1、环境科学与工程系王梓萌团队在青藏高原冻土中发现大量“冬眠

这项研究成果以“青藏高原冻土储藏大量卤代有机物”（Substantial halogenated organic chemicals stored in permafrost soils on the Tibetan Plateau）为题，于2023年10月23日在《自然·地球科学》（Nature Geoscience）上发表。

2、Dechen Tsering: Establish A Global Treaty to End Plastic Pollution

These initiatives include everything from the launch of fully recyclable products to investments in recycling infrastructure. Over 200 businesses have signed on to 2025 targets under the New Plastics Economy Global Commitment.

3、生物新方法重建青藏高原东北部快速隆升历史

科研团队从与海拔关系密切的山地针叶树类群入手，发现适宜在山地中低海拔生长的铁杉属、罗汉松属和偏爱中高海拔的冷杉属和云杉属可以作为良好的海拔指示计。 科学剔除纬度效应等的影响后，研究团队创新性地构建了一种定量刻画过去海拔的植物孢粉新指标，建立了现代海拔计算方程，并用第四纪以来青藏高原地区的孢粉记录验证了其准确性。

守护好世界上最后一方净土

开展这次科学考察研究，揭示青藏高原环境变化机理，优化生态安全屏障体系，对推动青藏高原可持续发展、推进国家生态文明建设、促进全球生态环境保护将产生十分重要的影响。 希望你们发扬老一辈科学家艰苦奋斗、团结奋进、勇攀高峰的精神，聚焦水、生态、人类活动，着力解决青藏高原资源环境承载力、灾害风险、绿色发展途径等方面的问题，为守护好世界上最后一方净土、建设美丽的青藏高原作出新贡献，让青藏高原各族群众生活更加幸福安康。 ——《致中国科学院青藏高原综合科学考察研究队的贺信》（2017年8月19日），《人民日报》（2017年8月20日） 学习札记.

第二次青藏科考成果显示：过去15年青藏高原生态系统整体趋好

自2017年第二次青藏科考启动以来，围绕亚洲水塔变化与影响等课题，持续开展覆盖青藏高原的全域科考，将对推动青藏高原可持续发展、推动国家生态文明建设、促进全球生态环境保护产生重要影响。 新华社拉萨8月18日电（记者李华、魏冠宇）第二次青藏高原综合科学考察研究成果发布会18日在西藏召开。 来自中国科学院青藏高原研究所、中国气象科学研究院、北京大学、兰州大学等单位的科研专家相聚拉萨，集中发布本次科考十大任务七年来的重要成果。 8月18日，嘉宾宣布“守护水塔：‘一原两湖三江’重大标志性科考活动”启动。 新华社记者 姜帆 摄 科考发现，作为亚洲水塔的青藏高原正在变暖、变湿、变绿。

八上高原寻找远古人类

2017年5月到2018年4月，细心打磨了近一年时间，张晓凌团队向《科学》（Science）杂志提交了研究论文“The earliest human occupation of the high-altitude Tibetan Plateau 40-30 thousand years ago”，公布了来自尼阿底遗址这处来自青藏高原腹地的重大考古发现及相关研究成果。

China Focus: Young faces emerge in ecological conservation quest on

Just last month, China's top legislature adopted a law on ecological conservation on the Qinghai-Tibet Plateau to protect the fragile ecosystem of this area of around 2.58 million square km.

Tibet uses sci

As a treasure trove of cultural relics with unique styles and great history, southwest China's Tibet Autonomous Region has made steady progress in the science-based protection of cultural relics over the past few years.

第二次青藏科考重要成果集中发布

第二次青藏高原综合科学考察研究，8月18日在拉萨集中发布重要成果。 自2017年8月启动以来，第二次青藏科考持续开展覆盖青藏高原五大综合区内19个关键区的全域科考，取得了亚洲水塔变化与影响、碳汇功能和潜力、生态系统与生物多样性变化、人类高原适应与绿色发展、高原隆升效应等世界级原创成果。 据了解，第二次青藏科考建立了青藏高原地气互动作用观测平台，自主研发了中国首个获得全球碳计划认证的大气碳反演系统，构建了服务山水林田湖草沙冰一体化保护与系统治理的地球系统多圈层综合观测与预警平台，构建了目前全球最大的青藏高原冰川细菌和病毒基因集等重大成果。 科考发现，青藏高原生态系统整体趋好、亚洲水塔将进入超暖湿阶段、人类活动 …

Tackling Climate Change, Protecting Eco

Initiated in 2017, the second Tibetan Plateau Scientific Expedition and Research has achieved more than just the GONGGA inversion system. Progress has also been made in the investigation of resources and environment.

Nestled in the heart of the Tibetan Plateau lies a hidden corner long forgotten by the world—a region renowned for its production of Gumalong resin. This unique resin resource, originating from the highlands of Tibet, has become a pillar of local economic development due to its distinct chemical properties and broad application prospects. with growing environmental awareness and the implementation of sustainable development strategies, traditional methods of Gumalong resin recycling face severe challenges.

Tibetan Gumalong resin recycling manufacturers, situated in the core of the Qinghai-Tibet Plateau, boast unparalleled natural environments and abundant natural resources. The resin here is not only plentiful in reserves but also superior in quality, serving as an excellent raw material for crafting various art pieces, building materials, and chemical products. The region’s unique geographic and climatic conditions allow the resin to maintain stability over extended periods in dry environments, enabling long-term storage.

The production process of Gumalong resin is complex and meticulous. It begins with extracting pure resin liquid from collected sap, a step that requires multiple filtrations and precipitations to ensure impurities are thoroughly removed. The resin liquid is then heated to a precise temperature to induce chemical reactions, forming stable gel-like substances. Temperature control during this phase is critical, as even minor deviations can compromise the resin’s quality. Finally, the gel-like resin undergoes drying to reduce moisture content, facilitating storage and transportation.

With advancements in technology, Tibetan Gumalong resin recycling manufacturers are exploring more eco-friendly and efficient recovery methods. Traditional approaches often involve significant energy consumption and environmental pollution, prompting industries to adopt biodegradation technologies and circular utilization strategies. For instance, microbial fermentation converts organic compounds in the resin into reusable resources, reducing waste while enhancing resource efficiency.

Despite these innovations, manufacturers confront numerous challenges under increasingly stringent environmental regulations and market demands. Traditional recycling methods are inefficient for large-scale production, while pollution concerns loom as society prioritizes environmental protection. To address these issues, manufacturers are actively seeking technological breakthroughs to develop greener and more efficient recycling processes.

Policy support plays a pivotal role in advancing the Tibetan Gumalong resin recycling industry. Government incentives, such as tax breaks and funding subsidies, aim to foster green transformation and sustainable development. These policies create favorable external conditions and opportunities for local manufacturers.

Looking ahead, the Tibetan Gumalong resin recycling sector is poised for new growth. Technological progress and expanding markets will enable manufacturers to overcome challenges and achieve industrial upgrading. By strengthening international collaboration and adopting advanced technologies and management practices, enterprises can enhance their competitiveness and global influence.

In this era of challenges and opportunities, Tibetan Gumalong resin recycling manufacturers stand at a new starting point. Only through relentless innovation and bold breakthroughs can they thrive in the competitive market and contribute significantly to environmental conservation in Tibet and beyond.