Topics

Default Latest Most Read

Please wait a minute... For Selected: Download Citations EndNote Ris BibTeX Toggle Thumbnails Select Chinese Journal of Polar Research    2024, 36 (3): 0-0.   Abstract （178）      PDF（pc） （173KB）（192）       Knowledge map    Save Related Articles | Metrics | Comments（0） Select The progress and prospect on the 40th anniversary of Chinese Arctic and Antarctic Scientific Expeditions LIU Shunlin Chinese Journal of Polar Research    2024, 36 (3): 317-328.   DOI: 10.13679/j.jdyj.20240079 Abstract （1008）      PDF（pc） （409KB）（1791）       Knowledge map    Save Scientific research plays an important role in enhancing polar knowledge, protecting polar environment and ecosystem, rational utilization of polar resources, and promoting the development of polar technology. Since China’s first Antarctic expedition in 1984, the country’s polar scientific research has made breakthrough progress. It has built a polar scientific research support platform which contains 7 research stations and 2 research vessels, constructed an atmosphere-land-ocean polar observation network, developed multiple sets of sampling equipment such as polar deep ice core drilling tools, organized and implemented polar projects such as “Comprehensive Investigation and Evaluation of the Arctic and Antarctic Environment”, and achieved research results in multiple fields such as the instability of polar ice caps and their response to global change. It has successfully implemented international cooperation projects such as “The Prydz Bay, Amery Ice Shelf and Dome A Observatories” (PANDA). In the future, we should further improve the polar scientific research platform, enhance the long-term observation and monitoring capabilities of the Antarctic ice sheet and the central Arctic Ocean, carry out major polar scientific research activities such as drilling of the Antarctic subglacial lake, promote the international cooperation utilizing the scientific research platforms such as the marine laboratory at Antarctic Qinling Station, and make greater contributions to understanding, protecting, and utilizing the polar regions. Reference | Related Articles | Metrics | Comments（0） Select Progress of CHINARE on the pattern of Antarctic marine biogenic elements and their ecological and environmental effects PAN Jianming, ZHAO Jun, LI Dong, ZHANG Haifeng, YU Peisong, ZHANG Cai, YANG Xufeng, ZHU Changfeng1, HU Ji1, HU Chuanyu, FAN Gaojing, HAN Zhengbing1, SUN Weiping, TAO Keyu, LAN Musheng, ZHANG Haisheng Chinese Journal of Polar Research    2024, 36 (3): 329-342.   DOI: 10.13679/j.jdyj.20240033 Abstract （358）      PDF（pc） （6753KB）（704）       Knowledge map    Save The investigation of patterns of biogenic elements in the Antarctic marine environment and their ecological and environmental effects is crucial for understanding global climate change, carbon cycling, and interactions within ecosystems. It also provides a scientific foundation for predicting the evolutionary patterns of the Southern Ocean ecosystem. Since inaugural Chinese National Antarctic Research Expedition (CHINARE) in 1984, extensive surveys of the Southern Ocean have been conducted over the years. By utilizing national initiatives such as the “Chinese Pole Environment Comprehensive Investigation & Assessment Programmes” and the “Impact and Response of Antarctic Seas to Climate Change”, continuous and methodical research has been carried out on critical scientific matters concerning the development of the Southern Ocean ecosystem and its environmental components, leading to significant discoveries. This review article examines the Chinese research advancements related to the distribution of marine biogenic elements in the Southern Ocean and their ecological and environmental impacts. It primarily synthesizes research outcomes on the interrelationship between marine biogenic element cycling and planktonic ecosystems, the flux of biogenic material deposition and its seasonal variations, and sedimentary records of upper ocean processes. The ecological processes of Antarctic polynyas and their responses to global climate change are preliminaries discussed. Some suggestions are put forward for the future ecology and environment investigation in the Southern Ocean. Reference | Related Articles | Metrics | Comments（0） Select Isotopic insights into the operation and mechanisms of biological pumps in polar oceans CHEN Min, FAN Lingfang, WANG Bo, CHEN Yangjun, ZHANG Run, FANG Ziming, YANG Weifeng, ZHENG Minfang, CHEN Mengya Chinese Journal of Polar Research    2024, 36 (3): 343-351.   DOI: 10.13679/j.jdyj.20240026 Abstract （306）      PDF（pc） （2281KB）（486）       Knowledge map    Save The biological pump is one of the important pathways for the net absorption of atmospheric CO2 and is also a key linkage between the upper ocean and benthic ecosystems in the polar oceans. This article summarizes the research on biological pumps carried out systematically in the Prydz Bay, Amundsen Sea, Cosmonaut Sea, Bering Sea, Chukchi Sea, Canada Basin, and other Arctic and Antarctic seas in the past 10 years by utilizing the unique functions of radionuclides and stable isotopes. These studies depicted the dynamic characteristics and spatial variation of processes such as biological uptake of carbon, export of particulate organic carbon, degradation of organic matter, regeneration of nutrients, and burial of sedimentary organic matter. In addition, the effects of environmental factors such as freshwater components, particle concentration, and trace Fe on the biological pump were also explored. Our study found that freshwater components, such as sea ice meltwater, glacier meltwater/river water, etc., affect the spatial variation of carbon fixation rate, Fe uptake rate, and POC export flux by changing water stratification, light availability, and nutrient supply; organic matter degradation and nitrification dominate the nutrient regeneration; and the formation of Antarctic bottom water and the cross-shelf transport of particulate matter affect the surface-bottom coupling of biological pumps. Facing the dual pressures of future climate change and human activities, it is urgent to strengthen research on the interaction between biological pumps and food webs to accurately grasp the laws and mechanisms of changes in polar marine ecosystems. Reference | Related Articles | Metrics | Comments（0） Select Research progress on polar marine microorganisms in China ZHANG Xiying, ZHANG Yuzhong Chinese Journal of Polar Research    2024, 36 (3): 352-360.   DOI: 10.13679/j.jdyj.20240050 Abstract （426）      PDF（pc） （329KB）（412）       Knowledge map    Save Polar marine environments contain rich microbial resources, and their unique life characteristics and special mechanisms for adapting to extreme environments and ecological effects all have important scientific research significance and application development prospects. Reviewing research of China in the field of polar marine microorganisms in the past decade, major progress includes: (1) the revelation of unique structures and functions of microbial communities and the geographical characteristics of genes related to the DMS/DMSP cycle and cultivable bacterial genomes in the Arctic and Antarctic oceans; (2) the discovery of a new ecological function to resist predation by protozoa by metabolizing DMSP, a new temperature response mechanism, and a new metabolic pathway for chitin oxidation degradation of polar marine bacteria; (3) the revelation of a role of a phage in regulating polar marine bacterial populations; (4) the elucidation of catalytic mechanisms of a series of novel organic matter-degrading enzymes from polar marine bacteria and their application potentials; (5) the establishment of processes for preparing an extracellular polysaccharide from a polar marine bacterium and the evaluation of its application potential in fields such as medicine and food; (6) the isolation and identification of a series of polar marine bacterial taxa. These research findings have been published in internationally renowned journals such as Nature Microbiology, Nature Communications, Microbiome, and ISME Journal, elevating the level, impact and voice of China’s research on polar marine microorganisms. In the future, strengthening interdisciplinary research and the application of cutting-edge technologies will be the direction to further promote the development of polar marine microbiological research in China. Reference | Related Articles | Metrics | Comments（0） Select Current status and demand analysis of polar microbial resources research and development LIAO Li, SHAN Yanyan, YU Yong, QIN Qilong, LI Chunyang Chinese Journal of Polar Research    2024, 36 (3): 361-374.   DOI: 10.13679/j.jdyj.20240031 Abstract （330）      PDF（pc） （657KB）（586）       Knowledge map    Save Polar regions, due to their extreme natural environments and relative geographic isolation, have evolved unique and diverse microbial resources. Polar microbes harbor the secrets of life’s tolerance to extreme environments and play a crucial role in biogeochemical cycles. Their research can provide valuable insights for life sciences, geology, astrobiology, and other fields, making them scientifically significant. Meanwhile, the novel species, genes, and products of polar microbes constitute an important component of polar natural resources and are strategically important for sustainable utilization, possessing practical economic value and social benefits. Based on detailed scientific data, literature reports, patents, case studies, and international investment analysis, this study profoundly elucidates the importance of polar microbial research, summarizes the trends and needs in polar microbial research and development, and puts forward corresponding research and development suggestions. The results of this study can provide a reference for the layout of research, policies, and projects related to polar microbial resources. Reference | Related Articles | Metrics | Comments（0） Select Change and Trend of Atmospheric Energy in the Arctic Troposphere KONG Linlin, ZOU Han, ZHOU Libo Chinese Journal of Polar Research    2024, 36 (3): 375-390.   DOI: 10.13679/j.jdyj.20240039 Abstract （262）      PDF（pc） （2766KB）（302）       Knowledge map    Save Under the Arctic rapid changes, the increases of temperature and humidity in the Arctic troposphere indicate a possible basic state change of the Arctic troposphere. As a measure of basic atmospheric state, whether and how atmospheric energy changes in the Arctic troposphere is an important scientific issue to Arctic researchers. Based on a brief review of the studies on surface-air energy exchange, lateral boundary energy exchange and atmospheric energy change in the Arctic troposphere, the physical images and basic data of atmospheric energy change and trend in the Arctic troposphere are given. The above studies show that: (1) The increases of surface energy transfer and summer lateral boundary energy transport to the Arctic troposphere provide a further clue to possible increase of the Arctic tropospheric energy; (2) Most recent study based on reanalysis data clarifies the fact that in past decades, the atmospheric energy in the Arctic troposphere was increasing, and therefore the basic state of atmosphere was changing significantly. Reference | Related Articles | Metrics | Comments（0） Select Research and perspectives on anthropogenic carbon dioxide uptake, distribution, storage and transport in the Southern Ocean ZHANG Shuang, QI Di, WU Yingxu, WANG Bingbing, CHEN Liqi Chinese Journal of Polar Research    2024, 36 (3): 391-405.   DOI: 10.13679/j.jdyj.20240027 Abstract （343）      PDF（pc） （8056KB）（140）       Knowledge map    Save The Southern Ocean has the potential to uptake as much as 40% of the global ocean's carbon, but this estimate is uncertain due to the lack of systematic knowledge of anthropogenic CO2 uptake, distribution, storage, and transportation. This paper summarises research on carbon uptake, storage, and transport in the Southern Ocean, based on domestic and international databases and studies. It explores the carbon source and sink patterns in the open ocean and nearshore areas of the Southern Ocean in terms of CO2 fluxes at the sea-air interface and the distribution, storage, and transport of anthropogenic CO2 within the ocean. The paper also examines the reasons for the discrepancy between the current carbon sink model and the measured data in the Southern Ocean, as well as the uncertainty of the estimation of carbon source and sink strengths in the seasonal ice zone. Additionally, it evaluates the advantages and shortcomings of relevant methods for calculating anthropogenic carbon and the main transport mechanisms affecting the anthropogenic carbon inventory. This paper aims to enhance comprehension of sea-air CO2 fluxes, source-sink variability, and export processes in the Southern Ocean. This will aid in more precise estimations of the carbon sinks in the Southern Ocean and the global ocean. Reference | Related Articles | Metrics | Comments（0） Select Surface sediment bulk mineralogical composition and environmental implications in the Eurasian Continental Margin, Arctic Ocean ZHANG Weibin, ZHAO Song, LIU Yanguang Chinese Journal of Polar Research    2024, 36 (3): 406-420.   DOI: 10.13679/j.jdyj.20240038 Abstract （214）      PDF（pc） （7754KB）（88）       Knowledge map    Save The Eurasian Continental Margin of the Arctic Ocean is the main area of sea ice formation. The terrigenous clastic sediments transformed by ocean currents, sea ice and icebergs are the main components of sediments in the Arctic Ocean. The mineral composition is a significant proxy to reveal the provenance of materials and ocean current patterns in the Arctic Ocean. Based on the complied data of 441 bulk mineral samples from the Eurasian Continental Margin of the Arctic Ocean studied by previous reports using X-ray diffraction, this paper explores the source and transportation and sorting patterns of bulk minerals in the study area. The results show that: 1) The light minerals in the Eurasian Continental Margin of the Arctic Ocean are mainly quartz and feldspar. Quartz has multiple characteristic sources and is widely distributed throughout the study area; 2) The feldspar group mainly includes plagioclase and K-feldspar, which represent typical volcanic material input and are characteristic minerals of the Eurasian Arctic continent with developed igneous provinces and volcanic belts. Plagioclase is usually transported into the sea by Arctic rivers and to further regions by sea ice, so its distribution is extremely similar to the path of the Trans Polar Drift; 3) K-feldspar corresponds to coarse-grained material carried by icebergs, and its high distribution at the margin of the Eurasian continent and its decoupling from plagioclase in several regions indicate that it has a certain significance in distinguishing different volcanic sources; 4) Dolomite usually comes from the North American source area, while the source of calcite is more complex and may include authigenic sources. The above research results help to more fully understand the source-sink process of Arctic Ocean sediments and provide an important reference for clarifying the changes in the sedimentary environment at the margin of the Eurasian Continental Margin, the Arctic Ocean. Reference | Related Articles | Metrics | Comments（0） Select Progress and Prospects of Chinese Antarctic Medical Research Chengli Xu Chinese Journal of Polar Research    2024, 36 (3): 486-495.   DOI: 10.13679/j.jdyj.20240040 Abstract （1181）      PDF（pc） （383KB）（491）       Knowledge map    Save Antarctica is one of the places with the most extreme climates on Earth. How humans survive and adapt to the extreme environments in Antarctica is the main focus of Antarctic medical research. This review focuses on the progress of Chinese Antarctic medical research, the selection of expeditioners, and the formulation of relevant standards during the recent 20 years. The main achievements are as follows: 1) Under the condition of Antarctic overwintering, expeditioners may experience desynchronization of circadian rhythm, sleep disruptions, immune-neuroendocrine network dysregulation, and increased negative moods; 2) Under the environment of Antarctic inland, expeditioners may occur acute altitude sickness (AMS), decreased cardiovascular and pulmonary function, sleep disorders, and increased negative moods, such as fatigue; 3) Low blood oxygen saturation, increased AMS scores, cardiac conduction block, and increased negative moods are sensitive indicators for identifying hypoxia susceptible pre-selected inland expeditioners; 4) The only national industry standard for polar medicine, “The requirements of pre-departure physical examination for polar expeditioners”(HY/T 236-2018), was formulated, which provides key technical support for the scientific and standardized selection of expeditioners. In the future, we should continue to study the physiological and pathological changes and mechanisms of stress, adaptation, compensation, and injury of Chinese Antarctic expeditioners under extreme environments, providing scientific suggestions for the selection, adaptation, protection, station management, and related policy formulation of expeditioners. Reference | Related Articles | Metrics | Comments（0） Select The collection, research and prospect of Antarctic meteorites in China XIA Zhipeng, YANG Dongliang, WANG Xiaorui, ZHANG Chuantong, CHEN Hongyi, MIAO Bingkui Chinese Journal of Polar Research    2024, 36 (3): 454-472.   DOI: 10.13679/j.jdyj.20240041 Abstract （546）      PDF（pc） （22004KB）（375）       Knowledge map    Save Meteorites are not only the link between the Earth and the universe, but also the key to unlocking the history of the solar system and exploring the evolution of the universe. As a key link between the Earth and the universe, meteorites are of great significance in revealing the history of the solar system and the evolution of the universe. Antarctica's unique geographical conditions and ice environment make it the region with the most meteorites found in the world.Antarctica's unique geographical and climatic conditions make it the region with the most meteorite discoveries in the world. Since the first meteorite-rich area was discovered in 1998 at Grove Mountain, China has collected 12,665 meteorites, ranking third in the global collection of Antarctic meteorites. This paper summarizes the history of meteorite discovery in Antarctica, reveals the uniqueness of meteorite concentration on the ice sheet, integrates the achievements of meteorite collection in Grove Mountain in China, and discusses the classification of meteorites and the latest research progress. While reviewing the achievements, challenges such as decreasing collection efficiency and limitation of enrichment area are also explored. Finally, in the face of the rapid development of planetary science and the good opportunity of the completion of China's Qinling Station, this paper puts forward some ideas for the future, including the establishment of an Antarctic meteorite investigation team, using Qinling Station and Zhongshan Station as logistical support bases, carrying out a comprehensive investigation of the TransAntarctic Mountains and Prince Charles Mountain meteorites, and strengthening the coordinated development of scientific research and science popularization of Antarctic meteorites. Reference | Related Articles | Metrics | Comments（0） Select The interaction processes and mechanisms between the Southern Ocean and the tropical Pacific during glacial cycles XIONG Zhifang, WANG Jiakai, QIN Bingbin, GUO Jingteng, LI Tiegang Chinese Journal of Polar Research    2024, 36 (3): 438-453.   DOI: 10.13679/j.jdyj.20240055 Abstract （278）      PDF（pc） （7214KB）（130）       Knowledge map    Save The overturning circulation of the Southern Ocean (SO) drives the exchange of water masses between high and low latitudes in the Southern Hemisphere (SH). Concurrently, the tropical Pacific serves as a crucial source of global water vapor and heat, influencing key processes such as the Hadley and Walker circulations and the El Ni?o-Southern Oscillation (ENSO). These processes effectively transport heat from tropical regions to higher latitudes and foster interactions between atmospheric circulations across the SH on interannual to decadal timescales. During glacial cycles, complex interactions between oceanic and atmospheric circulations are evident between the tropical Pacific and the SO, involving significant exchanges of matter and energy that impact global climate change. High-latitude ice and sediment cores’ records have extensively documented the evolution of sea surface temperatures and sea ice of SO, as well as Antarctic precipitation influenced by ENSO-like processes during glacial cycles. Meanwhile, tropical sediment core records indicate that subsurface warming of the Indo-Pacific Warm Pool during these cycles results from excess heat from the SO being transported northwards via shallow overturning cell and subtropical circulations. These records not only support the notion that enhanced SO circulation affects biogeochemical cycles and material exchanges in low-latitude oceans but also suggest that glacial cycle-induced warming of the Indo-Pacific Warm Pool could trigger ENSO-like changes, dominating tropical Pacific atmospheric circulation patterns and impacting SO atmospheric circulation. However, due to the limited paleoceanographic records of tropical teleconnections across multiple timescales, significant uncertainties remain in understanding and assessing the interaction processes and mechanisms between the SO and the tropical Pacific. Therefore, ongoing investigations and analyses of multi-proxy circum-Antarctic sediment cores are essential to provide more accurate environmental change parameters for tropical teleconnection climate models, thereby reducing these uncertainties. Reference | Related Articles | Metrics | Comments（0） Select Exploration and study of ice-sea-seafloor multi-layer interaction on the Ross Sea continental shelf, Antarctica GAO Jinyao, CHEN Yankun, DONG Chao, LI Ruixiang, LIU Tongmu, CAI Xiaoxian, YUE Mei, LI Na, WANG Qisen Chinese Journal of Polar Research    2024, 36 (3): 421-437.   DOI: 10.13679/j.jdyj.20240042 Abstract （314）      PDF（pc） （35185KB）（134）       Knowledge map    Save Focusing on the glacial advance and retreat history in the Ross Sea, and from the perspective of multi-layer interaction, this paper analyzes and summarizes the exploration status and research understanding on the West Antartic Rift System, cold and warm water exchange channels, various disastrous external forces affecting on the Ross Ice Shelf, and distribution of benthos or activities of mammals. The tectonic, volcanic and magmatic activities in the Ross Sea and its surrounding areas are the most active in the Antarctic plate, and their direct influence on the advance and retreat of ancient ice sheets on the shelf and the dynamic balance of the modern ice shelf has been rarely studied, but the sedimentary structure, outward growth and topography/geomorphology of the shelf display strong glacial-geological processes. The current dynamic balance of the Ross Ice Shelf and the distribution law of cold water corals and other benthic organisms are closely related to the exchange of mass and heat between the Modified Circumpolar Deep Water and the cold Antarctic Bottom Water along the three major ice erosion troughs. Meanwhile, the monitoring of seismographs laid by the United States on the Ross Ice Shelf and hydrophones deployed by South Korea offshore of the Terra Nova Bay shows that the mechanical effects of earthquakes, volcanoes, tsunamis and storms from the Pacific Ocean on the Ross Ice Shelf can not be underestimated. Viewing from the glacial advance and retreat history or the current ice shelf openness, the exploration and research of the outer Ross Sea shelf and its shoulder and slope is still basically blank In order to dissect the adjustment mechanisms for both the advance and retreat of ancient ice sheets on the shelf and the dynamic balance of the Ross Ice Shelf at present, it is suggested that China should strengthen the multidisciplinary survey, observation and monitoring in this region, and carry out long-term observation of subsurface buoy and OBS along the three major ice erosion troughs. Reference | Related Articles | Metrics | Comments（0） Select Progress in the research, development, and application of polar science and engineering technology equipment in China WANG Shuoren, LIAO Zhouxin, GUO Jingxue, CHEN Qingman, TANG Shuaishuai, HE Jianfeng Chinese Journal of Polar Research    2024, 36 (3): 473-485.   DOI: 10.13679/j.jdyj.20240043 Abstract （512）      PDF（pc） （761KB）（1142）       Knowledge map    Save Polar science and engineering technology equipment plays a significant role in the development of polar science and technology, impacting not only polar scientific research and resource utilization but also a nation's security, international standing, and sustainable development. In the context of continuous technological advancements and an increasingly complex international polar situation, the research, development, and application of polar science and engineering technology in China have become particularly important and urgent. This paper comprehensively reviews the development process and latest achievements in the research, development, and application of scientific exploration technology equipment and engineering technology equipment over the past 40 years of China's polar research. It analyzes the current status of China's polar engineering technology equipment development, its gaps with the world's advanced level, and existing issues. This paper also focuses on the problems existing in China's polar scientific research and exploration technology, heavy icebreaker technology, polar aviation technology, and communication and navigation technology. It proposes suggestions such as promoting major polar projects and grand scientific plans, building a collaborative innovation platform, strengthening key technology innovation and research and development, constructing polar testing grounds, improving standardized technical systems, and promoting industrial development. The aim is to rapidly develop and gradually surpass the world's advanced level in the research, development, and application of polar science and engineering technology equipment, better serving China's polar cause development. Reference | Related Articles | Metrics | Comments（0） Select Briefing of the 40th Chinese National Antarctic Research Expedition ZHANG Beichen Chinese Journal of Polar Research    2024, 36 (3): 496-497.   Abstract （274）      PDF（pc） （2417KB）（382）       Knowledge map    Save Related Articles | Metrics | Comments（0） Select Construction of Chinese Antarctic Qinling Station ZHU He, WEI Fuhai Chinese Journal of Polar Research    2024, 36 (3): 498-501.   Abstract （267）      PDF（pc） （7008KB）（221）       Knowledge map    Save Related Articles | Metrics | Comments（0） Select Briefing of “Exhibition in Celebration of 40 Years of Chinese National Arctic and Antarctic Expedition” WAN Jianhua Chinese Journal of Polar Research    2024, 36 (3): 502-504.   Abstract （210）      PDF（pc） （4600KB）（417）       Knowledge map    Save Related Articles | Metrics | Comments（0）