andrea A Baccarelli,
  • Itai Kloog,
  • Allan C Just

DOI
https://doi.org/10.1371/journal.pone.0241446
Journal volume & issue
Vol. 15, no. 10
p. e0241446

Abstract

Read online

BackgroundSedentary behavior is a worldwide public health concern. There is consistent and growing evidence linking sedentary behavior to mortality and morbidity. Early monitoring and assessment of environmental factors associated with sedentary behaviors at a young age are important initial steps for understanding children's sedentary time and identifying pertinent interventions.ObjectiveThis study examines the association between daily temperature (maximum, mean, minimum, and diurnal variation) and all-day sedentary time among 4-6 year old children in Mexico City (n = 559) from the year 2013 to 2015.MethodsWe developed a spatiotemporally resolved hybrid satellite-based land use regression temperature model and calculated percent daily sedentary time from aggregating 10-second epoch vertical counts captured by accelerometers that participants wore for one week. We modeled generalized additive models (GAMs), one for each temperature type as a covariate (maximum, mean, minimum, and diurnal variation). All GAMs included percent all-day sedentary time as the outcome and participant-level random intercepts to account for repeated measures of sedentary time. Our models were adjusted for demographic factors and environmental exposures.ResultsDaily maximum temperature, mean temperature, and diurnal variation have significant negative linear relationships with all-day sedentary time (pConclusionsThese results are contrary to our hypothesis in which we expected a curvilinear relationship between temperature (maximum, mean, minimum, and diurnal variation) and sedentary time. Our findings suggest that temperature is an important environmental factor that influences children's sedentary behavior.