Core Points - The "Rule of Law Government Award" was recently announced, with the Shijingshan Branch of the Beijing Planning and Natural Resources Committee winning for its project focused on grassroots governance and legal administration [1][2] - The award, initiated by the China University of Political Science and Law, evaluates the measures taken by various government agencies to promote lawful administration and build a rule of law government, having been established in 2010 and gaining significant social impact over seven editions [1] Summary by Sections - The Shijingshan Branch has utilized the "immediate response to complaints" reform to enhance legal thinking and capabilities, focusing on addressing citizen demands through collaboration among government departments [2] - A "three-dimensional" work system centered on immediate response to complaints has been developed, which includes a "system + hotline" framework to solidify legal guarantees, a "supervision + hotline" system to improve complaint resolution, and a "governance + hotline" system to elevate service levels [2] - The branch's leadership emphasized that legal construction is an ongoing process, and the award will serve as a new starting point to further promote the rule of law government, benefiting the community and contributing to high-quality development in Shijingshan District [2]

Core Points - The China-Thailand Marine Polar Cooperation Month activities were held from May 19 to 23, organized by various institutions including the Ministry of Natural Resources of China and the Princess Sirindhorn Foundation [1][2] - This year marks the 50th anniversary of diplomatic relations between China and Thailand, with the launch of joint activities highlighting the deep friendship between the two nations [1] - The activities included the visit of the "Xuelong 2" ship and the 41st Chinese Antarctic Expedition team, as well as the 8th China-Thailand Marine Cooperation Joint Committee meeting and an international polar academic conference [1] Industry Cooperation - China and Thailand have achieved significant results in marine and polar cooperation, establishing joint laboratories and implementing flagship projects in marine disaster prevention, ecological protection, and polar research [2] - The collaboration has facilitated the participation of Thai scientists in Chinese expeditions to the Arctic and Antarctic, enhancing practical cooperation in various scientific fields [2] - Future plans include a China-Thailand Marine Cooperation Achievement Exhibition and a China-ASEAN Marine Cooperation Forum to further strengthen knowledge and technology sharing [1][2]

Core Viewpoint - The event "Understanding the Polar Regions, Protecting the Polar Regions, Utilizing the Polar Regions" aims to promote polar science knowledge among students, enhancing their interest in scientific exploration and environmental protection [3][29]. Group 1: Event Overview - The event took place on May 22 at Jiangling County First High School in Hubei Province, organized by various governmental and educational institutions [3]. - It featured presentations and discussions on polar science, including the history of China's polar expeditions and the significance of polar research [3][29]. Group 2: Presentations and Topics - The first speaker, He Fang, discussed the polar space environment and its relevance to daily life, including the observation of auroras [8][12]. - The second speaker, Su Duo Wu, focused on gravity measurement in Antarctica, highlighting the challenges faced by researchers in extreme weather conditions [12][16]. - Zhang Sheng Kai, the third speaker, shared insights on the application of remote sensing in polar research, emphasizing the use of China's BeiDou navigation system [16][20]. Group 3: Interactive Segment - A video call with Liu Jianjun, the leader of the 41st Antarctic expedition, provided students with real-time insights into life at the Zhongshan Station, including current weather conditions and personal experiences [20][23]. - Liu expressed pride in connecting with students and emphasized the importance of inspiring youth to engage in polar science and environmental protection [23][29]. Group 4: Impact on Students - The event successfully opened a new avenue for students to learn about polar science, fostering enthusiasm for scientific exploration and environmental stewardship [29]. - It aimed to plant the seeds of interest in polar research among students, encouraging them to contribute to future scientific endeavors [29].

海洋是高质量发展的战略要地，也是青岛最鲜明的城市特色和优势所在。其中，科技创新及成果转化是发挥青岛海洋特色和比较优 势，形成新质生产力的重要前提，也是推动海洋经济高质量发展的核心动力。 在近日举办的青岛海洋产学研协同创新产业化落地对接会上，12个青岛市海洋科技成果转化典型案例（2024年度）发布，集中展现青 岛在重点海洋产业领域海洋科技水平及成果转化成效。其中，中国科学院海洋研究所"海洋水文实时智能观测系统"项目，利用研制的潜 标、浮标等，实现了海洋水文要素的实时观测，已成功应用于多个国家重点工程项目，有效催生海洋新质生产力。 聚焦产业需求 海洋波浪、剖面温盐深和剖面海流（流速、流向）等是最主要的海洋水文要素，系统性长期获取立体性的海洋水文数据，是开展洋 流、中尺度涡和内波研究的基础，并对于海洋工程建设、船舶通航安全保障、海洋环境安全保障，以及海洋环境保护等具有重要作用。 基于此，海上风电或者海洋核电建设规范中，明确要求对所选场址内的多点进行四季全潮水文观测，并在场址内典型站点开展水文周 年观测。传统观测方式是调查人员搭载调查船现场手动观测，费时费力，且数据质量不高。无人自主实时观测在节省人力物力的同时，提 ...

Core Viewpoint - The article highlights the research journey of Ouyang Hegen, a young scholar in the field of geology, focusing on his contributions to molybdenum ore formation theories and the challenges he faces in advancing mining exploration strategies in China. Group 1: Research Background - Ouyang Hegen began his academic journey in 2003 at East China University of Technology, where he studied resource exploration engineering, a national key discipline [5]. - His interest in geology was ignited during a research expedition in 2008, where he participated in a scientific survey in Papua New Guinea, leading to a passion for geological research [6][7]. - After completing his master's degree, he pursued a PhD at China University of Geosciences (Beijing), focusing on mineralogy and petrology, and developed a theoretical model for ore formation [10][11]. Group 2: Focus on Molybdenum Research - Since 2017, Ouyang has dedicated his research to the formation mechanisms of molybdenum ores, leveraging China's significant molybdenum resource reserves, which account for about one-third of the global total [9][18]. - He has proposed a new molybdenum ore formation mechanism that challenges traditional theories, suggesting that mantle-derived magma assimilates reduced crustal materials to form molybdenum deposits in arc environments [10][19]. - His research indicates that the northeastern region of China has vast potential for molybdenum exploration, while the potential for copper mining is limited [11][19]. Group 3: Challenges and Strategies in Mining Exploration - Ouyang identifies two main challenges in the "mining for mining" strategy, which involves exploring known mining areas for hidden deposits: complex geological conditions in deep areas and the limitations of traditional exploration technologies [12][21]. - He advocates for a systematic approach to improve geological data management and the use of advanced technologies, such as 3D modeling and artificial intelligence, to enhance exploration efficiency [14][22]. - Ouyang emphasizes the importance of integrating new theories, innovative exploration methods, and advanced technologies to effectively implement the "mining for mining" strategy [12][22].

本报讯日前，以"地热赋能双碳，创新驱动未来"为主题的中国地质学会地热专业委员会2025年年会 在天津召开。与会专家围绕地热领域的新技术、新理论和新模式展开深入交流，从多维度探讨地热行业 格局变化，深入研究前沿技术突破与创新应用，并针对不同区域特点提出了差异化的地热产业发展路径 建议。 在特邀报告环节，十余位来自高校、科研院所的专家分享了地热领域的最新研究成果与经验。中国 工程院院士谢和平以"中低温地热发电新技术探索"为题，聚焦中低温地热发电前沿技术探索，分享了中 低温地热发电的创新思路与技术路径。本次大会还设置了六个专题分会场，包括资源勘探与数字化赋 能、深部地热与关键技术突破、地热综合利用与多能协同、可持续发展与生态保护、区域特色与国际合 作、地热监测与试验研究。 本次学术会议搭建了地热能源领域的专业交流平台，汇聚了来自清华大学、中国地质大学（武 汉）、吉林大学等知名高校以及中国地质科学院、中国科学院广州能源所等科研机构的专家学者。会议 积极响应新时代地质工作发展要求，把握人工智能技术革命带来的战略机遇，旨在通过产学研深度融合 推动地热领域关键技术创新，为我国地热产业高质量发展提供强有力的智力支持和技术支撑 ...

Group 1 - The project "Research on the Mechanism of Geological Disaster Risk and Prevention in the Wumeng Mountain Area" led by the China Geological Environment Monitoring Institute has made significant breakthroughs in key areas since its implementation in 2024, including the distribution patterns of geological disasters, mechanisms of major geological disaster instability, and risk analysis software development [1][2][16]. - The project focuses on the Zhenxiong County as the core research area, revealing major controlling factors and deep disaster mechanisms of geological disasters in the Wumeng Mountain area through the study of disaster material basis, stratigraphic structure, and geomorphological styles [2][16]. - Advanced technologies such as thermal infrared remote sensing and artificial intelligence have been utilized to develop new methods for slope deformation detection and intelligent models for precise identification of landslide hazards, providing technical support for geological disaster investigations in Yunnan Province [2][16]. Group 2 - The project has established a geological structure model for landslide susceptibility in coal mining subsidence areas and improved a three-dimensional scientific observation system for typical landslides, revealing the destruction patterns and instability mechanisms under coal mining activities [2][17]. - The next steps include expanding the research to include key counties such as Yiliang, Yanji, and Daguan, enhancing the coupling analysis of geological disaster data, and promoting the efficient transformation of research results into practical applications to support regional economic and social sustainable development [3][17].

Core Viewpoint - Jiangsu Province's Natural Resources Department is implementing an innovation-driven development strategy and standardization to enhance the quality of natural resource management through the establishment of a "Standard Innovation Base" for geological minerals and ecological protection and restoration [1][18]. Group 1: Standard Innovation Base Development - The Standard Innovation Base aims to promote high-quality development in the natural resources sector by integrating resources along the industrial chain and establishing an innovative alliance centered around standards [1][3]. - Since its establishment, the base has undertaken 25 standard drafting tasks and published 12 standards, creating a standard system for geological minerals and ecological protection [1][3][18]. Group 2: Pilot Projects and Standardization - The base has implemented pilot projects to summarize experiences and form guidelines, which are then converted into standards, ensuring a positive cycle of standardization that supports comprehensive advancement [3][19]. - A provincial standard for groundwater resource investigation has been successfully established, providing a model for nationwide practices [19]. Group 3: Reform Implementation - Jiangsu Province is actively implementing reforms in collective forest rights and has developed a multi-layered cadastral survey method to address historical issues in land rights registration [5][20]. - The base has created local standards for land rights surveys, resolving inconsistencies and improving the efficiency of land rights registration processes [5][20]. Group 4: Underground Space Resource Management - The province is advancing pilot projects for underground space resource surveys, developing standards for classification and management of underground resources [7][21]. - A standard for urban digital underground space data integration has been established, supporting the development of data centers and smart platforms [7][21]. Group 5: Industry Development Support - The Standard Innovation Base has analyzed the current state of geological minerals and ecological restoration, creating a clear and coordinated standard system to enhance the foresight of standard formulation [9][21]. - Standards related to selenium-rich land resource utilization have been developed, supporting the certification of over 200,000 acres of natural selenium-rich land [9][21].

Core Viewpoint - The event "Understanding the Polar Regions, Protecting the Polar Regions, Utilizing the Polar Regions" aims to promote polar science knowledge and engage the public in polar work, highlighting the importance of polar research and education [3][12]. Group 1: Event Overview - The event took place at Wuhan University on May 21, 2025, and was organized by multiple institutions including the National Oceanic Administration and Wuhan University [3]. - It featured a screening of the documentary "Ice Road Journey," which commemorated 40 years of China's polar exploration [4]. Group 2: Lectures and Presentations - Lectures were delivered by experts, including He Fang, who discussed the connection between polar space environments and daily life [7]. - Su Duowu shared insights on absolute gravity measurement during Antarctic expeditions, emphasizing the rigor of polar scientific work [8]. - Zhang Shengkai presented on the application of surveying and remote sensing in polar research, recounting a significant moment in China's Antarctic exploration history [8]. Group 3: Student Engagement - The event included a video connection with Liu Jianjun, the head of the Zhongshan Station, who shared daily operations and research achievements, showcasing the stunning Antarctic landscape [11]. - Students actively participated by asking questions about polar research and expressed their aspirations to contribute to scientific exploration [11].

编者按：你刷到过"最诗意岗位"的新闻吗？每年夏天，都会有几名志愿者登上浙江的无人岛，守护被称为"神话之鸟"的中华凤头燕鸥——不仅能保护濒 危动物，还能享受海岛美景。2024年夏天，志愿者徐博文从3000多名报名者中脱颖而出，当了两个月的"孤岛守鸟人"。 2003年，陈水华带领团队调查了舟山群岛1300多座岛屿，发现了燕鸥家族的其他成员，但没能找到中华凤头燕鸥。2004年8月1日，调查团队在宁波市象 山县韭山列岛一座名为将军帽的无人岛上，找到了混群在近4000只大凤头燕鸥中的15只中华凤头燕鸥。 这两种燕鸥，同是鸥科凤头燕鸥属的近亲，体型相似。它们外形上的区别在于，中华凤头燕鸥羽色更白，喙大部分是橙黄色，喙尖黑色，曾被称为黑嘴 端凤头燕鸥。 然而，2004年夏季的两场台风使燕鸥群繁殖失败并再次消失。直到2007年6月，8只中华凤头燕鸥才又回到了将军帽岛。象山韭山列岛国家级自然保护区 专门派了一艘船守在小岛边，但在护岛船补充物资的空当，有不法分子趁夜盗走了所有鸟蛋。台风、人为干扰，以及蛇、鼠、游隼等天敌捕食是导致燕鸥等 野生海鸟种群繁殖失败的主要威胁因素。天灾人祸接踵而来，中华凤头燕鸥种群日益凋零。 幸好，200 ...