Core Viewpoint - The Shandong Provincial Geological Bureau's Sixth Geological Team has made significant contributions to national energy resource security and has successfully completed its mineral exploration goals ahead of schedule, showcasing its commitment to innovation and green development [1][12]. Group 1: Achievements and Contributions - The Sixth Geological Team has discovered over 2,800 tons of gold resources, accounting for nearly one-fifth of the national total, and has been recognized as a "Heroic Geological Team" by the State Council [2]. - The team has participated in over 10 major national and provincial scientific projects, winning more than 70 awards at the provincial and national levels, including the National Science and Technology Progress Award [7]. - The team has expanded its operations beyond Shandong, successfully exploring gold reserves in regions like Inner Mongolia, where gold reserves increased from 4 tons to nearly 20 tons over six years [10]. Group 2: Technological Innovations - The team has pioneered the "Jiaojia-style" gold ore formation model, which has gained international recognition and has been instrumental in breaking traditional geological theories [3]. - The integration of artificial intelligence and big data has enabled the construction of multi-layered 3D geological models, significantly enhancing the accuracy of mineral predictions [11]. - Innovative drilling techniques have been developed, such as the "rock core pipe + PVC liner" method, which has improved core recovery rates to over 90% while achieving zero pollution during marine geological surveys [12]. Group 3: Commitment to Green Development - The team has actively promoted green exploration technologies, achieving a balance between geological exploration and ecological conservation, including the restoration of nearly 500 hectares of mountainous areas [13]. - The implementation of green exploration practices has been recognized, with projects like the comprehensive geological survey of Liu Gong Island being highlighted for their environmental benefits [12].

齐鲁晚报·齐鲁壹点记者 李殷婷 编者按：2022年10月，一封寄往山东省地矿局第六地质大队的回信，不仅是对该队全体工作人员的嘉 勉，也是对全国广大地质工作者的巨大鼓舞。这份殷切期望，关乎国家能源资源安全这一"国之大者"， 关乎"艰苦奋斗"精神的薪火相传，也关乎"绿色发展"的时代课题。为此，山东围绕能源矿产、大宗矿产 和战略新兴矿产等重点领域，扎实推进新一轮找矿突破战略行动，提前超额完成"十四五"找矿目标，交 出了一份让人民群众满意的资源安全"山东答卷"。金秋九月，新闻媒体记者践行"四力"要求，深入威 海、烟台、潍坊、济宁、济南、泰安、淄博七地的地质工作一线，近距离、全方位探访山东地矿队伍如 何围绕国家重大战略需求，将殷切嘱托转化为扎实行动，在保障国家能源资源安全和服务民生中，坚定 扛牢"走在前、挑大梁"使命担当。 近日，媒体采风活动的第二站汇聚于烟台的山东省地矿局第三地质大队（以下简称"山东地矿三队"）， 媒体记者先后来到山东地矿三队地质陈列馆和莱山基地，充分了解第三地质大队如何聚焦国家重大战略 需求，勇闯超难科学钻探领域。 探访地质陈列馆，领略深厚底蕴 媒体团一行首先参观了山东地矿三队的地质陈列馆，听取了该 ...

Core Viewpoint - The recent development of a "multi-scale big data fusion-based mineral exploration prediction system" has been awarded a national invention patent, marking a significant advancement in intelligent mineral exploration prediction technology in China [1][2]. Group 1: System Development - The big data intelligent mineral exploration prediction team has created an innovative system that integrates geological big data management, data mining, multi-factor information extraction, multi-scale grid computing, intelligent prediction evaluation, and decision support [1]. - This system effectively combines geological exploration data, knowledge bases, algorithm libraries, model libraries, and software tools into a collaborative platform, enhancing the efficiency and accuracy of mineral exploration predictions [1]. Group 2: Future Directions - The construction of the big data intelligent mineral exploration prediction system is part of a demonstration initiative by the China Geological Survey to deeply integrate AI technology into geological survey applications [2]. - The team plans to further innovate by integrating cutting-edge technologies such as AI, large models, and intelligent agents into mineral exploration prediction, aiming to establish a new working model of "AI+" in geological exploration [2].

Group 1: Core Insights - The Ministry of Natural Resources has reported significant progress in resource management and environmental protection during the "14th Five-Year Plan" period, achieving comprehensive goals set forth in the plan [1][2] - A total investment of nearly 450 billion yuan has been made in new mineral exploration strategies, leading to major breakthroughs in energy resource security and optimization of resource structure [1][2] Group 2: Agricultural and Ecological Developments - By the end of 2024, the national arable land area is expected to reach 1.94 billion acres, an increase of 28 million acres compared to 2020, with several provinces exceeding 100 million acres [2] - The national forest coverage rate has reached 25.09%, an increase of approximately 2 percentage points since 2020, with forest stock volume at 20.988 billion cubic meters [3] Group 3: Spatial Planning and Urbanization - A national land spatial planning system has been established, with comprehensive plans approved at provincial, municipal, and county levels, creating a unified blueprint for land development and protection [3] - The urbanization strategy has been optimized, forming a "two horizontal and three vertical" urbanization pattern and a "seven zones and twenty-three belts" agricultural development framework [3] Group 4: Marine Economy - The marine economy has become a crucial driver of national economic growth, with marine oil and gas expected to account for over 70% of domestic oil increment by 2024 [5] - China's marine industry is now one of the most comprehensive globally, with significant advancements in marine drug development and desalination capacity, exceeding 2.9 million tons per day [5] Group 5: Future Directions - The Ministry of Natural Resources plans to enhance its role as a "big steward" to support high-quality development, focusing on sustainable marine economic growth and further exploration efforts [6]

Core Insights - The Shandong Provincial Coalfield Geological Technology Innovation Conference was held on August 19, where the first batch of key core technology systems from the Shandong Provincial Coalfield Geological Bureau was officially released [1][2] - The technology system covers six major fields, including geological prospecting, deep earth exploration, and marine geology, comprising 14 key core technologies [1] Geological Prospecting - Two key technologies in the geological prospecting field were highlighted: the "air-ground-well" collaborative three-dimensional exploration technology for iron-rich deposits in deep cover areas, and the high-precision comprehensive exploration technology for coal resources [1] Clean Energy Exploration - Three technologies in the clean energy exploration and utilization field were introduced: key technology for deep salt cavern underground space detection and utilization, efficient development and multi-scenario coupling technology for shallow geothermal energy, and key technology for the thermal generation mechanism and exploration of fractured belt geothermal resources [1] Deep Earth Exploration - Two technologies in the deep earth exploration field were presented: high-density three-dimensional seismic imaging technology for coal mining areas and concealed hazard identification technology, as well as metamorphic rock area gold mine deep reflection seismic exploration technology [1] Marine Geology - One technology in the marine geology field was mentioned: key technology for the evolution and restoration of coastal beaches [1] Disaster Prevention and Emergency Rescue - Four technologies in the disaster prevention and emergency rescue field were outlined: large-diameter rapid directional drilling technology for mine emergency rescue, disaster prevention and coal mine gas management technology, three-dimensional comprehensive pipeline dynamic monitoring and intelligent early warning technology, and concealed disaster factor investigation, assessment, and prevention technology [1] Ecological Restoration - Two technologies in the ecological restoration field were discussed: key technology for integrated protection and restoration of mountains, rivers, forests, fields, lakes, grass, and sand, and key technology for green exploration in plain coverage areas [1] Technology Advancement - The key core technologies released have been professionally certified to reach domestic advanced levels and have been successfully applied in multiple real-world cases, demonstrating good technical and economic feasibility and high promotion value [2] - The "Geology+" model, which integrates scientific research with industry, is maturing, contributing significantly to the province's green, low-carbon, and high-quality development [2]

Core Viewpoint - The article discusses the challenges faced by state-owned enterprises in China regarding asset valuation in the context of technological innovation, highlighting the need for improved evaluation methods and regulatory frameworks to adapt to rapid technological advancements [1][10][38]. Group 1: Challenges in Asset Valuation - The speed of technological advancement has outpaced the ability of existing evaluation systems to adapt, leading to difficulties in valuing innovative technologies [2][3]. - A specific case involves a deep-sea exploration patent where the valuation process faced significant disagreements over projected market penetration rates, with the technical team predicting over 30% while evaluators suggested only 15% [6][18]. - The lack of market comparables for certain assets creates a "deadlock" in valuation, as seen in the case of a geological exploration company's data assets, which were undervalued due to the absence of transaction references [28][30]. Group 2: Regulatory Developments - The State-owned Assets Supervision and Administration Commission (SASAC) is working on revising asset evaluation management systems to provide targeted regulations for the valuation of assets in the technology innovation sector [11][38]. - New regulations allow for alternative valuation methods for "core" technologies, but practical implementation remains challenging due to existing evaluation frameworks [19][38]. - The Ministry of Finance is guiding the establishment of a comprehensive asset evaluation standard system, which includes 33 evaluation standards that must be adhered to by evaluation institutions [39][40]. Group 3: Operational Inefficiencies - The current asset evaluation process is lengthy, often taking 2 to 3 months, which discourages investment in innovative enterprises [36]. - There is a general lack of a robust evaluation methodology tailored for state-owned technology enterprises, leading to increased risks in valuation outcomes [35]. - The complexity of operational processes in state-owned venture capital further complicates investment and exit decision-making [36].

Core Insights - The article emphasizes the importance of mineral resources as the foundation for national development and highlights the strategic actions being taken to enhance exploration and resource security during the "14th Five-Year Plan" period [1] - Advanced geological exploration technologies are identified as key to overcoming challenges in resource exploration, with the HyLogger 4 being a significant innovation in this field [1][4] Exploration Technology - The HyLogger 4, introduced during the recent Anbato China Innovation Day, features revolutionary capabilities such as "nano-level resolution + AI mineral prediction," which has sparked interest among mining companies and research institutions [1] - The HyLogger 4 has been officially launched at the Perth Core Library, enhancing the capabilities of geological analysis and reducing costs for exploration projects [2] Investment and Efficiency - The HyLogger 4 is projected to reduce exploration costs by 15-20% and shorten resource discovery cycles by 30%, potentially unlocking billions of Australian dollars in new mining investments [3] - Case studies demonstrate the effectiveness of HyLogger 4 in identifying mineralization targets and improving resource prediction accuracy, thereby lowering drilling costs [3] Advanced Features - The HyLogger 4 integrates full-spectrum, high-precision spectral technology, enabling micron/nanometer-level identification of mineral components and rapid geological modeling [5] - The system operates at a scanning speed of up to 50mm/s, processing core lengths of up to kilometers in a single day, significantly faster than traditional laboratory analyses [6] AI Integration - The AI-driven mineral prediction module in HyLogger 4 enhances the ability to learn regional mineralization patterns and predict the potential of unexplored areas, transforming data collection into intelligent decision-making [8] - The implementation of machine learning and real-time data feedback allows for continuous improvement in the identification of complex minerals, streamlining the exploration process [8]

Core Insights - The article discusses the role of technology innovation platforms in addressing geological disaster prevention and control, emphasizing the need for digital and intelligent solutions to enhance monitoring, early warning, and emergency response capabilities [1][13]. Group 1: Urban Geological Safety - Urban areas face risks from geological disasters due to underground resource extraction and improper construction practices, necessitating improved monitoring and early warning systems [3][4]. - Various technology innovation platforms are developing advanced monitoring equipment to enhance the precision of geological disaster detection and prevention [3][4]. - The establishment of integrated geological safety monitoring systems aims to optimize urban underground space resource utilization and provide intelligent solutions for disaster prevention [4][14]. Group 2: Geological Disaster Prevention Systems - The National Natural Disaster Prevention Research Institute proposed a classification system for geological disaster chains, which includes five major categories and 21 types, laying the theoretical foundation for a comprehensive disaster prevention and response system [5][6]. - The development of a "smart governance" system for geological disasters aims to protect public safety and property by enhancing monitoring and risk management capabilities [5][6]. - The integration of various technologies has led to the creation of a full-chain technical system for disaster risk identification, intelligent early warning, and risk assessment [6][7]. Group 3: Mining Safety and Environmental Restoration - The mining industry faces significant challenges from water-related disasters and slope failures, which hinder high-quality development [9][10]. - Experts are focusing on innovative theories and technologies to address safety management issues in mining, utilizing modern technologies like big data for comprehensive monitoring and risk assessment [10][11]. - The development of a range of technologies for ecological restoration and environmental monitoring in mining areas is underway, with a focus on sustainable practices [11][18]. Group 4: Support for National Strategies - Technology innovation platforms are crucial for supporting major national projects and strategies, particularly in complex geological environments like the Qinghai-Tibet Plateau [19][19]. - The establishment of a coupled typhoon forecasting system has improved the accuracy of marine disaster predictions, supporting offshore renewable energy development and deep-sea mining operations [19][19].

Core Viewpoint - The project "Gold Mine Survey and Evaluation in the Delbur-Morodaga Area of Inner Mongolia" successfully implements a "zero disturbance exploration" approach, balancing drilling activities with ecological protection [7][9]. Group 1: Project Implementation - The project team shifted from traditional trenching to small-angle drilling to minimize surface disturbance and protect the fragile grassland ecosystem [5][7]. - A portable hydraulic modular drilling rig was used, reducing the surface area impact to one-fifth of traditional rigs, with temporary access paths less than 2 meters wide [5][6]. - Environmental protection measures included using a fixed spray system to reduce dust during drilling and implementing a mud circulation treatment process [6][8]. Group 2: Technological Innovations - The project introduced a series of "green drilling" technologies, transforming the previous "ground disturbance" into "zero disturbance" exploration [7]. - The first small-angle drilling achieved a drilling angle of less than 30°, increasing the contact area with the borehole wall by over 40% and enhancing drilling efficiency [8]. - The project team utilized a low center of gravity and high torque drilling platform, along with a directional drilling system, to ensure stability and reduce vibration during drilling [8]. Group 3: Community and Ecological Impact - The project aims to integrate geological exploration, ecological restoration, and rural revitalization, focusing on resource security and regional development [9]. - Collaboration with local herders led to the signing of a vegetation restoration agreement, improving soil quality and guiding agricultural practices [9][10]. - Post-project, the grassland yield in the drilling area increased, benefiting local herders' income through improved crop suggestions [10].

Group 1 - The core point of the article is that the Yu Di Technology Group successfully issued its first phase of technology innovation corporate bonds, amounting to 280 million yuan, with a 3-year term and a coupon rate of 2.0%, marking the lowest historical rate for similar bonds in Henan Province [1][3] - The issuance occurred during a significant period for national support of technology financial innovation, as the People's Bank of China and the China Securities Regulatory Commission announced measures to support technology innovation enterprises in raising funds through the bond market [3] - Yu Di Technology Group, as a key technology enterprise in Henan Province, leveraged its AAA credit rating to respond to national policies on "technology finance," aiming to utilize capital markets to promote innovation and development [3] Group 2 - The bonds are labeled as "technology innovation corporate bonds," benefiting from the "technology board" policy advantages in the bond market, which facilitated efficient review processes and highlighted the company's technological attributes and development potential [3] - The successful issuance of these bonds represents a breakthrough in achieving both policy benefits and reduced financing costs, reflecting investor confidence in the company's technological foundation and development prospects in core areas such as geological exploration and mineral resource development [3] - The company plans to continue enhancing its technological innovation and industrial transformation, focusing on deep mineral exploration, ecological pollution prevention, new material research, and digital construction to strengthen its core competitiveness [3]