Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-27T20:28:51.916Z Has data issue: false hasContentIssue false

Aerobic Activity Preferences among Older Canadians: A Time Use Perspective*

Published online by Cambridge University Press:  09 October 2013

Jamie E. L. Spinney*
Affiliation:
Saint Mary’s University
*
Correspondence and requests for offprints should be sent to / La correspondance et les demandes de tirés-à-part doivent être adressées à: Jamie E. L. Spinney, Ph.D. Department of Geography Saint Mary’s University 923 Robie Street Halifax, NS B3H 3C3 ([email protected])

Abstract

Numerous health benefits are associated with a physically active population. This study sought to discover the aerobic activity preferences among older Canadians. Four cycles of nationally representative time use data were fused with energy expenditure information to determine both participation rates and time spent in the 10 most frequently reported aerobic activities. Aerobic activity preferences are dominated by domestic chores (15% to 30% participation for about two hours per day), recreational walking (15% to 30% participation for about one hour per day), and active transportation (generally less than 5% participation for less than 30 minutes per day). Although there have been several changes in older Canadians’ revealed preferences for aerobic activities over the past three decades, the prevalence of domestic chores points towards the importance of policies that support older Canadians remaining in their homes, whereas the popularity of walking suggests that “walkability” needs to be considered in neighbourhood design.

Résumé

Une population physiquement active jouit de nombreux avantages pour la santé. Cette étude visait à découvrir les préférences de l’activité aérobie chez les Canadiens âgés. Quatre cycles de données indiquant l’usage national représentatif de temps ont été fusionnées avec des informations sur la dépense d’énergie pour déterminer les taux de participation et le temps consacré en dix activités aérobiques les plus fréquemment rapportées. Les activités préférés sont dominées par les tâches ménagères (15% à 30%, la participation d’environ deux heures par jour), la marche de loisirs (15% a 30%, la parti-cipation d’environ une heure par jour), et le transport actif (généralement moins de 5% de participation pendant moins de trente minutes par jour). Bien que plusieurs modifications ont été révelées dans les préferences de Canadiens plus âgés pour les activités aérobiques au cours des trois dernières décennies, la prévalence de tâches domestiques vise à l’importance des politiques qui soutiennent que les Canadiens plus âgés resteront dans leurs maisons, alors que la popularité de la marche suggère que le potentiel de rester « piétonnier » doit être pris en compte dans la conception des quartiers.

Type
Research Note / Note de recherche
Copyright
Copyright © Canadian Association on Gerontology 2013 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

This research received financial support from the Nova Scotia Health Research Foundation (PSO: Project-2008-4669).

References

Ainsworth, B. E., Haskell, W. L., Leon, A. S., Jacobs, D.R. Jr., Montoye, H. J., Sallis, J. F., et al. (1993). Compendium of physical activities: Classification of energy costs of human physical activities. Medicine and Science in Sports and Exercise, 25, 7180.Google Scholar
Ainsworth, B. E., Haskell, W. L., Whitt, M. C., Irwin, M. L., Swartz, A. M., Strath, S. J., et al. (2000). Compendium of physical activities: An update of activity codes and MET intensities. Medicine and Science in Sports and Exercise, 32(9 Suppl), 498516.Google Scholar
Ashe, M. C., Miller, W. C., Eng, J. J., & Noreau, L. (2009). Older adults, chronic disease and leisure-time physical activity. Gerontology, 55, 6472.Google Scholar
Barrett, P., Hale, B., & Gauld, R. (2012). Social inclusion through ageing-in-place with care? Ageing and Society, 32, 361378.Google Scholar
Canadian Society for Exercise Physiology. (2011). Canadian Physical Activity Guidelines for Older Adults - 65 Years & Older. Ottawa, ON: Author. Retrieved 25 June 2013 fromhttp://www.csep.ca/CMFiles/Guidelines/CSEP-InfoSheets-older%20adults-ENG.pdf.Google Scholar
Colley, R. C., Garriguet, D., Janssen, I., Craig, C. L., Clarke, J., & Tremblay, M. S. (2011). Physical activity of Canadian adults: Accelerometer results from the 2007 to 2009 Canadian Health Measures Survey. Health Reports, 22(1), 18.Google Scholar
DeMelo, L. L., Menec, V., Porter, M. M., & Ready, A. E. (2010). Personal factors, perceived environment, and objectively measured walking in old age. Journal of Aging and Physical Activity, 18(3), 280292.Google Scholar
Dunn, R. A., Shaw, W. D., & Trousdale, M. A. (2012). The effect of weather on walking behavior in older adults. Journal of Aging and Physical Activity, 20(1), 8092.Google Scholar
Gallagher, N. A., Gretebeck, K. A., Robinson, J. C., Torres, E. R., Murphy, S. L., & Martyn, K. K. (2010). Neighborhood factors relevant for walking in older, urban, African American adults. Journal of Aging and Physical Activity, 18(1), 99115.Google Scholar
Harvey, A. S. (1990). Time use studies for leisure analysis. Social Indicators Research, 23, 309336.CrossRefGoogle Scholar
Hildebrand, E. D. (2003). Dimensions in elderly travel behaviour: A simplified activity-based model using lifestyle clusters. Transportation, 30(3), 285306.Google Scholar
Jones, M., & O’Beney, C. (2004). Promoting mental health through physical activity: Examples from practice. Journal of Mental Health Promotion, 3, 3947.Google Scholar
Juster, F., & Stafford, F. (1991). The allocation of time: Empirical findings, behavior models, and problems of measurement. Journal of Economic Literature, 29, 471522.Google Scholar
Katzmarzyk, P. T., & Janssen, I. (2004). The economic costs associated with physical inactivity and obesity in Canada: An update. Canadian Journal of Applied Physiology, 29, 90115.Google Scholar
Katzmarzyk, P. T., & Tremblay, M. S. (2007). Limitations of Canada’s physical activity data: Implications for monitoring trends. Canadian Journal of Public Health, 98, S185S194.Google Scholar
Klentrou, P., Hay, J., & Plyley, M. (2003). Habitual physical activity levels and health outcomes of Ontario youth. European Journal of Applied Physiology, 89, 460465.Google Scholar
Klesges, L. M., Baranowski, T., Beech, B., Cullen, K., Murray, D.M., Rochon, J., et al. (2003). Social desirability bias in self-reported dietary, physical activity and weight concerns measures in 8- to 10-year-old African-American girls: Results from the Girls Health Enrichment Multisite Studies (GEMS). Preventive Medicine, 38, S78S87.Google Scholar
LaMonte, M. J., Ainsworth, B. E., & Tudor-Locke, C. (2003). Assessment of physical activity and energy expenditure. In Andersen, R. E. (Ed.), Obesity: Etiology, assessment, treatment, prevention (pp. 111137). Champaign, IL: Human Kinetics.Google Scholar
Li, L., Chang, H.-J., Yeh, H.-I., Hou, C. J.-Y., Tsai, C.-H., & Tsai, J.-P. (2010). Factors associated with leisure participation among the elderly living in long-term care facilities. International Journal of Gerontology, 4(2), 6974.Google Scholar
Li, F., Fisher, K. J., & Brownson, R. (2005). A multilevel analysis of change in neighborhood walking activity in older adults. Journal of Aging and Physical Activity, 13, 145159.Google Scholar
McCulloch, R. G., Clark, D. J., Pike, I., & Slobodian, Y. M. (1994). Gender-specific trends in fitness and anthropometric parameters in a selected Saskatchewan sample, aged 65–75 years. Canadian Journal on Aging/Revue canadienne du vieillissement, 13(1), 3040.Google Scholar
Merrill, R. M., Shields, E. C., White, G. L., & Druce, D. (2005). Climate conditions and physical activity in the United States. American Journal of Health Behavior, 29, 371381.Google Scholar
Millward, H., & Spinney, J. E. L. (2011). “Active Living” related to the rural-urban continuum: A time-use perspective. Journal of Rural Health, 27(2), 141150.Google Scholar
Millward, H., Spinney, J. E. L., & Scott, D. M. (in press). Durations and domains of aerobic activity: Evidence from the 2010 Canadian time-use survey. Journal of Physical Activity and Health. PMID: 23676583.Google Scholar
O’Loughlin, J., Paradis, G., Kishchuk, N., Barnett, T., & Renaud, L. (1999). Prevalence and correlates of physical activity behaviors among elementary schoolchildren in multiethnic, low income, inner-city neighborhoods in Montreal, Canada. Annals of Epidemiology, 9, 397407.Google Scholar
Public Health Agency of Canada. (2011). Tips to get active: Physical activity tips for older adults (65 years and older). Ottawa, ON: Author. Retrieved from 25 June 2013http://www.phac-aspc.gc.ca/hp-ps/hl-mvs/pa-ap/08paap-eng.php.Google Scholar
Rhodes, R. E., & Dean, R. N. (2009). Understanding physical inactivity: Prediction of four sedentary leisure behaviors. Leisure Sciences: An Interdisciplinary Journal, 31(2), 124135.CrossRefGoogle Scholar
Rizzo, N., Ruiz, J., Ortega, F., Hurtig-Wennlöf, A., & Sjöström, M. (2007). Relationship between features of metabolic syndrome and physical activity, fitness and fatness in Swedish children and adolescents. Journal of Pediatrics, 150, 388394.Google Scholar
Rosenberg, D. E., Kerr, J., Sallis, J. F., Norman, G. J., Calfas, K., & Patrick, K. (2012). Promoting walking among older adults living in retirement communities. Journal of Aging and Physical Activity, 20(3), 379394.Google Scholar
Rosenbloom, S. (2001). Sustainability and automobility among the elderly: An international assessment. Transportation, 28, 375408.Google Scholar
Schwanen, T., & Ziegler, F. (2011). Wellbeing, independence and mobility: An introduction. Ageing and Society, 31(5), 719733.Google Scholar
Scott, D. M., Newbold, K. B., Spinney, J. E. L., Mercado, R., Páez, A., & Kanaroglou, P. S. (2009). New insights into senior travel behavior: The Canadian experience. Growth and Change, 40(1), 140168.Google Scholar
Spinney, J. E. L., Scott, D. M., & Newbold, K. B. (2009). Transport mobility benefits and quality of life: A time-use perspective of elderly Canadians. Transport Policy, 16(1), 111.CrossRefGoogle Scholar
Spinney, J. E. L., Millward, H., & Scott, D. M. (2011). Measuring active living in Canada: A time-use perspective. Social Science Research, 40(2), 685694.Google Scholar
Stacey, C., Kozma, A., & Stones, M. J. (1985). Simple cognitive and behavioural changes resulting from improved physical fitness in persons over 50 years of age. Canadian Journal on Aging/Revue canadienne du vieillissement, 4(2), 6774.CrossRefGoogle Scholar
Statistics Canada (1993). The 1992 General Social Survey - Cycle 7: Public use micro data file documentation and user’s guide. Ottawa, ON: Author.Google Scholar
Statistics Canada (1999). The 1998 General Social Survey - Cycle 12: Public use micro data file documentation and user’s guide. Ottawa, ON: Author.Google Scholar
Statistics Canada (2006). General Social Survey - Cycle 19: Time use (2005) user’s guide to the public use microdata file. Ottawa, ON: Author.Google Scholar
Statistics Canada (2010). CANSIM table 052-0005 and Catalogue no. 91-520-X. Last modified: 2010-11-16. Retrieved June 25, 2013, fromhttp://www.statcan.gc.ca/tables-tableaux/sum-som/l01/cst01/demo23d-eng.htm.Google Scholar
Statistics Canada (2011). General Social Survey Cycle 24: Time-stress and well-being public use microdata file documentation and user’s guide. Ottawa, ON: Statistics Canada.Google Scholar
Tudor-Locke, C., Bittman, M., Merom, D., & Bauman, A. (2005). Patterns of walking for transport and exercise: A novel application of time use data. International Journal of Behavioral Nutrition and Physical Activity, 2, 110.Google Scholar
Tudor-Locke, C., Johnson, W. D., & Katzmarzyk, P. T. (2010). Frequently reported activities by intensity for U.S. adults: The American Time Use Survey. American Journal of Preventive Medicine, 39(4), 1320.Google Scholar
Tudor-Locke, C., Washington, T. L., Ainsworth, B. E., & Troiano, R. P. (2009). Linking the American Time Use Survey (ATUS) and the Compendium of Physical Activities: Methods and rationale. Journal of Physical Activity and Health, 6(3), 347353.CrossRefGoogle ScholarPubMed
Von Mackensen, S., Hoeppe, P., Maarouf, A., Tourigny, P., & Nowak, D. (2005). Prevalence of weather sensitivity in German and Canada. International Journal of Biometeorology, 49, 156166.Google Scholar
Warburton, D. E. R., Katzmarzyk, P. T., Rhodes, R., & Shephard, R. J. (2007). Evidence-informed physical activity guidelines for Canadian adults. Applied Physiology, Nutrition, and Metabolism, 32, 332339.Google Scholar
Webber, S. C., & Porter, M. M. (2009). Monitoring mobility in older adults using global positioning system (GPS) watches and accelerometers: A feasibility study. Journal of Aging and Physical Activity, 17(4), 455467.Google Scholar
World Health Organization. (1998). Growing Older Staying Well: Ageing and Physical Activity in Everyday Life. Geneva, Switzerland: Author. Retrieved June 25, 2013, fromhttp://whqlibdoc.who.int/hq/1998/WHO_HPR_AHE_98.1.pdf.Google Scholar