Cardiorespiratory strain during walking in snow with boots of differing weights

Smolander, Juhani; Louhevaara, Veikko; Hakola, Tarja; Ahonen, E.; Klen, Tapio

doi:10.1080/00140138908966063

Cited by 19 publications

(10 citation statements)

References 14 publications

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“…This increase appears to be approximately 3% per additional kilogram of clothing (26,28,29). In addition to the weight of additional clothing, friction between clothing layers and the hobbling effect of bulky clothing also appears to increase energy expenditure.…”

Section: Energy and Fitness During Antarctic Residencementioning

confidence: 99%

The effect of Antarctic residence on energy dynamics and aerobic fitness

Simpson

2010

International Journal of Circumpolar Health

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Objective. To review the current literature that describes the effect of Antarctic residence on energy dynamics and aerobic fitness. Study design. Literature review. Methods. Published literature on energy dynamics and aerobic fitness in the polar environment was reviewed. Energy dynamics were represented by body weight, body fat, food intake and energy expenditure. Consideration was given to seasonal variation and possible explanations for the apparent high metabolic cost of Antarctic residence. The influence of cold exposure was discussed and comment was made on the differences between temperate and polar residence. Results. Food intake and energy expenditure are found to increase with Antarctic residence. There is often an associated increase in body weight and body fat. Seasonal variation is common but not universal, with an increase in body weight and body fat in winter. Variation in aerobic fitness appears to be related to the specific study sample rather than Antarctic residence per se. Conclusions. In most instances, Antarctic residence has effects on energy dynamics and aerobic fitness. Explanations for the observed changes may include physiological adaptations, such as a raised basal metabolic rate and increased thermogenesis. However, cold-induced changes are less likely when cold exposure is minimized by heated buildings and insulated clothing. Activity patterns related to work and leisure thus represent a more likely cause. The majority of the research is several decades old; further research would help to elucidate the patterns of energy dynamics of modern Antarctic workers. (Int J Circumpolar Health 2010; 69(3):220-235)

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Section: Energy and Fitness During Antarctic Residencementioning

confidence: 99%

The effect of Antarctic residence on energy dynamics and aerobic fitness

Simpson

2010

International Journal of Circumpolar Health

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“…It is known that, for an equal load, walking on snow implies a higher maximal oxygen consumption than on a treadmill at the same intensity along flat terrain (Smolander et al, 1989); and that the increase in energy expenditure is proportional to the depth of the footprint in the snow (Heinonex et al, 1959). The value of the maximal oxygen consumption observed in the maximal ascents in this study was a 2.6% higher when locomotion was performed in FP than in FS, due to the higher capacity to develop speed and aerobic power.…”

Section: Discussionmentioning

confidence: 99%

Differences in Cardiorespiratory Responses in Winter Mountaineering According to the Pathway Snow Conditions

Carceller

Javierre²,

Corominas³

et al. 2019

High Altitude Medicine & Biology

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“…However, it will not quantify isometric activity and is unable to allow for increased energy expenditure associated with moving through difficult terrain (e.g. deep snow) (17) or walking whilst wearing heavy clothing (18). It may be, then, that step count did not represent overall activity (i.e.…”

Section: Discussionmentioning

confidence: 99%

A longitudinal study of the effect of Antarctic residence on energy dynamics and aerobic fitness

Simpson

Maynard

2012

International Journal of Circumpolar Health

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ObjectivesTo investigate the effect of Antarctic residence on energy dynamics and aerobic fitness over the course of a year in over-wintering personnel.Study designA prospective longitudinal observational study.MethodsA convenience sample of personnel over-wintering at Rothera Research Station in Antarctica was studied. Body weight, body fat, food intake, activity and aerobic fitness were recorded every 30 days for 1 year. Body weight, body fat and food intake were measured using weighing scales, skinfold callipers and diet records, respectively; activity was measured using accelerometer-based activity trackers and aerobic fitness using a treadmill protocol. Climate markers of temperature and sunlight hours were also recorded.ResultsTwenty-one subjects took part in the study over the 12-month period. A statistically significant increase in body weight and body fat in winter was observed (p=0.012 and p=0.049, respectively). There were no statistically significant trends in activity, food intake or aerobic fitness.ConclusionsThere were significant seasonal changes in body weight and body fat, with both measures increasing in winter but no significant changes in the other main outcome measures.

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Cardiorespiratory strain during walking in snow with boots of differing weights

Cited by 19 publications

References 14 publications

The effect of Antarctic residence on energy dynamics and aerobic fitness

The effect of Antarctic residence on energy dynamics and aerobic fitness

Differences in Cardiorespiratory Responses in Winter Mountaineering According to the Pathway Snow Conditions

A longitudinal study of the effect of Antarctic residence on energy dynamics and aerobic fitness

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