As of 2006 Earth Science Frontiers(ESF) is transitioning from a quarterly publication to bi-monthly publication.Each year,issues of ESF will be developed along three themes:
As of 2006 Earth Science Frontiers (ESF) is transitioning from a quarterly publication to bi-monthly publication. Each year, from 2007 onwards, issues of ESF will be developed along three themes:1.Earth Materials for ...As of 2006 Earth Science Frontiers (ESF) is transitioning from a quarterly publication to bi-monthly publication. Each year, from 2007 onwards, issues of ESF will be developed along three themes:1.Earth Materials for Nos. 1 and 2.2.Earth Tectonics and Dynamics for Nos. 3 and 4.3.Earth Surface Processes for Nos. 5 and 6.'Earth Materials' will focus on the study of the Earth's composition, principally dealing with mineralogy and crystallography, petrology, fluids, mineral deposits and mineral exploration, and geochemistry.'Earth Tectonics and Dynamics' will focus on studies of displacement and deformation of lithosphere, including structural geology, regional tectonics and plate tectonics, continental dynamics, geophysics and tectonophysics.'Earth Surface Processes' will publish studies on the interactions and relationships between the lithosphere, the hydrosphere, the biosphere and the atmosphere.展开更多
(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential methods i...(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential methods including depth and shape determination. He has been awarded 5 prizes between 1992 and 2003, including the state prize in Earth sciences, the state prize in advanced technological sciences and the others.展开更多
(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential method...(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential methods including depth and shape determination. He has been awarded 5 prizes between 1992 and 2003, including the state prize in Earth sciences, the state prize in advanced technological sciences and the others. (2)Dr. Norman Bleistein Emeritus Professor of Geophysics, Colorado School of Mines, USA. His primary research interests: asymptotic methods for forward modeling and inversion in seismic exploration.He is a Fellow of the Institute of Physics, UK, and Guest Professor, China University of Geosciences, Wuhan, China.展开更多
As of 2006 Earth Science Frontiers(ESF)is transitioning from a quarterly publication to bimonthly publication.Each year ,from 2007 on wards ,issues of ESF will be developed along three
Earth Science from Space is an interdisciplinary discipline that studies the interactions,mechanisms,and evolution of the Earth system through space observation.In China,the national medium-to long-term civilian space...Earth Science from Space is an interdisciplinary discipline that studies the interactions,mechanisms,and evolution of the Earth system through space observation.In China,the national medium-to long-term civilian space infrastructure development plan and the space-science pilot project from the Chinese Academy of Sciences are two programs associated with advancing the Earth science from space.This paper reports recent scientific findings,developments and the status of the six missions.It is organized as the following sections:Introduction,two satellite missions that are already in orbit—the TanSat-1 for atmospheric COand the LuTan-1 for global surface deformation,a Terrestrial Ecosystem Carbon Inventory Satellite to be launched in 2022,and three missions that passed the PhaseⅡstudy and planned for near future—the Ocean Surface Current multiscale Observation,the Terrestrial Water Resources Satellite.Climate and Atmospheric Components Exploring Satellites(CACES),followed by the conclusion.展开更多
"Digital Earth"is a leap in the process of mankind learning about the Earth after the great geographical discovery of Copernicus,Galileoi’s heliocentric theory.Currently a series of problems like nature res..."Digital Earth"is a leap in the process of mankind learning about the Earth after the great geographical discovery of Copernicus,Galileoi’s heliocentric theory.Currently a series of problems like nature resources,environment,zoology and disaster have threatened the survival and development of mankind. In recent years,long term and solid展开更多
Elaborate and precise replicas taken from real fossils are used for academic researches in place of originals. They are often exhibited in museums in order to avoid demolition of the fragile originals.Replicas not onl...Elaborate and precise replicas taken from real fossils are used for academic researches in place of originals. They are often exhibited in museums in order to avoid demolition of the fragile originals.Replicas not only increase the number of specimens but also expand the chances for people to get direct observation of scientifically valuable materials.Up to now。展开更多
At the 19th G20 Summit in Brazil in November 2024,China promoted the development of sustainable solutions to climate change,biodiversity loss,and environmental pollution.This continued the theme of the 2016 G20 Hangzh...At the 19th G20 Summit in Brazil in November 2024,China promoted the development of sustainable solutions to climate change,biodiversity loss,and environmental pollution.This continued the theme of the 2016 G20 Hangzhou Summit,at which China placed development at the center of the G20’s macroeconomic policy coordination for the first time,adopting the G20 Action Plan on the United Nations 2030 Agenda for Sustainable Development and the G20 Initiative on Supporting Industrialization in Africa and Least Developed Countries.In Brazil,China announced actions on advancing modernization in Africa over the next three years with a Chinese commitment of RMB360 billion yuan in financial support.In this article,we examine the potential role of geoscience research and practice in development,particularly in the sustainable use of natural resources,the prevention of climate change impacts,as well as mitigation of geo-hazards and their health implications,indicating the areas where China’s geoscience for Africa is strong and where it requires more effort.We find that although China is the world’s leading publisher of scientific papers,its contribution to geoscience in Africa(the globe’s fastest-growing economic area),as shown by bibliometric research,appears to be rather small and inconsistent with the research priorities of Africa.Amongst the priorities for geoscience research in Africa,which are not addressed substantially by the research conducted so far,are sustainable mineral and hydrocarbon development,hydrology and hydrogeology,climate change and resilience,natural hazards,medical geology,agrominerals,and geoscience education and training.A particular opportunity for African nations is the presence of critical minerals-minerals needed for the energy transition and for batteries for electric cars in particular.Africa is well-endowed with many of these critical materials,such as rare earth elements and platinum group metals.Several research groups stress the need for the agency on the part of African institutions to map out these valuable resources,understand their value and the economics and sustainability of their extraction,encourage local business,attract investment,and scrutinize proposals from potential international investors to get the best deals.A strong point of existing China-led geoscience development includes the Deep-time Digital Earth(DDE)program online computing platform and its artificial intelligence tool GeoGPT,which is being developed in partnership with Zhejiang Laboratory.These are being developed with strong China funding support for free and wide global access,with a particular focus on Africa.These advanced tools will help to place the agency of development squarely in the hands of African scientists and institutions.In summary,the following are recommended:(1)a more coordinated and strategic approach to China-led geoscience research in Africa;(2)an Africa-centered,geoscience funding initiative that concentrates on relevant topics to the continent such as critical minerals exploration and other geological resources,materials and processes and their health implications on the populations and ecosystems in general,as well as climate change and climate change resilience;and(3)continued support for China-led international initiatives that seek to increase the agency and capacity of Africa geoscience researchers,for example the Deep-time Digital Earth platform.展开更多
During the 3rd mission of Chinese Unmanned Spacecraft the application sys tem of "SZ-3" (Shenzhou, a divine ship) gets a great success, all its goals are achieved. Many areas of science and breakthrough tech...During the 3rd mission of Chinese Unmanned Spacecraft the application sys tem of "SZ-3" (Shenzhou, a divine ship) gets a great success, all its goals are achieved. Many areas of science and breakthrough technology, including earth observation, earth environment monitoring, space material, space life science etc., are carried out in the mission. There are 44 payload instruments totally.All the instruments are working well during the orbit flight and a lot of good results are obtained. Many areas, for example the moderate resolution imag ing spectroradiometer, the solar ultraviolet spectral irradiance monitor and the space protein crystallization facility perform better than required and expected.A brief introduction of the experiments and the achievements of the mission is given in this paper.展开更多
The support given by Earth observation data and Earth system science play an increasingly important role in global change,regional sustainable development,extreme events,and the development of social and economic need...The support given by Earth observation data and Earth system science play an increasingly important role in global change,regional sustainable development,extreme events,and the development of social and economic needs.This field is also moving towards systematization,platforms,and standardized development.In December 2015,nearly 200 parties of the United Nations Framework Convention on Climate Change agreed in Paris to make arrangements for global action in response to climate change by 2020.China jointly issued a climate change adaptation strategy for cities in 2016 and then elevated national action to respond to climate change.China's Earth Observation and Earth Science development is facing new challenges as it supports the national civil space infrastructure and high-resolution Earth observation system.展开更多
利用Thomson Data Anlyzer(TDA)、Incites软件,对科学引文索引扩展版(science citation index expanded,SCIE)文献数据库中收录的1980-2014年2月25日间的中国科学院地球表层系统科学7个研究机构SCIE论文进行数据挖掘与分析,通过年度发...利用Thomson Data Anlyzer(TDA)、Incites软件,对科学引文索引扩展版(science citation index expanded,SCIE)文献数据库中收录的1980-2014年2月25日间的中国科学院地球表层系统科学7个研究机构SCIE论文进行数据挖掘与分析,通过年度发文与引文、高产作者与核心作者群、合作国家、基金资助、发文期刊等文献计量指标,参照2年影响因子、5年影响因子、h指数和ESI基准值,揭示和判定各个研究所的研究特色、优势、水平与实力。展开更多
Human beings are now facing global and regional sustainable development challenges.In China, Earth observation data play a fundamental role in Earth system science research. The support given by Earth observation data...Human beings are now facing global and regional sustainable development challenges.In China, Earth observation data play a fundamental role in Earth system science research. The support given by Earth observation data is required by many studies, including those on Earth's limited natural resources, the rapid development of economic and social needs, global change, extreme events, food security, water resources, sustainable economic and urban development, and emergency response. Application operation systems in many ministries and departments in China have entered a stage of sustainable development, and the State Key Project of High-Resolution Earth Observation Systems has been progressing since 2006. Earth observation technology in China has entered a period of rapid development.展开更多
Sustainability is the current theme of global development, and for China, it is not only an opportunity but also a challenge. In 2016, the Paris Agreement on climate change was adopted, addressing the need to limit th...Sustainability is the current theme of global development, and for China, it is not only an opportunity but also a challenge. In 2016, the Paris Agreement on climate change was adopted, addressing the need to limit the rise of global temperatures. The United Nations(UN) has set Sustainable Development Goals(SDGs) to transform our world in terms of closely linking human well-being, economic prosperity, and healthy environments. Sustainable development requires the support of spatial information and objective evaluation,and the capability of macroscopic, rapid, accurate Earth observation techniques plays an important role in sustainable development. Recently, Earth observation technologies are developing rapidly in China, where scientists are building coordinated, comprehensive and sustainable Earth observation systems for global monitoring programs. Recent efforts include the Digital Belt and Road Program(DBAR) and comparative studies of the "three poles". This and other researches will provide powerful support for solving problems such as global change and environmental degradation.展开更多
文摘As of 2006 Earth Science Frontiers(ESF) is transitioning from a quarterly publication to bi-monthly publication.Each year,issues of ESF will be developed along three themes:
文摘As of 2006 Earth Science Frontiers (ESF) is transitioning from a quarterly publication to bi-monthly publication. Each year, from 2007 onwards, issues of ESF will be developed along three themes:1.Earth Materials for Nos. 1 and 2.2.Earth Tectonics and Dynamics for Nos. 3 and 4.3.Earth Surface Processes for Nos. 5 and 6.'Earth Materials' will focus on the study of the Earth's composition, principally dealing with mineralogy and crystallography, petrology, fluids, mineral deposits and mineral exploration, and geochemistry.'Earth Tectonics and Dynamics' will focus on studies of displacement and deformation of lithosphere, including structural geology, regional tectonics and plate tectonics, continental dynamics, geophysics and tectonophysics.'Earth Surface Processes' will publish studies on the interactions and relationships between the lithosphere, the hydrosphere, the biosphere and the atmosphere.
文摘(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential methods including depth and shape determination. He has been awarded 5 prizes between 1992 and 2003, including the state prize in Earth sciences, the state prize in advanced technological sciences and the others.
文摘(1)Dr. El-Sayed Mohamed Abdelrahman Professor of Geophysics, Cairo University, Egypt. His primary research interests are potential field methods. His research has focused on gravity, magnetic, self-potential methods including depth and shape determination. He has been awarded 5 prizes between 1992 and 2003, including the state prize in Earth sciences, the state prize in advanced technological sciences and the others. (2)Dr. Norman Bleistein Emeritus Professor of Geophysics, Colorado School of Mines, USA. His primary research interests: asymptotic methods for forward modeling and inversion in seismic exploration.He is a Fellow of the Institute of Physics, UK, and Guest Professor, China University of Geosciences, Wuhan, China.
文摘As of 2006 Earth Science Frontiers(ESF)is transitioning from a quarterly publication to bimonthly publication.Each year ,from 2007 on wards ,issues of ESF will be developed along three
文摘Earth Science from Space is an interdisciplinary discipline that studies the interactions,mechanisms,and evolution of the Earth system through space observation.In China,the national medium-to long-term civilian space infrastructure development plan and the space-science pilot project from the Chinese Academy of Sciences are two programs associated with advancing the Earth science from space.This paper reports recent scientific findings,developments and the status of the six missions.It is organized as the following sections:Introduction,two satellite missions that are already in orbit—the TanSat-1 for atmospheric COand the LuTan-1 for global surface deformation,a Terrestrial Ecosystem Carbon Inventory Satellite to be launched in 2022,and three missions that passed the PhaseⅡstudy and planned for near future—the Ocean Surface Current multiscale Observation,the Terrestrial Water Resources Satellite.Climate and Atmospheric Components Exploring Satellites(CACES),followed by the conclusion.
文摘"Digital Earth"is a leap in the process of mankind learning about the Earth after the great geographical discovery of Copernicus,Galileoi’s heliocentric theory.Currently a series of problems like nature resources,environment,zoology and disaster have threatened the survival and development of mankind. In recent years,long term and solid
文摘Elaborate and precise replicas taken from real fossils are used for academic researches in place of originals. They are often exhibited in museums in order to avoid demolition of the fragile originals.Replicas not only increase the number of specimens but also expand the chances for people to get direct observation of scientifically valuable materials.Up to now。
文摘At the 19th G20 Summit in Brazil in November 2024,China promoted the development of sustainable solutions to climate change,biodiversity loss,and environmental pollution.This continued the theme of the 2016 G20 Hangzhou Summit,at which China placed development at the center of the G20’s macroeconomic policy coordination for the first time,adopting the G20 Action Plan on the United Nations 2030 Agenda for Sustainable Development and the G20 Initiative on Supporting Industrialization in Africa and Least Developed Countries.In Brazil,China announced actions on advancing modernization in Africa over the next three years with a Chinese commitment of RMB360 billion yuan in financial support.In this article,we examine the potential role of geoscience research and practice in development,particularly in the sustainable use of natural resources,the prevention of climate change impacts,as well as mitigation of geo-hazards and their health implications,indicating the areas where China’s geoscience for Africa is strong and where it requires more effort.We find that although China is the world’s leading publisher of scientific papers,its contribution to geoscience in Africa(the globe’s fastest-growing economic area),as shown by bibliometric research,appears to be rather small and inconsistent with the research priorities of Africa.Amongst the priorities for geoscience research in Africa,which are not addressed substantially by the research conducted so far,are sustainable mineral and hydrocarbon development,hydrology and hydrogeology,climate change and resilience,natural hazards,medical geology,agrominerals,and geoscience education and training.A particular opportunity for African nations is the presence of critical minerals-minerals needed for the energy transition and for batteries for electric cars in particular.Africa is well-endowed with many of these critical materials,such as rare earth elements and platinum group metals.Several research groups stress the need for the agency on the part of African institutions to map out these valuable resources,understand their value and the economics and sustainability of their extraction,encourage local business,attract investment,and scrutinize proposals from potential international investors to get the best deals.A strong point of existing China-led geoscience development includes the Deep-time Digital Earth(DDE)program online computing platform and its artificial intelligence tool GeoGPT,which is being developed in partnership with Zhejiang Laboratory.These are being developed with strong China funding support for free and wide global access,with a particular focus on Africa.These advanced tools will help to place the agency of development squarely in the hands of African scientists and institutions.In summary,the following are recommended:(1)a more coordinated and strategic approach to China-led geoscience research in Africa;(2)an Africa-centered,geoscience funding initiative that concentrates on relevant topics to the continent such as critical minerals exploration and other geological resources,materials and processes and their health implications on the populations and ecosystems in general,as well as climate change and climate change resilience;and(3)continued support for China-led international initiatives that seek to increase the agency and capacity of Africa geoscience researchers,for example the Deep-time Digital Earth platform.
文摘During the 3rd mission of Chinese Unmanned Spacecraft the application sys tem of "SZ-3" (Shenzhou, a divine ship) gets a great success, all its goals are achieved. Many areas of science and breakthrough technology, including earth observation, earth environment monitoring, space material, space life science etc., are carried out in the mission. There are 44 payload instruments totally.All the instruments are working well during the orbit flight and a lot of good results are obtained. Many areas, for example the moderate resolution imag ing spectroradiometer, the solar ultraviolet spectral irradiance monitor and the space protein crystallization facility perform better than required and expected.A brief introduction of the experiments and the achievements of the mission is given in this paper.
文摘The support given by Earth observation data and Earth system science play an increasingly important role in global change,regional sustainable development,extreme events,and the development of social and economic needs.This field is also moving towards systematization,platforms,and standardized development.In December 2015,nearly 200 parties of the United Nations Framework Convention on Climate Change agreed in Paris to make arrangements for global action in response to climate change by 2020.China jointly issued a climate change adaptation strategy for cities in 2016 and then elevated national action to respond to climate change.China's Earth Observation and Earth Science development is facing new challenges as it supports the national civil space infrastructure and high-resolution Earth observation system.
文摘利用Thomson Data Anlyzer(TDA)、Incites软件,对科学引文索引扩展版(science citation index expanded,SCIE)文献数据库中收录的1980-2014年2月25日间的中国科学院地球表层系统科学7个研究机构SCIE论文进行数据挖掘与分析,通过年度发文与引文、高产作者与核心作者群、合作国家、基金资助、发文期刊等文献计量指标,参照2年影响因子、5年影响因子、h指数和ESI基准值,揭示和判定各个研究所的研究特色、优势、水平与实力。
文摘Human beings are now facing global and regional sustainable development challenges.In China, Earth observation data play a fundamental role in Earth system science research. The support given by Earth observation data is required by many studies, including those on Earth's limited natural resources, the rapid development of economic and social needs, global change, extreme events, food security, water resources, sustainable economic and urban development, and emergency response. Application operation systems in many ministries and departments in China have entered a stage of sustainable development, and the State Key Project of High-Resolution Earth Observation Systems has been progressing since 2006. Earth observation technology in China has entered a period of rapid development.
文摘Sustainability is the current theme of global development, and for China, it is not only an opportunity but also a challenge. In 2016, the Paris Agreement on climate change was adopted, addressing the need to limit the rise of global temperatures. The United Nations(UN) has set Sustainable Development Goals(SDGs) to transform our world in terms of closely linking human well-being, economic prosperity, and healthy environments. Sustainable development requires the support of spatial information and objective evaluation,and the capability of macroscopic, rapid, accurate Earth observation techniques plays an important role in sustainable development. Recently, Earth observation technologies are developing rapidly in China, where scientists are building coordinated, comprehensive and sustainable Earth observation systems for global monitoring programs. Recent efforts include the Digital Belt and Road Program(DBAR) and comparative studies of the "three poles". This and other researches will provide powerful support for solving problems such as global change and environmental degradation.
