Oliver Melody, Badland Hannah, Mavoa Suzanne, Witten Karen, Kearns Robin, Ellaway Anne, Hinckson Erica, Mackay Lisa, Schluter Philip J
Human Potential Centre, Auckland University of Technology, Private Bag 92006, Auckland 1142, New Zealand.
Int J Behav Nutr Phys Act. 2014 Jun 2;11:70. doi: 10.1186/1479-5868-11-70.
Active transport (e.g., walking, cycling) to school (ATS) can contribute to children's physical activity and health. The built environment is acknowledged as an important factor in understanding children's ATS, alongside parental factors and seasonality. Inconsistencies in methodological approaches exist, and a clear understanding of factors related to ATS remains equivocal. The purpose of this study was to gain a better understanding of associates of children's ATS, by considering the effects of daily weather patterns and neighbourhood walk ability and neighbourhood preferences (i.e., for living in a high or low walkable neighbourhood) on this behaviour.
Data were drawn from the Understanding Relationships between Activity and Neighbourhoods study, a cross-sectional study of physical activity and the built environment in adults and children in four New Zealand cities. Parents of participating children completed an interview and daily trip diary that assessed their child's mode of travel to school, household and individual demographic information, and parental neighbourhood preference. Daily weather data were downloaded from New Zealand's national climate database. Geographic information systems-derived variables were calculated for distance to school and neighbourhood walkability. Bivariate analyses were conducted with ATS and potential associates; factors related to ATS at p < 0.20 were considered simultaneously in generalized estimation equation models, and backwards elimination of non-significant factors was conducted; city was treated as a fixed effect in all models.
A total of 217 children aged 6.5-15 years participated in this study. Female sex, age, city, household income, limited/no car access, residing in zone of school, shorter distance to school, neighbourhood self selection, rainfall, and sunlight hours were simultaneously considered in multivariate generalised estimation equation modelling (all p < 0.20 in bivariate analyses). After elimination of non-significant factors, age (p = 0.005), shorter distance to school (p < 0.001), city (p = 0.03), and neighbourhood self selection (p = 0.04) remained significantly associated with ATS in the multivariate analysis.
Distance to school is the prevailing environmental influencing factor on children's ATS. This study, in conjunction with previous research, suggests that school siting is likely an important associate of children's ATS.
主动步行(如步行、骑自行车)上学有助于儿童的身体活动和健康。除了父母因素和季节性因素外,建筑环境被认为是理解儿童主动步行上学行为的一个重要因素。目前研究方法存在不一致之处,对与主动步行上学相关因素的清晰理解仍不明确。本研究的目的是通过考虑每日天气模式、邻里步行便利性以及邻里偏好(即居住在步行便利性高或低的社区)对这种行为的影响,更好地理解儿童主动步行上学的相关因素。
数据来自“理解活动与社区之间的关系”研究,这是一项对新西兰四个城市的成年人和儿童的身体活动与建筑环境进行的横断面研究。参与研究儿童的父母完成了一份访谈和每日行程日记,评估他们孩子的上学出行方式、家庭和个人人口统计学信息以及父母对邻里的偏好。每日天气数据从新西兰国家气候数据库下载。利用地理信息系统得出到学校的距离和邻里步行便利性等变量。对主动步行上学及潜在相关因素进行双变量分析;在广义估计方程模型中同时考虑p<0.20的与主动步行上学相关的因素,并对无显著意义的因素进行反向剔除;在所有模型中,城市被视为固定效应。
共有217名6.5 - 15岁的儿童参与了本研究。在多变量广义估计方程建模中同时考虑了性别、年龄、城市、家庭收入、有限/无汽车使用权、居住在学区内、到学校的距离较短、邻里自我选择、降雨量和日照时长(在双变量分析中所有p<0.20)。剔除无显著意义的因素后,年龄(p = 0.005)、到学校的距离较短(p<0.001)、城市(p = 0.03)和邻里自我选择(p = 0.04)在多变量分析中仍与主动步行上学显著相关。
到学校的距离是影响儿童主动步行上学的主要环境因素。本研究与先前的研究表明,学校选址可能是儿童主动步行上学的一个重要相关因素。
Zotero 插件