Physiological responses to intensive snow shoveling performed by volunteers in heavy snowfall area

IF 1 Q4 GEOGRAPHY, PHYSICAL

Bulletin of glaciological research Pub Date : 2019-01-01 DOI:10.5331/bgr.19a01

Tsutomu Suda, Kazuki Takizawa, Nobuyoshi Konishi, S. Omiya, S. Tsutaki

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Abstract

The purpose of this study was to examine the physiological responses to intensive snow shoveling. The subjects were six males (25-71, 50±8 years) who participated in a snow removal volunteer tour. Prior to the tour, each subject engaged in a cycle ergometer test (Test 1) and a multistage shoveling test (Test 2) to evaluate the relationship between volume of oxygen consumption (V 4 O2) and heart rate. Field measurements were performed in Miruto of Iwamizawa City, Hokkaido, Japan on February 2, 2014. Average air temperatures of that day were -6.3 °C in the morning and -1.4 °C in the afternoon. The snow layer at the work site had various grain shapes and snow density linearly increased with snow depth. While snow hardness increased exponentially with increase in snow depth. Mean heart rate during working time in the afternoon (142±9 beats min) was significantly (p<0.01) higher than that in the morning (131±9 beats min). These heart rates correspond 84 % and 77 % of the predicted maximum heart rate (HRmax), respectively. Ratings of perceived exertion were not different in the morning (12.9±0.4) and afternoon (12.4±0.3). The mean values of V 4 O2 in the total work period (111±3 min) was estimated to be 22.2±1.2 ml kg min (Metabolic equivalent; 6.4±0.3 METs). Estimated energy expenditure averaged 782±46 kcal. It is conceivable that increase in snow hardness and snow density caused an increase in work intensity.

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志愿者在大雪区进行密集铲雪时的生理反应

本研究的目的是研究对高强度铲雪的生理反应。研究对象为6名男性，年龄25-71岁，50±8岁。在旅行之前，每个受试者都进行了一个循环劳力计测试(测试1)和一个多阶段铲雪测试(测试2)来评估耗氧量(v4o2)和心率之间的关系。2014年2月2日，在日本北海道Iwamizawa市Miruto进行了现场测量。当天上午平均气温为-6.3℃，下午平均气温为-1.4℃。工地雪层颗粒形状多样，雪密度随雪深呈线性增加。雪的硬度随雪深的增加呈指数增长。下午工作时间平均心率(142±9次/ min)显著高于上午(131±9次/ min) (p<0.01)。这些心率分别对应于预测最大心率(HRmax)的84%和77%。上午(12.9±0.4)和下午(12.4±0.3)的劳累感评分差异无统计学意义。在整个工作期间(111±3 min)， v4o2的平均值估计为22.2±1.2 ml kg min(代谢当量;6.4±0.3大都会)。估计能量消耗平均为782±46千卡，可以想象，雪硬度和雪密度的增加导致了工作强度的增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bulletin of glaciological research GEOGRAPHY, PHYSICAL-

CiteScore

2.20

自引率

20.00%

发文量