公民科学在城市生物多样性调查监测上的应用现状与前景

doi:10.17520/biods.2024464

生物多样性 ›› 2025, Vol. 33 ›› Issue (5): 24464. DOI: 10.17520/biods.2024464 cstr: 32101.14.biods.2024464

所属专题：昆蒙框架目标12下的中国城市生物多样性研究专辑

公民科学在城市生物多样性调查监测上的应用现状与前景

杨梦婵¹^,^*(), 方启年²^,³, 戎灿中⁴^,⁵, 胡思帆²^,³, 赵晶晶²^,³, 梁智健²^,³, 李添明²^,³^,^*()

1.深圳市环境科学研究院, 广东深圳 518022
2.中山大学生态学院, 广东深圳 518107
3.中山大学国家公园与自然教育研究院, 广州, 510275
4.深圳市红树林湿地保护基金会, 广东深圳 518034
5.深圳市福田红树林生态公园, 广东深圳 518048

收稿日期:2024-10-24 接受日期:2024-12-25 出版日期:2025-05-20 发布日期:2025-06-23
通讯作者: 杨梦婵,李添明
基金资助:
南岭国家公园生物多样性综合科学考察(2025267);广东省财政厅国家公园建设专项(2021GJGY034)

Review of the application and outlook of citizen science as an approach for monitoring urban biodiversity

Mengchan Yang¹^,^*(), Qinian Fang²^,³, Canzhong Rong⁴^,⁵, Sifan Hu²^,³, Jingjing Zhao²^,³, Zhijian Liang²^,³, Tien Ming Lee²^,³^,^*()

1. Shenzhen Academy of Environmental Sciences, Shenzhen, Guangdong 518022, China
2. School of Life Sciences, Sun Yat-sen University, Shenzhen, Guangdong 518107, China
3. National Park and Nature Education Research Institute, Sun Yat-sen University, Guangzhou 510275, China
4. Shenzhen Mangrove Wetlands Conservation Foundation, Shenzhen, Guangdong 518034, China
5. Shenzhen Futian Mangrove Ecological Park, Shenzhen, Guangdong 518048, China

Received:2024-10-24 Accepted:2024-12-25 Online:2025-05-20 Published:2025-06-23
Contact: Mengchan Yang, Tien Ming Lee
Supported by:
Comprehensive Scientific Investigation of Biodiversity in Nanling National Park(2025267);Guangdong Provincial Special Research Grant for the Creation of National Parks(2021GJGY034)

1. 附录.pdf(528KB)

摘要/Abstract

摘要： 生物多样性数据是支撑全球生物多样性保护目标实现的重要基础。如何科学高效地开展生物多样性调查监测已成为生物多样性保护管理面临的一大挑战。公民科学作为一种借助大量非专业人员参与数据采集、分析及应用的方式, 可以为推进多元化、常态化、智慧化生物多样性调查监测提供更开阔的思路。为了助力城市履行生物多样性保护与调查监测目标, 本文以140个项目为窗口简要分析了公民科学在当前城市生物多样性调查监测领域的应用状况, 并基于综述研究定性描述了公民科学中的公民参与模式和深化策略。结果表明, 城市生物多样性公民科学在欧美等国外发达国家已引起广泛关注, 我国城市生物多样性公民科学的发展相较国外尽管起步较晚, 但总体都在2019-2020年迎来了一波发展高峰, 在我国京津冀、长三角、珠三角等地区有较为活跃的应用。跨城市项目的成功展现了公民科学在大范围生物多样性调查监测上的活力, 其应用价值越来越受到认同。这些项目在调查监测范围上覆盖了广泛的生物类群, 并对本地物种保育、生物安全及鸟撞等典型城市生物多样性威胁给予关注。参与者受多重需求驱使与基础约束限制, 在统计属性、行为习惯及意愿偏好上表现出了一定特征。本文通过响应参与人群的动机需求与画像特征, 从认知参与、情感参与、行为参与和社会参与4个维度提出了提高参与体验、增加项目可持续性的具体策略。总体上, 从应用现状和政策形势要求来看, 城市生物多样性公民科学都具有良好的发展应用前景。然而, 为了更好地响应国际履约的需要, 我国生物多样性公民科学体系还需进一步促进公民科学的规范化、规模化发展, 深化对提升公民科学包容性的本地化路径的探索, 重视项目设计与全球生物多样性框架数据需求的衔接, 并加强公民科学数据共享及其对管理决策和科学研究的支持。

关键词: 公民参与, 参与动机, 人物画像, 公民科学可持续性, 昆明-蒙特利尔全球生物多样性框架

Abstract

Aims: Biodiversity data is a fundamental component of reaching global biodiversity conservation goals. It is therefore necessary to efficiently and systematically monitor biodiversity to support the Kunming-Montreal Global Biodiversity Framework (KMGBF) implementation. To reach these objectives, citizen science is a powerful approach, enabling countries to promote diverse and systematic biodiversity monitoring. However, there are few studies on how effectively citizen science has been applied to monitoring urban biodiversity. To fill this gap in the literature, the goal of our study was to develop a better understanding of the status and strength of urban biodiversity citizen science as well as the features that affect public involvement.

Methods: We collected 140 citizen science projects across the globe that were related to urban biodiversity monitoring. The temporal, geographical, and taxonomic coverage of these projects were analyzed to review how citizen science has been applied monitoring urban biodiversity. Additionally, Maslow’s need theory was used to summarize motivations and barriers affecting engagement in biodiversity monitoring. Finally, the profile of the “citizen scientists” was described to reveal their demographics, customs, and preferences, enabling us to generate strategies to promote these projects moving forward.

Results: Urban biodiversity citizen science has attracted attention in developed countries such as Europe and America, and in China it has been applied in the Beijing-Tianjin-Hebei region, Yangtze River Delta, and Pearl River Delta. The success of these transregional projects demonstrates how viable citizen science was for large-scale biodiversity monitoring. In China, urban biodiversity citizen science was deployed later than other countries, its application peaked between 2019 and 2020, while its benefits have been increasingly recognized. These projects have covered a wide range of biological taxa, and they have focused on native species conservation, biosecurity, and typical urban biodiversity threats such as roadkill and bird collisions. Citizen scientists in biodiversity monitoring projects had consistent demographic characteristics, habits, and participation preferences. In turn, these characteristics and motivations were used to propose specific strategies to improve the participation experience and enhance the project sustainability in citizen science, particularly in the forms of cognitive, emotional, behavioral, and social engagement.

Conclusion: This review revealed the promising development of urban biodiversity citizen science, especially in light of its current applications and our global needs for biodiversity conservation policy. However, in order to achieve the KMGBF targets, it is necessary to promote a standardized and scaled development of these citizen science programs. Future studies should explore localized pathways to increase the inclusivity of citizen science. Additionally, projects should focus on aligning their objectives with data needs related to the KMGBF, and it is necessary to enhance data sharing to support decision-making and scientific research.

Key words: citizen engagement, engagement motivation, participant profile, sustainability in citizen science, Kunming-Montreal Global Biodiversity Framework (KMGBF)

杨梦婵, 方启年, 戎灿中, 胡思帆, 赵晶晶, 梁智健, 李添明 (2025) 公民科学在城市生物多样性调查监测上的应用现状与前景. 生物多样性, 33, 24464. DOI: 10.17520/biods.2024464.

Mengchan Yang, Qinian Fang, Canzhong Rong, Sifan Hu, Jingjing Zhao, Zhijian Liang, Tien Ming Lee (2025) Review of the application and outlook of citizen science as an approach for monitoring urban biodiversity. Biodiversity Science, 33, 24464. DOI: 10.17520/biods.2024464.

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链接本文: https://www.biodiversity-science.net/CN/10.17520/biods.2024464

https://www.biodiversity-science.net/CN/Y2025/V33/I5/24464

图/表 5

图1 公民科学项目启动时间分布

Fig. 1 Temporal distribution of citizen science projects

图2 公民科学项目地理分布

Fig. 2 Geographical distribution of citizen science projects

图3 公民科学项目涵盖目标内容

Fig. 3 Coverage of target species and groups of citizen science projects

图4 公民科学项目中的公民参与动机层次

Fig. 4 Hierarchy of participant engagement (de)motivation factors in citizen science projects

图5 公民科学项目中深化公民参与的路径

Fig. 5 Pathway to promote citizen engagement in citizen science projects

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公民科学在城市生物多样性调查监测上的应用现状与前景

Review of the application and outlook of citizen science as an approach for monitoring urban biodiversity

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