Diversity Monitoring of Coexisting Birds in Urban Forests by Integrating Spectrograms and Object-Based Image Analysis

In the context of rapid urbanization, urban foresters are actively seeking management monitoring programs that address the challenges of urban biodiversity loss. Passive acoustic monitoring (PAM) has attracted attention because it allows for the collection of data passively, objectively, and continu...

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Published inForests Vol. 13; no. 2; p. 264
Main Authors Zhao, Yilin, Yan, Jingli, Jin, Jiali, Sun, Zhenkai, Yin, Luqin, Bai, Zitong, Wang, Cheng
Format Journal Article
LanguageEnglish
Japanese
Published Basel MDPI AG 08.02.2022
Subjects
Acoustic tracking
Acoustics
Audio data
Automation
Batch processing
Biodiversity
Biodiversity loss
biodiversity monitoring; soundscape ecology; spectrograms; acoustic indices; birds; urban forests; object-based image analysis; novel approach
Birds
China
Classification
Coronaviruses
COVID-19
data collection
Ecology
Feature extraction
Forest conservation
Forests
Image analysis
Image processing
Inspection
Monitoring
Morphology
Pandemics
Remote sensing
Sound
Species richness
Spectrograms
Syllables
Urban areas
urban forests
Urbanization
variance
Vegetation
vocalization
Wildlife conservation
Beijing China
China
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Abstract In the context of rapid urbanization, urban foresters are actively seeking management monitoring programs that address the challenges of urban biodiversity loss. Passive acoustic monitoring (PAM) has attracted attention because it allows for the collection of data passively, objectively, and continuously across large areas and for extended periods. However, it continues to be a difficult subject due to the massive amount of information that audio recordings contain. Most existing automated analysis methods have limitations in their application in urban areas, with unclear ecological relevance and efficacy. To better support urban forest biodiversity monitoring, we present a novel methodology for automatically extracting bird vocalizations from spectrograms of field audio recordings, integrating object-based classification. We applied this approach to acoustic data from an urban forest in Beijing and achieved an accuracy of 93.55% (±4.78%) in vocalization recognition while requiring less than ⅛ of the time needed for traditional inspection. The difference in efficiency would become more significant as the data size increases because object-based classification allows for batch processing of spectrograms. Using the extracted vocalizations, a series of acoustic and morphological features of bird-vocalization syllables (syllable feature metrics, SFMs) could be calculated to better quantify acoustic events and describe the soundscape. A significant correlation between the SFMs and biodiversity indices was found, with 57% of the variance in species richness, 41% in Shannon’s diversity index and 38% in Simpson’s diversity index being explained by SFMs. Therefore, our proposed method provides an effective complementary tool to existing automated methods for long-term urban forest biodiversity monitoring and conservation.
AbstractList In the context of rapid urbanization, urban foresters are actively seeking management monitoring programs that address the challenges of urban biodiversity loss. Passive acoustic monitoring (PAM) has attracted attention because it allows for the collection of data passively, objectively, and continuously across large areas and for extended periods. However, it continues to be a difficult subject due to the massive amount of information that audio recordings contain. Most existing automated analysis methods have limitations in their application in urban areas, with unclear ecological relevance and efficacy. To better support urban forest biodiversity monitoring, we present a novel methodology for automatically extracting bird vocalizations from spectrograms of field audio recordings, integrating object-based classification. We applied this approach to acoustic data from an urban forest in Beijing and achieved an accuracy of 93.55% (±4.78%) in vocalization recognition while requiring less than ⅛ of the time needed for traditional inspection. The difference in efficiency would become more significant as the data size increases because object-based classification allows for batch processing of spectrograms. Using the extracted vocalizations, a series of acoustic and morphological features of bird-vocalization syllables (syllable feature metrics, SFMs) could be calculated to better quantify acoustic events and describe the soundscape. A significant correlation between the SFMs and biodiversity indices was found, with 57% of the variance in species richness, 41% in Shannon’s diversity index and 38% in Simpson’s diversity index being explained by SFMs. Therefore, our proposed method provides an effective complementary tool to existing automated methods for long-term urban forest biodiversity monitoring and conservation.
Author Jin, Jiali
Zhao, Yilin
Yan, Jingli
Yin, Luqin
Bai, Zitong
Wang, Cheng
Sun, Zhenkai
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BackLink https://cir.nii.ac.jp/crid/1871146593036354304$$DView record in CiNii
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CitedBy_id crossref_primary_10_1007_s11252_024_01662_7
crossref_primary_10_1016_j_avrs_2024_100177
crossref_primary_10_1007_s10661_023_11237_2
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Snippet In the context of rapid urbanization, urban foresters are actively seeking management monitoring programs that address the challenges of urban biodiversity...
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SubjectTerms Acoustic tracking
Acoustics
Audio data
Automation
Batch processing
Biodiversity
Biodiversity loss
biodiversity monitoring; soundscape ecology; spectrograms; acoustic indices; birds; urban forests; object-based image analysis; novel approach
Birds
China
Classification
Coronaviruses
COVID-19
data collection
Ecology
Feature extraction
Forest conservation
Forests
Image analysis
Image processing
Inspection
Monitoring
Morphology
Pandemics
Remote sensing
Sound
Species richness
Spectrograms
Syllables
Urban areas
urban forests
Urbanization
variance
Vegetation
vocalization
Wildlife conservation
Title Diversity Monitoring of Coexisting Birds in Urban Forests by Integrating Spectrograms and Object-Based Image Analysis
URI https://cir.nii.ac.jp/crid/1871146593036354304
https://www.proquest.com/docview/2632736974
https://www.proquest.com/docview/2675570555
Volume 13
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