Core Viewpoint - The article emphasizes the importance of biodiversity protection for sustainable development and highlights the role of technology, particularly remote sensing, in enhancing biodiversity monitoring and governance efforts globally [1][7]. Group 1: Importance of Biodiversity Protection - The theme for the 2025 International Day for Biological Diversity is "Coexistence and Sustainable Harmony," calling for a harmonious relationship between humans and nature to advance global biodiversity governance [1]. - Policies such as "Opinions on Further Strengthening Biodiversity Protection" and "China's Biodiversity Protection Strategy and Action Plan (2023-2030)" stress the need for accelerating the application of satellite and drone remote sensing technologies [1][2]. Group 2: Technological Advancements in Biodiversity Monitoring - The Satellite Environment Application Center has integrated various remote sensing technologies, including satellites, drones, and LiDAR, with artificial intelligence to overcome traditional monitoring limitations and establish a comprehensive biodiversity monitoring system [2][3]. - The 2024 release of the "Remote Sensing Survey Technical Guidelines for Biodiversity (Terrestrial Ecosystems)" aims to standardize ecosystem classification and remote sensing methods, providing a scientific basis for biodiversity protection measures [2]. Group 3: Ecosystem Health Assessment - Remote sensing technologies enable the rapid acquisition of detailed vegetation structure parameters and ecosystem function metrics, which are crucial for assessing ecosystem health [3]. - The Satellite Center has developed monitoring models for tree quantity and height in national nature reserves and conducted assessments of grassland and wetland ecosystems to understand their health status and changes over time [3]. Group 4: Habitat Monitoring and Species Protection - The establishment of a regular remote sensing monitoring mechanism for critical species habitats is emphasized, utilizing satellite data to assess habitat conditions and human activities [4]. - For instance, the habitat range for snow leopards in the Sanjiangyuan region has decreased by 28,000 square kilometers, highlighting the need for precise spatial data to inform conservation planning [4]. Group 5: Drone Technology in Species Identification - Drone remote sensing offers significant advantages over traditional ground surveys, allowing for extensive monitoring and high-resolution data collection for species identification [5][6]. - The Satellite Center has successfully implemented automated data collection in Inner Mongolia, achieving an 88.6% accuracy rate in identifying various grassland plant species [6]. Group 6: Global Biodiversity Governance - The article discusses the need for a global biodiversity data-sharing platform, integrating remote sensing data with ground observation data to enhance monitoring capabilities [8]. - The establishment of a monitoring framework based on the "Kunming-Montreal Framework" aims to strengthen China's role in global biodiversity governance and address new challenges such as climate change and human-wildlife conflict [9].