Journal of Physiological Anthropology | |
Interaction with indoor plants may reduce psychological and physiological stress by suppressing autonomic nervous system activity in young adults: a randomized crossover study | |
Yoshifumi Miyazaki3  Bum-Jin Park4  Juyoung Lee1  Min-sun Lee2  | |
[1] Korea Forest Service, Government Complex 1, 189 Cheongsa-ro, Seo-gu 302-701, Daejeon, Korea;Department of Horticulture Sciences, College of Agriculture and Life Sciences, Chungnam National University, 99 Daehak-ro, Yuseong-gu 305-764, Daejeon, Korea;Center for Environment, Health and Field Sciences, Chiba University, 6-2-1 Kashiwanoha, Kashiwa 277-0882, Chiba, Japan;College of Agriculture and Life Sciences, Chungnam National University, 99 Daehak-ro, Yuseonggu 305-764, Daejeon, Korea | |
关键词: Sympathetic nervous system; Heart rate variability; Psychological and physiological effects; Technostress; Indoor plant; | |
Others : 1182584 DOI : 10.1186/s40101-015-0060-8 |
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received in 2014-09-01, accepted in 2015-04-07, 发布年份 2015 | |
【 摘 要 】
Background
Developments in information technology cause a great deal of stress to modern people, and controlling this stress now becomes an important issue. The aim of this study was to examine psychological and physiological benefits of interaction with indoor plants.
Methods
The study subjects were 24 young male adults at the age of 24.9 ± 2.1 (mean ± SD). The crossover experimental design was used to compare the differences in physiological responses to a computer task and a plant-related task. Subjects were randomly distributed into two groups. The first group (12 subjects) carried out transplanting of an indoor plant, whereas the second group (12 subjects) worked on a computer task. Then, each subject switched activities. The psychological evaluation was carried out using the semantic differential method (SDM) and physiological evaluation using heart rate variability (low-frequency (LF) and high-frequency (HF) components) and blood pressure.
Results
Analysis of the SDM data showed that the feelings during the transplanting task were different from that during the computer task: the subjects felt more comfortable, soothed, and natural after the transplanting task than after the computer task. The mean value of total log[LF/(LF + HF)] (sympathetic activity) increased over time during the computer task but decreased at the end of the transplanting task, and the differences were significant. Furthermore, diastolic blood pressure was significantly lower after the transplanting task.
Conclusions
Our results suggest that active interaction with indoor plants can reduce physiological and psychological stress compared with mental work. This is accomplished through suppression of sympathetic nervous system activity and diastolic blood pressure and promotion of comfortable, soothed, and natural feelings.
【 授权许可】
2015 Lee et al.; licensee BioMed Central.
【 预 览 】
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Figure 1. | 95KB | Image | download |
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【 参考文献 】
- [1]Brod C. Technostress: the human cost of the computer revolution. Reading: MA: Addison-Wesley; 1984.
- [2]Ulrich RS. View through a window may influence recovery from surgery. Science. 1984; 224:420-1.
- [3]Lewis CA. Green nature/human nature: the meaning of plants in our lives. University of Illinois press, Chicago, IL; 1996.
- [4]Kaplan R, Kaplan S. The experience of nature: a psychological perspective. Cambridge University press, New York; 1989.
- [5]Chang C, Chen P. Human response to window views and indoor plants in the workplace. Hort Science. 2005; 40:1354-9.
- [6]Coleman CK, Mattson RH. Influences of foliage plants of human stress during thermal biofeedback training. Hort Technology. 1995; 5:137-40.
- [7]Fjeld T. The effect of interior planting on health and discomfort among workers and school children. Hort Technology. 2000; 10:46-52.
- [8]Moore EO. A prison environment’s effect on health care service demands. J Environ Sys. 1981; 11:17-34.
- [9]Boomershine CS, Wang T, Zwilling BS. Neuroendocrine regulation of macrophage and neutrophil function. Psychoneuroimmuology. Ader R, Chone D, Felten L, Cohen N, editors. Academic Press, New York; 2001.
- [10]McEwen BS. Protective and damaging effects of stress mediators. N Engl J Med. 1998; 338:171-9.
- [11]Dravigne A, Waliczek TM, Lineberger RD, Zajicek JM. The effect of live plants and window views of green spaces on employee perceptions of job satisfaction. Hort Sci. 2008; 43:183-7.
- [12]Kaplan R. The nature of the view from home: psychological benefits. Environ Behav. 2001; 33:507-42.
- [13]Adachi M, Rode CLE, Kendle AD. Effects of floral and foliage displays on human emotions. Hort Sci. 2000; 10:59-63.
- [14]Ulrich RS. Natural versus urban scenes: some psycho-physiological effects. Environ Behav. 1981; 13:523-56.
- [15]Ulrich RS, Simons RF, Losito BD, Fiorito E, Miles MA, Zelson M. Stress recovery during exposure to natural and urban environments. J Environ Psychol. 1991; 11:201-30.
- [16]Shibata S, Suzuki N. Effects of indoor foliage plants on subjects’ recovery from mental fatigue. North Am J Psychol. 2001; 3:385.
- [17]Cimprich B. Development of an intervention to restore attention in cancer patients. Cancer Nurs. 1993; 16:83-92.
- [18]Hartig TA, Mang A, Evans GW. Restorative effects of natural environment experience. Environ Behav. 1991; 23:3-27.
- [19]Tennessen CM, Cimprich B. Views to nature: effects on attention. J Environ Psychol. 1995; 15:77-85.
- [20]Pearin LI. The social contexts of stress. Handbook of stress. Goldberger L, Breznitz S, editors. The Free Press, New York; 1993.
- [21]Salovey P, Rothman AJ, Detweiler JB, Steward WT. Emotional states and physical health. Am Psychol. 2000; 55:110-21.
- [22]Lee MS, Park BJ, Lee J, Park KT, Ku JH, Lee JW et al.. Physiological relaxation induced by horticultural activity: transplanting work using flowering plants. J Physiol Anthropol. 2013; 32:15. BioMed Central Full Text
- [23]Ishibashi K, Ueda S, Yasukouchi A. Effects of mental task on heart rate variability during graded head-up tilt. Appl Human Sci. 1999; 18:225-31.
- [24]Sato N, Miyake S. Cardiovascular reactivity to mental stress: relationship with menstrual cycle and gender. J Physiol Anthropol Appl Human Sci. 2004; 23:215-23.
- [25]Lohr VI, Pearson-Mims CH. Children’s active and passive interactions with plants influence their attitudes and action toward trees and gardening as adults. Hort Technology. 2005; 15:472-6.
- [26]Tsunetsugu Y, Park BJ, Ishii H, Hirano H, Kagawa T, Miyazaki Y. Physiological effects of “Shinrin-yoku” (taking in the atmosphere of the forest) in an old-growth broadleaf forest in Yamagata prefecture, Japan. J Physiol Anthropol. 2007; 26:135-42.
- [27]Park BJ, Tsunetsugu Y, Ishii H, Furuhashi S, Hirano S, Kagawa T et al.. Physiological effects of Shinrin-yoku (taking in the atmosphere of the forest) in a mixed forest in Shinano Town, Japan. Scand J Forest Res. 2008; 23:278-83.
- [28]Lee J, Park BJ, Tsunetsugu Y, Ohira T, Kagawa T, Miyazaki Y. Effect of forest bathing on physiological and psychological responses in young Japanese male subjects. Public Health. 2011; 125:93-100.
- [29]Lee J, Tsunetsugu Y, Takayama N, Park BJ, Li Q, Song CR et al.. Influence of forest therapy on cardiovascular relaxation in young adults. Evid Complement Altern Med. 2014; 2014:7.
- [30]Lohr VI, Person-Mins CH. Physical discomfort may be reduced in the presence of interior plants. Hort Technology. 2000; 10:53-8.
- [31]Bringslimark T, Hartig T, Patil GG. The psychological benefits of indoor plants: a critical review of the experimental literature. J Environ Psychol. 2009; 29:422-33.