Beishan orogenic belt is located in the southern margin of the Central Asian tectonic belt, where the Tarim Plate, North China Plate and Siberia Plate meet, which is the most significant area of the Phanerozoic continental crust accretion and transformation in the world, has become the key area for studying the process from subduction to final collage closure and intracontinental transformation of the Paleo−Asian Ocean, and the process of intracontinental transformation covers the complex process of intracontinental deformation, basin-mountain coupling and readjusting since Late Paleozoic, especially during the Mesozoic and Cenozoic. Previous studies on the Beishan orogenic belt mainly focus on the early subduction and collision process, but the study on the intracontinental stage, especially the Indosinian tectonic process is relatively weak. In the field geological survey of the Heiyingshan area in the northern of the Beishan orogenic belt, we found the Early Paleozoic metamorphic sandstone-volcanic rocks thrust southward onto the carboniferous andesitic volcanic tuff and Triassic acid fused tuff, metamorphic sandstone. By studying the structural characteristics of the thrust system and the zircon U−Pb ages of the upper and lower strata volcanic rocks, it is proposed that the thrust system has nappe from north to south and shows the characteristics of the ‘flyover type’ superimposed structure. The new geochronological data indicate that the thrust nappe system is the result of intracontinental compression in Beishan orogenic belt during the Late Triassic (Late Indosinian). The identification and age determination of the Heiyingshan thrust nappe structure have important significance for a further understanding of the intracontinental tectonic evolution of the Beishan orogenic belt.

Earth system science is a science produced in response to the needs of The Times. It has revolutionized the way of thinking and working paradigm of earth geoscientists. Since its emergence, there have been controversies about whether it is a science and what potential applications it has. Using the method of literature review, this paper analyzed the essential characteristics of Earth system science, including its conceptual connotation, theoretical system, and relationship with geoscience, and summarized the methods and technologies of Earth system science. In view of the different problems to be solved, the paper puts forward the prospect of application of Earth system science in three fields: deep earth process, interactions between lithosphere and outer spheres, interaction between outer spheres. The analysis showed that the Earth system science is not only a natural science view based on geoscience and Systems theory, but also a set of advanced working method system to quantify the interactions of various Earth spheres, which is the key to reveal the mystery of the interactions of Earth spheres and solve the habitability of the earth.

The structural belt in the western margin of the Songliao Basin is a key area for studying the formation and evolution of the Songliao basin. However, regarding the structural framework of this structural belt, the activity history and basin control characteristics are still unclear. This fine definition of deep material architecture and Meso-Cenozoic tectonic evolution in this structural belt provide a new evidence for solving this scientific problem. The Bouguer gravity anomaly and comprehensive geophysical profile characteristics indicate that the structural belt in the western margin of the Songliao basin manifests as a zonally distributed supercrustal deep structural belt. Through a comprehensive analysis encompassing the occurrence, nature and kinematics of the tectonic deformation zone, a "Bifurcated Dual Belt" structural framework is proposed. This framework divides into eastern and western zones, exhibiting opposing inclinations. According to the differences of basement background, tectonic pattern and geophysical characteristics of the structural belt development, a “four-stage” distribution framework is established for the north and south section. Additionally, considering the regional tectonic evolution, the structural analysis of deformation zones, and chronology data, the Meso−Cenozoic tectonic activity chronological framework of six periods is restored, including Late Triassic, Middle to Later Jurassic, middle Early Cretaceous, middle Late Cretaceous, Paleocene to Oligocene and Neogenic to Pleistocene. And combined with the basin-controlling influence of the structural belt, it is emphasized that the middle Jurassic and middle Early Cretaceous sedimentary basins, under the control of the exterior basin belt, hold paramount significance for the exploration, provided new basis for the exploration of petroleum reserves of new strata in northeastern China.

As one of the provinces with large gold resources, Gansu Province has various types of gold ore mineralization and complex metallage, among which magmatic metallogenic is one of the main metallogenic mechanisms of gold deposits, and the prospecting research idea of tectonic−magmatism-metallogenic is more suitable for magmatic gold deposits. The magmatic rock province of Gansu Province can be divided into 10 tectonic magmatic rock belts, which are mainly Beishan tectonic magmatic belt, Qinling−Dabie tectonic magmatic belt, Tarim tectonic magmatic belt, Qilian Mountain tectonic magmatic belt, Altyn tectonic magmatic belt, North Qinling tectonic magmatic belt, etc., these areas are also relatively concentrated areas of gold deposits, and the main types of magmatic gold deposits are magmatic deposits, contact metasomatic deposits, porphyry deposits, magmatic hydrothermal deposits and volcanic rock deposits. Combined with the division of tectonic magmatic rock belts and their main characteristics and the distribution of gold deposits in Gansu Province, this paper focuses on the analysis and study of the temporal and spatial distribution characteristics of magmatic gold deposits and magmatic rocks, the mineral-forming sources and physicochemical conditions of the main types of gold deposits in the Beishan tectonic magmatic belt and the Qinling−Dabie tectonic magmatic belt, summarizes the ore control factors, and proposes the main magmatic rock types, spatial ranges and technical methods that are conducive to gold prospecting.

In recent years, lithium has became one of the important emerging key minerals in the world and has been listed as strategic or critical mineral by China, the United States, Japan, the European Union, and other major economies in the world.The major economies pay more attention to the supply security of lithium resources.This study is conducted to comprehensively understand the global lithium resource characteristics and analyze the market development trend.This paper comprehensively combs the main metallogenic types, distribution characteristics, metallogenic epochs, typical metallogenic belts, as well as the market trends of lithium resources in major countries.In addition, this paper analyzes the supply-demand structure and price trend of global lithium resources, and puts forward several suggestions on ensuring the supply security of lithium resources in China.In general, the global lithium resources are rich, but the distribution, as well as supply and demand are highly concentrated.At present, the supply and demand, as well as the volume and price of international trade of global lithium resources have increased rapidly, with the vigorous development of the new energy industry all around the world.In order to relieve the tense supply situation, there are many lithium resource development projects in the world, and the investment in lithium exploration has increased year by year.As the largest lithium resource consumer in the world, China has insufficient domestic lithium resource supply and the degree of external dependence is up to 67%.Moreover, the lithium resource market of China still has problems such as imperfect industrial chain, weak financial system and weak international competitiveness of enterprises.This paper would provide considerable insights for global lithium resource characteristics, market development trends, and exploration investment.

Scientific and reasonable evaluation of urban underground space resources is an important basis for effectively utilizing underground space resources and preparing underground space planning.Based on the geological conditions of the development and utilization of underground space resources, this paper constructs an evaluation system of geological suitability of underground space resources based on conventional factors and sensitive factors, quantifies the index system, uses the entropy weight method to quantify the index weight, and uses AHP to optimize the entropy weight method.On this basis, the multi-objective linear weighting function method and the most unfavorable grade discrimination method are used to evaluate the geological suitability of underground space, and the Nanshan District of Shenzhen is taken as an example to evaluate the underground space resources.The evaluation results show that 47.81% of the areas with good suitability of underground space resources in Nanshan District of Shenzhen, 43.63% of areas with general suitability, only1.92% of areas with poor suitability, and 3.30% of areas with prohibited construction.The evaluation results can provide some reference for the underground space planning in Nanshan District, Shenzhen.The evaluation model and weight determination method in this paper have certain reference significance for the geological suitability evaluation of underground space resources in the future.

The Xigeda Formation developing in Luding County, Sichuan Province, is mainly composed of semi-diagenetic rocks, which has complex engineering geology properties.Shallow creep deformation of the Xigeda Formation often occurs in the slope with high and steep terrain.It can transform into debris flow after destabilization under the action of heavy rainfall.In this paper, the Huanhuancun landslide in Haiziping developing in the Xigeda Formation was selected as a study case.Based on remote sensing interpretation, field investigation and numerical simulations, we analyzed and calculated the development characteristics of landslides, potential instability modes and the process of landslide-debris flow movement.This study has shown that the Huanhuancun landslide is mainly developed in the Xigeda Formation, mainly in the shallow deformation with a depth of 3~5 m, and is in the creep deformation stage as a whole.The landslide in plane can be divided into strong deformation zone(A) and weak deformation zone(B) with the volume of approximately 5.5×10⁴m³ and 5.8×10⁴m³.Under different rainfall conditions, there are only two forming patterns of disasters: zone A sliding and zone A pulling zone B sliding together and transforming into gully debris flow.When only the zone A slides downslope, the longest movement distance can reach 1325 m, the maximum thickness of deposits is 5.2 m, the maximum velocity is 41.6 m/s, and the sliding body will damage the residential areas and roads.When the zone A and B slides together, the maximum movement distance can reach 1345 m, the maximum thickness of deposits is 7.7 m, the maximum velocity is 44.3 m/s, and the sliding body can rush as far as the other side of the river, forming a landslide dam with a height of about 3 m.The research results have certain guiding significance for deepening the understanding of remote disaster effect of shallow landslide-debris flow and disaster prevention and mitigation.