森林公园七种声源对游客脑电生理的影响

doi:10.13287/j.1001-9332.202505.022

摘要/Abstract

摘要： 森林公园中的声源作为重要的环境因素之一,对人的游览体验有着重要影响。本研究以32名大学生为研究对象,应用脑电技术测定了其对森林公园7种声源的反应,分析声源对游客脑电生理的影响。结果表明: 森林公园不同声源对游客的安全感、愉悦感的提升与疲劳感的缓解具有一定效果。在提升游客的安全感方面,水流声、虫鸣、雨声等3种声源的效果最好;风声、交通声对游客的安全感产生了消极影响。游客在听取雨声时愉悦感最高,其次是水流声、虫鸣;在缓解游客疲劳感的效果上,雨声、鸟鸣、水流声、风声的效果最好;而交通声、人活动声这2种人工类声源,不能缓解人的疲劳感;在不同性别之间,女性的脑电反应大于男性,女性在听到流水时的安全感最高,而男性是雨声。本研究揭示了声源种类对人的脑电生理影响差异,未来森林公园设计可根据使用需求进行声景营建,充分发挥其正向效应。

关键词: 森林公园, 声景, 声源, 脑电波

Abstract: As one of the important environmental factors, sound source in forest park has an important influence on people’s visiting experience. In this study, we examined the responses of 32 university students to seven kinds of sound sources in forest park by electroencephalogram (EEG) technology, and analyzed the effects of sound sources on tourists’ EEG physiology. The results showed that different sound sources had certain effects on improving tou-rists’ sense of security, pleasure and fatigue. Three sound sources, including water sound, insect sound, and rain sound, were the best in improving tourists’ sense of security. Wind and traffic noise had negative impacts on tou-rists’ sense of security. Tourists had the highest sense of pleasure when listening to the rain, followed by the sound of water and insects. In the effect of relieving tourists’ fatigue, the sounds of rain, bird singing, water flow and wind sound were the best. Traffic and human activity sounds, two kinds of artificial sound sources, could not alle-viate people’s fatigue. In the different genders, EEG response of females was greater than that of males. Females felt the safest when hearing flowing water, while males felt the safest with the sound of rain. This study revealed the differences in the influence of sound source types on people’s EEG physiology. In the future, the design of forest park should build soundscape according to the use requirements and give full consideration of its positive effects.

Key words: forest park, soundscape, sound source, electroencephalogram

回腾飞, 张洁, 杨智, 裴轩, 宋时屿, 祝爱昀, 高玮, 张春兰. 森林公园七种声源对游客脑电生理的影响[J]. 应用生态学报, 2025, 36(5): 1507-1518.

HUI Tengfei, ZHANG Jie, YANG Zhi, PEI Xuan, SONG Shiyu, ZHU Aiyun, GAO Wei, ZHANG Chunlan. Effects of seven kinds of sound sources on electroencephalogram physiology of tourists in forest park[J]. Chinese Journal of Applied Ecology, 2025, 36(5): 1507-1518.

参考文献

[1] 董天, 郑华, 肖燚, 等. 旅游资源使用价值评估的ZTCM和TCIA方法比较: 以北京奥林匹克森林公园为例. 应用生态学报, 2017, 28(8): 2605-2610
[2] 彭婉婷, 刘文倩, 蔡文博, 等. 基于参与式制图的城市保护地生态系统文化服务价值评价: 以上海共青森林公园为例. 应用生态学报, 2019, 30(2): 439-448
[3] 肖荣波, 叶梓轩, 岑渝华, 等. 声景生态学中的监测时空尺度及其选择. 生态学报, 2024, 44(20): 9159-9172
[4] 边琦, 王成, 郝泽周. 生物声音监测研究在生物多样性领域的应用. 应用生态学报, 2021, 32(3): 1119-1128
[5] Ulrich RS, Simons RF, Losito BD, et al. Stress recovery during exposure to natural and urban environments. Journal of Environmental Psychology, 1991, 11: 201-230
[6] Jeon JY, Lee PJ, You J, et al. Perceptual assessment of quality of urban soundscapes with combined noise sources and water sounds. Journal of the Acoustical Society of America, 2010, 127: 1357-1366
[7] 刘江, 郁珊珊, 王亚军, 等. 城市公园景观与声景体验的交互作用研究. 中国园林, 2017, 33(12): 86-90
[8] Bild E, Pfeffer K, Coler M, et al. Public space users’ soundscape evaluations in relation to their activities: An Amsterdam-based study. Frontiers in Psychology, 2018, 9: 1593
[9] Alvarsson JJ, Wiens S, Nilsson ME. Stress recovery during exposure to nature sound and environmental noise. International Journal of Environmental Research and Public Health, 2010, 7: 1036-1046
[10] Hedblom M, Gunnarsson B, Schaefer M, et al. Sounds of nature in the city: No evidence of bird song improving stress recovery. International Journal of Environmental Research and Public Health, 2019, 16: 1390
[11] Li H, Xie H, Woodward G. Soundscape components, perceptions, and EEG reactions in typical mountainous urban parks. Urban Forestry & Urban Greening, 2021, 64: 127269
[12] Annerstedt M, Jönsson P, Wallergård M, et al. Inducing physiological stress recovery with sounds of nature in a virtual reality forest: Results from a pilot study. Physiology & Behavior, 2013, 118: 240-250
[13] 回腾飞, 张洁, 祝爱昀, 等. 森林公园不同频率自然声对人的脑电生理影响. 应用声学, 2025, 44(1): 223-233
[14] Kahana MJ. The cognitive correlates of human brain oscillations. Journal of Neuroscience, 2006, 26: 1669-1672
[15] Keller AS, Payne L, Sekuler R. Characterizing the roles of alpha and theta oscillations in multisensory attention. Neuropsychologia, 2017, 99: 48-63
[16] 喻国明, 王文轩, 冯菲, 等. 合成语音新闻的传播效果评测: 关于语速影响的EEG证据. 国际新闻界, 2021, 43(2): 6-26
[17] 朱玉洁, 翁羽西, 傅伟聪, 等. 声景感知对森林公园健康效益的影响: 以福州国家森林公园为例. 林业科学, 2021, 57(3): 9-17
[18] Grassini S, Revonsuo A, Castellotti S, et al. Processing of natural scenery is associated with lower attentional and cognitive load compared with urban ones. Journal of Environmental Psychology, 2019, 62: 1-11
[19] Liu C, Jing XT, Shi J, et al. Effects of natural sound on human stress recovery based on EEG techniques. Journal of Environmental Psychology, 2024, 97: 102365
[20] 朱玉洁, 翁羽西, 孙丹玫, 等. 声景对自然和城市环境恢复性效益的影响. 建筑科学, 2021, 37(2): 63-69
[21] 陈方华, 柯文棋, 顾卫国, 等. 皮电生物反馈训练对被试者生理及心理影响的研究. 海军医学杂志, 2005, 26(2): 115-116
[22] Li ZZ, Kang J. Sensitivity analysis of changes in human physiological indicators observed in soundscapes. Landscape and Urban Planning, 2019, 190: 103593
[23] Lin W, Chen QB, Jiang MY, et al. Sitting or walking? Analyzing the neural emotional indicators of urban green space behavior with mobile EEG. Journal of Urban Health, 2020, 97: 191-203
[24] Wang TC, Sit HP, Tang TW, et al. Psychological and physiological responses in patients with generalized anxiety disorder: The use of acute exercise and virtual reality environment. International Journal of Environmental Research and Public Health, 2020, 17: 4855
[25] Hassan A, Tao J, Li G, et al. Effects of walking in bamboo forest and city environments on brainwave activity in young adults. Evidence-Based Complementary and Alternative Medicine, 2018, 9: 9653857
[26] 张琪, 周延祯, 屈海燕. 脑电技术在风景园林领域的应用研究现状综述. 南方建筑, 2023(5): 75-83
[27] 阎莹, 袁华智, 杨香丽, 等. 基于多源数据的单调道路环境与驾驶疲劳关系模型. 中国公路学报, 2021, 34(5): 156-167
[28] Zeng CC, Lin W, Li N, et al. Electroencephalography (EEG)-based neural emotional response to the vegetation density and integrated sound environment in a green space. Forests, 2021, 12: 1380
[29] Guo MY, Zhang J, Yang Z, et al. An empirical study on the response of university students to viewing autumn secondary forest phytocommunities landscape via virtual reality in Northeast China. Ecological Indicators, 2024, 158: 111450
[30] 张新果, 张启翔. 园林植物嗅景对人体健康的影响. 林业科学, 2023, 59(4): 100-116
[31] Song I, Baek K, Kim C, et al. Effects of nature sounds on the attention and physiological and psychological relaxation. Urban Forestry & Urban Greening, 2023, 86: 127987
[32] 江雪峰. 鸣虫的生物学特性及其资源保护. 安徽农学通报, 2012, 18(24): 147-148
[33] 金杏宝. 听得见的宁静: 鸣虫与城市绿化. 园林, 2012(3): 34-39
[34] Zuk NJ, Teoh ES, Lalor EC. Eeg-based classification of natural sounds reveals specialized responses to speech and music. Neuroimage, 2020, 210: 116558
[35] 吴硕贤. 园林声景略论. 中国园林, 2015, 31(5): 38-39
[36] 杨国春, 伍海燕, 齐玥, 等. 人类性别加工的认知神经机制. 心理科学进展, 2020, 28(12): 2008-2017
[37] Van HSC, Nusbaum HC, Clohisy L, et al. Of cricket chirps and car horns: The effect of nature sounds on cognitive performance. Psychonomic Bulletin & Review, 2019, 26: 522-530
[38] Kaplan R, Kaplan S. The Experience of Nature: A Psychological Perspective. Cambridge: Cambridge Univer-sity Press, 1989
[39] 翁羽西, 朱玉洁, 董嘉莹, 等. 校园绿地声景观对情绪和注意力的影响: 以福建农林大学为例. 中国园林, 2021, 37(2): 88-93
[40] 刘江, 郭渲, 洪昕晨, 等. 城市公园声景恢复性效益感知的个体影响因素研究. 中国园林, 2022, 38(9): 40-45
[41] 杜春雨, 欧达毅, 徐涵, 等. 城市健康步道声景调查及其对游客心境状态的影响研究. 建筑科学, 2022, 38(10): 116-122
[42] 杨智, 刘梦竹, 回腾飞, 等. 吉林省森林公园自然声喜好度调查. 北华大学学报: 自然科学版, 2024, 25(3): 397-404
[43] Kang J. Soundscape in city and built environment: Current developments and design potentials. City and Built Environment, 2023: 1-16
[44] Bagot KL, Allen FCL, Toukhsati S. Perceived restorativeness of children’s school playground environments: Nature, playground features and play period experiences. Journal of Environmental Psychology, 2015, 41: 1-9
[45] Akpinar A. How is high school greenness related to students’ restoration and health? Urban Forestry & Urban Greening, 2016, 16: 1-8
[46] 卢英俊, 戴丽丽, 吴海珍, 等. 不同类型音乐对悲伤情绪舒缓作用的EEG研究. 心理学探新, 2012, 32(4): 369-375
[47] Stroud LR, Salovey P, Epel ES. Sex differences in stress responses: Social rejection versus achievement stress. Biological Psychiatry, 2002, 52: 318-327
[48] Chaplin TM, Hong K, Bergquist K, et al. Gender differences in response to emotional stress: An assessment across subjective, behavioral, and physiological domains and relations to alcohol craving. Alcoholism: Clinical and Experimental Research, 2008, 32: 1242-1250
[49] Chaplin TM. Gender and emotion expression: A deve-lopmental contextual perspective. Emotion Review, 2014, 7: 14-21
[50] Yuan JJ, Wang Y, Ju EX, et al. Gender differences in emotional processing and its neural mechanisms. Advances in Psychological Science, 2010, 18: 1899
[51] Liu P, Liu MN, Xia TT, et al. Can urban forest settings evoke positive emotion? Evidence on facial expressions and detection of driving factors. Sustainability, 2021, 13: 8687
[52] Zhang Z, Chen YL, Qiao XR, et al. The influence of forest landscape spaces on physical and mental restoration and preferences of young adults of different genders. Forests, 2022, 14: 37
[53] Yang YJ, Xu MW, Lin CM, et al. Gender differences in stress reduction: How the five senses forest therapy enhances well-being in university students. Forests, 2024, 15: 2208
[54] 隋艳晖, 徐洪富, 孙淑君, 等. 昆虫发声行为的研究现状. 山东农业大学学报:自然科学版, 2003, 34(3): 443-446
[55] Berman MG, Jonides J, Kaplan S. The cognitive benefits of interacting with nature. Psychological Science, 2008, 19: 1207-1212
[56] Barton J, Pretty J. What is the best dose of nature and green exercise for improving mental health? A multi-study analysis. Environmental Science & Technology, 2010, 44: 3947-3955