This study investigated the effect of winter skiing on stress levels in collegiate students and also observed psychological factors related to heart rate, apprehension, and enjoyment. Two hundred thirty-eight male students were randomly classified into the control group (n=117) or the ski group (n=121). The control group received lectures on skiing; however, the ski group received practical ski training. Psychological measures included stress, apprehension, and enjoyment; physical measures included heart rate at pre- and postday. There were significant correlations between stress and apprehension (
Collegiate students typically experience various levels of stress from factors such as academic demands, financial pressures, and concerns over future employment. Such stress can take a toll on their psychophysical well-being, including their physical health (
Physical education classes offered at universities can provide benefits for college students by relieving stress. Many studies have been conducted on physical activity as a way to reduce stress for college students. However, there are very few studies that specifically focus on how winter skiing can improve health and reduce stress in students during winter seasons. In addition, skiing can help students develop social skills by meeting people in the field, improve their ability to cope with cold temperatures, and make good memories of racing through high slopes at a ski resort. Although many studies show positive results from participating in recreational sports activities (
Participating in sports can arouse feelings of apprehension and enjoyment at the same time. The level of enjoyment often determines whether a person will continue participating in that sport. In other words, the enjoyment of taking part in recreational sports induces positive emotional and psychophysiological responses and are powerful motivators to maintain the behavior (
While there are disadvantages of winter skiing in terms of time and space constraints compared to other indoor sports, it can bring much enjoyment and stress relief through intensive classes that take place in a friendly and natural environment. However, most of the recent studies related to winter skiing have mostly focused on leisure satisfaction, intention to continue exercise, and class satisfaction. In other words, there have been no studies on the effects of participating in winter skiing on a participant’s enjoyment, apprehension, or stress levels. Furthermore, it is not known whether the above-mentioned psychological factors are related to the human body’s physical index such as heart rate. Therefore, this study investigated the effect of winter skiing on stress levels in collegiate students. Moreover, the relationship among heart rate, apprehension, and enjoyment were studied as they are related to stress.
The study sample consisted of 401 collegiate students who participated in a winter ski program between the 15th and 18th of December 2017 at H-resort, located in Gangwon-do. Three hundred eighty-two students from Hanseo University were interviewed, of whom 240 (59.85%) were male and 161 (40.15%) were female. To achieve homogeneity, only male students were selected for the subjects. Thus, this study included 240 male subjects in which two participants were disqualified due to having undergone knee joint surgery 1 year ago. The remaining 238 participants were randomly allocated to one of two groups as shown in
This single, randomized, controlled trial was conducted at a ski resort for 3 days. The first assessment was conducted on December 15 and the second assessment was done on December 18 at the same resort. The study was approved by the Institutional Review Board at Sahmyook University (2-7001793-AB-N-012018034-HR). All participants were recruited through advertisements and a written informed consent was obtained before enrollment. First, all of the participants arrived at a ski resort to sign an informed consent form and to complete a self-reported questionnaire about their health status included in the physical examination. After this procedure, each participant took part in the experiment conducted by an expert. All participants took part in the ski lessons for 4 days and 3 nights. Participants assigned to the ski group participated in the ski practice training while the control group, only received lectures on the first day. In other words, in order to compare the changes in heart rate, apprehension, and enjoyment of the ski group, the control group focused on theoretical education on day 1. Since both groups participated in actual ski practice on days 2, 3, and 4, only day 1 was analyzed for differences between the groups.
Participants were weighed wearing light clothes and without shoes. To measure body composition, the bioelectrical impedance analysis method was used by BMS 330 and InBody 230 Body Composition Analyzer (Biospace Co., Ltd., Cheonan, Korea), respectively. This analyzer is a segmental impedance device measuring voltage drops in the upper and lower body. Eight tactile electrodes were placed in contact with the surfaces of both hands and feet: thumbs, palms and fingers, front soles, and rear soles. Analysis of body composition was measured before dinner and after voiding (
Prior to the study, all of the questionnaires were translated from English to Korean and then retranslated from Korean to English in order to ensure accuracy. All of the questionnaires, which were written in English, followed standardized methodological procedures (
The Academic Stress Inventory was used by the Spanish Society of Anxiety and Stress (
The scale used in this study was a visual analogue scale (VAS). All participants participating in the study were asked to mark their state of self-perception on an online questionnaire. All of the participants were asked to rate “how do you feel at the moment about the winter ski program you have been doing” using a 10 cm bipolar rating scale. One end of the scale was labeled “0,” indicating no enjoyment while the other end of the scale was labeled “10,” indicating a high level of enjoyment. Participants marked a “V” along the scale according to their level of enjoyment. In other words, higher scores reflect greater levels of psychological enjoyment. The Cronbach α of the VAS for enjoyment was 0.83.
The apprehension scale used in this study was similar to the enjoyment scale described above. In other words, a VAS was used to measure apprehension. All of the participants were asked to rate “how much apprehension do you feel when you ski?” using a 10-cm bipolar rating scale. One end of the scale was labeled “0,” indicating no apprehension while the other end of the scale was labeled “10,” indicating a high level of apprehension. Participants marked a “V” along the scale according to their level of apprehension. In other words, higher scores reflect greater levels of apprehension. The Cronbach α was 0.81.
The heart rate of all participants was manually measured after skiing. Participants in each group, consisting of 15 participants, checked their heart rate by placing their index finger and middle finger on the radial artery after a 5-min break according to the researcher’s signal. After 10 sec, the number of heartbeats was multiplied by 6 and recorded.
Stress, heart rate, apprehension, and enjoyment were measured in the same intermediate gradient slope just before and after skiing. Since all the participants did not have skiing experience, only ski training was conducted without measurement on the first day of the 3-day course. The beginner level course used in the experiment was 900 m in length with an 8° slope and the intermediate level course was 2,300 m with a 10° slope. At the time of the measurement, the temperature of the ski area was between minus 4°C–6°C and humidity 30%–40%.
All data are reported as mean (standard deviation). Sample size of this study was determined based on the software G*Power v 3.1.3, for analysis of variance; considering a priori effect size f2 (V)=0.35 (medium size effect), α error probability=0.05 and Power (1−β error probability)=0.95; a sample size of 200 was recommended; the sample of this study included 238 participants. All data are reported as mean±standard deviation and as mean change over baseline (95% confidence interval). Prior to the main analysis, the Kolmogorov–Smirnov test was used to determine the normality of distribution of the examined variables. The effects of the interventions were assessed using an analysis of variance for repeated (2×2) measures (group, time, and group by time interaction). An intention-to-treat analysis was performed to compare the ski group with the control group. The between-group factor was the study groups (i.e., ski vs. control) and the within-group factor was the day (i.e., day 1 vs. day 2). Specifically, the change rates from pre- to posttest were yielded and analyzed by an independent
Before starting the winter ski program, two participants dropped out. Thus, this study analyzed 238 (99.17%) out of 240 male students (
As shown in
As shown in
The aim of this study was to investigate the effect of winter skiing on stress levels in collegiate students. Moreover, this study analyzed the degree of change in the heart rate, apprehension, and enjoyment levels related to stress after skiing.
Stress is one of the main determinants of a person’s health status (
Skiing in the open outdoors is a sport that involves dynamic body movements, like many kinds of exercise. Skiing is also very energy-consuming and involves speeds that are up to 20% faster than other technical sports (
In the present study, a significant effect of winter skiing concerning decreased levels of stress was found. Stress levels were significantly decreased in the ski group, while it only slightly decreased in the control group. In other words, skiing was found to greatly reduce stress levels in students. This study hypothesized that skiing would have some effect on heart rate and apprehension in reducing stress and that enjoyment would increase through ski lessons. The number of heart beats per minute is often used as a physiological indicator for measuring or evaluating an individual’s health condition, cardiopulmonary function, or exercise intensity. Heart rate is a simple and helpful mediator of cardiovascular function. Heart rate is normally 60 to 80 beats per min for adults over 18 years of age, and continues to increase if intense exercise continues. In the submaximal intensity, there may be slight changes, but it remains mostly constant and then decreases after exercise, eventually returning to the resting heart rate. The heart rate of the control group slightly increased after skiing, whereas the heart rate of the ski group slightly decreased after skiing. However, there were no significant differences in heart rates between groups. Meanwhile, although the changes of apprehension levels in both groups were similar with the changes in heart rate, the apprehension levels in the ski group were significantly lower than those of the control group after skiing. Enjoyment decreased in the control group, whereas it significantly increased in the ski group. These results are in the same context as the results showing a negative correlation between apprehension and enjoyment, as shown in
A very important factor for stress reduction is enjoyment. Enjoyment can be described as a positive affective state that reflects feelings such as pleasure or fun. Correlational and descriptive studies have indicated that enjoyment may be associated with physical activity in youth (
Ultimately, this study confirmed that winter skiing can improve psychological well-being, including stress and apprehension, in collegiate students. The positive changes in psychological conditions may have led to increased enjoyment, suggesting that the results were influenced by a psychophysiological effect in which the winter ski program played a key role.
No potential conflict of interest relevant to this article was reported.
The authors wish to thank the participants who volunteered their time to contribute to this research project. This research was supported by a grant in 2018 from Hanseo University, Republic of Korea.
Allocation of participants (consolidated standards for reporting of trials flow diagram).
Physical characteristics of the participants
Variable | Group | Sum (n=238) | |
---|---|---|---|
Control (n=117) | Ski (n=121) | ||
Age (yr) | 22.58±2.03 | 23.21±2.14 | 22.89±2.10 |
Height (cm) | 175.25±5.57 | 175.03±6.06 | 175.14±5.81 |
Weight (kg) | 70.51±10.42 | 72.48±11.80 | 71.48±11.14 |
Values are presented as mean±standard deviation.
Relationships among stress, heart rate, apprehension, and enjoyment
Item | Value | Stress | Heart rate | Apprehension | Enjoyment |
---|---|---|---|---|---|
Stress | 1 | 0.016 | 0.366 | −0.441 | |
0.807 | 0.026 | 0.016 | |||
| |||||
Heart rate | 1 | −0.006 | −0.016 | ||
0.929 | 0.802 | ||||
| |||||
Apprehension | 1 | −0.599 | |||
0.007 | |||||
| |||||
Enjoyment | 1 | ||||
Psychophysiological measurements before and after winter ski and the significance of group, time, and the group×time interaction in control and ski groups
Item | Time | Group | ||||
---|---|---|---|---|---|---|
|
| |||||
Control (n=117) | Ski (n=121) | G | T | G×T | ||
Stress | Pre | 27.45±3.44 | 27.50±3.30 | 0.001 | 0.001 | 0.001 |
Post | 26.72±3.98 | 13.85±5.62 | ||||
| ||||||
Heart rate | Pre | 86.48±16.64 | 87.48±17.39 | 0.429 | 0.275 | 0.151 |
Post | 86.98±14.02 | 83.86±11.42 | ||||
| ||||||
Apprehension | Pre | 8.06±2.11 | 8.05±2.24 | 0.001 | 0.001 | 0.001 |
Post | 8.15±1.92 | 6.58±2.19 | ||||
| ||||||
Enjoyment | Pre | 3.42±2.25 | 3.07±2.10 | 0.001 | 0.001 | 0.001 |
Post | 3.01±2.15 | 5.77±2.53 |
Values are presented as mean±standard deviation.
Gained by 2×2 repeated-measures analysis of variance.
Comparison of the change rate (%) between times for psychophysiological measurements in both groups
Item | Group | |||
---|---|---|---|---|
Control (n=117) | Ski (n=121) | |||
Stress | −0.69±22.27 | −48.95±21.35 | 17.057 | 0.001 |
Heart rate | 4.15±25.28 | 0.10±26.61 | 1.205 | 0.229 |
Apprehension | 17.48±97.76 | −0.01±100.32 | 1.363 | 0.174 |
Enjoyment | 53.60±181.43 | 203.06±253.13 | 5.249 | 0.001 |
Values are presented as mean±standard deviation.
Gained by independent