Can acoustic indices reflect the characteristics of public recreational behavioral in urban green spaces?

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Weicong Fu
  • Chengyu Ran
  • Jingkai Huang
  • Zhu Chen
  • Shiyuan Fan
  • Wenqiang Fang
  • Miaojun Ye
  • Jiaying Dong
  • Xiong Yao
  • Ziru Chen

Research Organisations

External Research Organisations

  • Fujian Agriculture and Forestry University
  • University of British Columbia
  • Clemson University
  • Fujian University of Technology
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Details

Original languageEnglish
Article number110729
JournalEcological indicators
Volume154
Early online date8 Aug 2023
Publication statusPublished - Oct 2023

Abstract

Acoustic indicators serve as an effective means of assessing the quality of urban green space soundscape. The informative, easy accessibility and non-invasive nature of acoustic monitoring renders it an excellent tool for studying the interaction among the natural environment, wildlife, and human activities. Urban green space is essential in the urban ecosystem and constitutes the primary location for public outdoor recreation. However, the existing methods for monitoring public recreational behavior, such as on-site observation, drone observation, or questionnaire interviews, require significant labor or professional expertise. All of these methods have their limitations, so there is still much to be researched in the acoustic indices and recreational behavior. As a result, the potential for using acoustic characteristics to monitor public recreational behavior remains underexplored. To address this gap, this study investigates the potential of 5 widely used acoustic indices and acoustic intensity for monitoring public recreational behavior: Acoustic Complexity Index (ACI), Acoustic Diversity Index (ADI), Acoustic Richness (AR), Normalized Difference Soundscape Index (NDSI), and Power Spectral Density (PSD). Data were collected from 35 monitoring points in urban green spaces during the opening hours (6:00–22:00) to analyze the relationship between these indices and public recreational behavior. The findings indicate that (1) ACI, ADI, and AR daily exhibited multi-peak daily variation characteristics similar to those of public recreational behavior, displaying a “W” shape, while NDSI exhibits opposite variation characteristics; (2) the spatial variation characteristics of ACI, ADI, and AR change in response to the green space, and these changes align with public recreational behavior; (3) the correlation analysis and generalized linear mixed model construction further demonstrate that acoustic indices are effective in capturing the dynamic activities of visitor behavior; and (4) PSD undergoes significant temporal dynamic changes along the frequency gradient, with different frequency intervals reflecting the activity information of different recreational behaviors. In conclusion, this research highlights the effectiveness of using acoustic indices to analyze both the spatial and temporal variation characteristics of public recreational behavior in urban green spaces. The results can provide valuable data support for the enhancement and renovation of urban green spaces.

Keywords

    Acoustic index, Recreational behavior, Soundscape, Spatial and temporal variation

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Can acoustic indices reflect the characteristics of public recreational behavioral in urban green spaces? / Fu, Weicong; Ran, Chengyu; Huang, Jingkai et al.
In: Ecological indicators, Vol. 154, 110729, 10.2023.

Research output: Contribution to journalArticleResearchpeer review

Fu, W, Ran, C, Huang, J, Chen, Z, Fan, S, Fang, W, Ye, M, Dong, J, Yao, X & Chen, Z 2023, 'Can acoustic indices reflect the characteristics of public recreational behavioral in urban green spaces?', Ecological indicators, vol. 154, 110729. https://doi.org/10.1016/j.ecolind.2023.110729
Fu, W., Ran, C., Huang, J., Chen, Z., Fan, S., Fang, W., Ye, M., Dong, J., Yao, X., & Chen, Z. (2023). Can acoustic indices reflect the characteristics of public recreational behavioral in urban green spaces? Ecological indicators, 154, Article 110729. https://doi.org/10.1016/j.ecolind.2023.110729
Fu W, Ran C, Huang J, Chen Z, Fan S, Fang W et al. Can acoustic indices reflect the characteristics of public recreational behavioral in urban green spaces? Ecological indicators. 2023 Oct;154:110729. Epub 2023 Aug 8. doi: 10.1016/j.ecolind.2023.110729
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abstract = "Acoustic indicators serve as an effective means of assessing the quality of urban green space soundscape. The informative, easy accessibility and non-invasive nature of acoustic monitoring renders it an excellent tool for studying the interaction among the natural environment, wildlife, and human activities. Urban green space is essential in the urban ecosystem and constitutes the primary location for public outdoor recreation. However, the existing methods for monitoring public recreational behavior, such as on-site observation, drone observation, or questionnaire interviews, require significant labor or professional expertise. All of these methods have their limitations, so there is still much to be researched in the acoustic indices and recreational behavior. As a result, the potential for using acoustic characteristics to monitor public recreational behavior remains underexplored. To address this gap, this study investigates the potential of 5 widely used acoustic indices and acoustic intensity for monitoring public recreational behavior: Acoustic Complexity Index (ACI), Acoustic Diversity Index (ADI), Acoustic Richness (AR), Normalized Difference Soundscape Index (NDSI), and Power Spectral Density (PSD). Data were collected from 35 monitoring points in urban green spaces during the opening hours (6:00–22:00) to analyze the relationship between these indices and public recreational behavior. The findings indicate that (1) ACI, ADI, and AR daily exhibited multi-peak daily variation characteristics similar to those of public recreational behavior, displaying a “W” shape, while NDSI exhibits opposite variation characteristics; (2) the spatial variation characteristics of ACI, ADI, and AR change in response to the green space, and these changes align with public recreational behavior; (3) the correlation analysis and generalized linear mixed model construction further demonstrate that acoustic indices are effective in capturing the dynamic activities of visitor behavior; and (4) PSD undergoes significant temporal dynamic changes along the frequency gradient, with different frequency intervals reflecting the activity information of different recreational behaviors. In conclusion, this research highlights the effectiveness of using acoustic indices to analyze both the spatial and temporal variation characteristics of public recreational behavior in urban green spaces. The results can provide valuable data support for the enhancement and renovation of urban green spaces.",
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note = "Funding Information: This work was supported by National Natural Science Foundation of China (NSFC): Green Urbanization across China and Europe: Collaborative Research on Key technological Advances in Urban Forests, (Grant No. 2021YFE0193200); Horizon 2020 strategic plan: CLEARING HOUSE—Collaborative Learning in Research, Information sharing, and Governance on How Urban tree-based solutions support Sino-European urban futures, (Grant No. 821242). ",
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AU - Fu, Weicong

AU - Ran, Chengyu

AU - Huang, Jingkai

AU - Chen, Zhu

AU - Fan, Shiyuan

AU - Fang, Wenqiang

AU - Ye, Miaojun

AU - Dong, Jiaying

AU - Yao, Xiong

AU - Chen, Ziru

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