Accurate inversion of land surface evapotranspiration (ET) in arid areas is of great significance for understanding global eco-hydrological process and exploring the spatio-temporal variation and ecological response...Accurate inversion of land surface evapotranspiration (ET) in arid areas is of great significance for understanding global eco-hydrological process and exploring the spatio-temporal variation and ecological response of water resources. It is also important in the functional evaluation of regional water cycle and water balance, as well as the rational allocation and management of water resources. This study, based on model validation analysis at varied scales in fiwe Central Asian countries and China's Xinjiang, developed an appropriate approach for ET inversion in arid lands. The actual ET during growing seasons of the study area was defined, and the changes in water participating in evaporation in regional water cycle were then educed. The results show the simulation error of SEBS (Surface Energy Balance System) model under cloud amount consideration was 1.34% at 30-m spatial scale, 2.75% at 1-km spatial scale and 6,37% at 4-kin spatial scale. ET inversion for 1980-2007 applying SEBS model in the study area indicates: (1) the evaporation depth (May-September) by land types descends in the order of waters (660.24 ram) 〉 cultivated land (464.66 mm) 〉 woodland (388.44 mm) 〉 urbanized land (168.16 mm) 〉 grassland (160.48 mm) 〉 unused land (83.08 mm); and (2) ET during the 2005 growing season in Xinjiang and Central Asia was 2,168.68x108 m3 (with an evaporation/precipitation ratio of 1.05) and 9,741.03x108 m3 (with an evaporation/precipitation ratio of 1.4), respectively. The results unveiled the spatio-temporal variation rules of ET process in arid areas, providing a reference for further research on the water cycle and water balance in similar arid regions.展开更多
The Silk Road Economic Belt is the updated version of regional economy and trade cooperation. It focuses on cooperation and development in energy, providing broad connotation and denotation and space for XinjiangCentr...The Silk Road Economic Belt is the updated version of regional economy and trade cooperation. It focuses on cooperation and development in energy, providing broad connotation and denotation and space for XinjiangCentral Asia to cooperate with each other in energy. Although it has bright prospect, the energy cooperation will still be restricted by the complex environment of Central Asia and the internal factors of Xinjiang, such as its unique economic model and industrial structure. Thus, in order to realize mutually beneficial cooperation, which is the common target of Silk Road Economic Belt, Xinjiang and Central Asia need to strengthen energy dialogue and expand the energy diplomacy, promote the construction process of Xinjiang energy strategy base, establish and perfect the information platform of Central Asia energy cooperation.展开更多
The beginning of the XXI century was marked a new rising of the international tectonic cartography as a result of analysis and synthesis of a huge volume of geological information obtained for the territory of Asia es...The beginning of the XXI century was marked a new rising of the international tectonic cartography as a result of analysis and synthesis of a huge volume of geological information obtained for the territory of Asia especially during the last 30 years. The previous tectonic maps for Asia were created in the 1960 s--1970 s of the last century. Since that time,the national geological surveys have compiled tectonic maps exclusively in the limits of their own state boundaries. The international cooperation of five countries since 2002( Russia,China,Mongolia,Kazakhstan and Republic of Korea) gave a unique possibility to join the data into a united cartographic form as Atlas of Geological Maps( since 2002-Atlas of Geological Maps of Central Asia and since 2007-Atlas of Geological Maps of Northern-Central-Eastern Asia). Both atlases include four maps: geological,tectonic,metallogenic,and energy resources. Tectonic Map of Northern-Central-Eastern Asia and Adjacent Areas at scale 1 ∶ 2 500 000 was the key map for further compilation of the metallogenic and energy resources( coal,oil and gas) maps. By this reason,special attention was given to showing the structure and composition of the Mesozoic sedimentary basins in Northern-Central- Eastern Asia as the most perspective structures for oil-and-gas and coal prospect.展开更多
Using rain-gauge-observation daily precipitation data from the Global Historical Climatology Network(V3.25)and the Chinese Surface Daily Climate Dataset(V3.0),this study investigates the fidelity of the AHPRODITE data...Using rain-gauge-observation daily precipitation data from the Global Historical Climatology Network(V3.25)and the Chinese Surface Daily Climate Dataset(V3.0),this study investigates the fidelity of the AHPRODITE dataset in representing extreme precipitation,in terms of the extreme precipitation threshold value,occurrence number,probability of detection,and extremal dependence index during the cool(October to April)and warm(May to September)seasons in Central Asia during 1961–90.The distribution of extreme precipitation is characterized by large extreme precipitation threshold values and high occurrence numbers over the mountainous areas.The APHRODITE dataset is highly correlated with the gauge-observation precipitation data and can reproduce the spatial distributions of the extreme precipitation threshold value and total occurrence number.However,APHRODITE generally underestimates the extreme precipitation threshold values,while it overestimates the total numbers of extreme precipitation events,particularly over the mountainous areas.These biases can be attributed to the overestimation of light rainfall and the underestimation of heavy rainfall induced by the rainfall distribution–based interpolation.Such deficits are more evident for the warm season than the cool season,and thus the biases are more pronounced in the warm season than in the cool season.The probability of detection and extremal dependence index reveal that APHRODITE has a good capability of detecting extreme precipitation,particularly in the cool season.展开更多
The Uyghur ethnic identity and their autochthony of Xinjiang continue to be a subject of academic discussions.However,Chinese authorities as well as Chinese scholars have a permanent position on these matters and reje...The Uyghur ethnic identity and their autochthony of Xinjiang continue to be a subject of academic discussions.However,Chinese authorities as well as Chinese scholars have a permanent position on these matters and reject any alternatives.The“Uyghur issue”has already become a part of the geopolitical game impacting world politics and academia as well.Kazakhstan is a good example of this influence.It has a long common border with northwestern China,a large Uyghur diaspora,and historical connections with Xinjiang.Nonetheless,academia nowadays puts Uyghur Studies in a peripheral position,first of all,because of the geopolitical factor.In this article,I focus on the Uyghurs’ethnic identity and autochthony of Xinjiang based on the historical background of this region covered by Kazakhs and other international historians.It helped me identify the origin of the“Uyghur issue”in the modern context,which explains why there is no global consensus on who the modern Uyghurs are and whether they have the right to claim independence of the territory of modern Xinjiang.During Xi Jinping’s era,control over Xinjiang has sharply strengthened and Kazakhstan has conspicuously showed solidarity with the People’s Republic of China(PRC).The Uyghurs’separatist aspirations are practically suppressed,but the voices of human rights supporters and Western academia have become louder,attracting the attention of the world community to the“Uyghur issue”.展开更多
基金supported by the National Natural Science Foundation of China (40730633 and 40571030)
文摘Accurate inversion of land surface evapotranspiration (ET) in arid areas is of great significance for understanding global eco-hydrological process and exploring the spatio-temporal variation and ecological response of water resources. It is also important in the functional evaluation of regional water cycle and water balance, as well as the rational allocation and management of water resources. This study, based on model validation analysis at varied scales in fiwe Central Asian countries and China's Xinjiang, developed an appropriate approach for ET inversion in arid lands. The actual ET during growing seasons of the study area was defined, and the changes in water participating in evaporation in regional water cycle were then educed. The results show the simulation error of SEBS (Surface Energy Balance System) model under cloud amount consideration was 1.34% at 30-m spatial scale, 2.75% at 1-km spatial scale and 6,37% at 4-kin spatial scale. ET inversion for 1980-2007 applying SEBS model in the study area indicates: (1) the evaporation depth (May-September) by land types descends in the order of waters (660.24 ram) 〉 cultivated land (464.66 mm) 〉 woodland (388.44 mm) 〉 urbanized land (168.16 mm) 〉 grassland (160.48 mm) 〉 unused land (83.08 mm); and (2) ET during the 2005 growing season in Xinjiang and Central Asia was 2,168.68x108 m3 (with an evaporation/precipitation ratio of 1.05) and 9,741.03x108 m3 (with an evaporation/precipitation ratio of 1.4), respectively. The results unveiled the spatio-temporal variation rules of ET process in arid areas, providing a reference for further research on the water cycle and water balance in similar arid regions.
文摘The Silk Road Economic Belt is the updated version of regional economy and trade cooperation. It focuses on cooperation and development in energy, providing broad connotation and denotation and space for XinjiangCentral Asia to cooperate with each other in energy. Although it has bright prospect, the energy cooperation will still be restricted by the complex environment of Central Asia and the internal factors of Xinjiang, such as its unique economic model and industrial structure. Thus, in order to realize mutually beneficial cooperation, which is the common target of Silk Road Economic Belt, Xinjiang and Central Asia need to strengthen energy dialogue and expand the energy diplomacy, promote the construction process of Xinjiang energy strategy base, establish and perfect the information platform of Central Asia energy cooperation.
基金the project of the Federal Agency for Scientific Organizations of the Ministry of Education and Science of the Russian Federation ( Registration Number 0135 -2014 -0065 )the support of the Russian Science Foundation ( Grant 16 -17 -10251 )
文摘The beginning of the XXI century was marked a new rising of the international tectonic cartography as a result of analysis and synthesis of a huge volume of geological information obtained for the territory of Asia especially during the last 30 years. The previous tectonic maps for Asia were created in the 1960 s--1970 s of the last century. Since that time,the national geological surveys have compiled tectonic maps exclusively in the limits of their own state boundaries. The international cooperation of five countries since 2002( Russia,China,Mongolia,Kazakhstan and Republic of Korea) gave a unique possibility to join the data into a united cartographic form as Atlas of Geological Maps( since 2002-Atlas of Geological Maps of Central Asia and since 2007-Atlas of Geological Maps of Northern-Central-Eastern Asia). Both atlases include four maps: geological,tectonic,metallogenic,and energy resources. Tectonic Map of Northern-Central-Eastern Asia and Adjacent Areas at scale 1 ∶ 2 500 000 was the key map for further compilation of the metallogenic and energy resources( coal,oil and gas) maps. By this reason,special attention was given to showing the structure and composition of the Mesozoic sedimentary basins in Northern-Central- Eastern Asia as the most perspective structures for oil-and-gas and coal prospect.
基金the two anonymous reviewers for their valuable comments and suggestions.This research was funded by the National Key Research and Development Program of China(Grant No.2018YFC1507101)the National Natural Science Foundation of China(Grant Nos.41861144014,41875078 and 41630424)+3 种基金the National Key Research and Development Program of China(Grant No.2016YFA0601501)We acknowledge Hirosaki University for providing the APHRODITE precipitation data(http://aphrodite.st.hirosaki-u.ac.jp/download/)We thank the China Meteorological Data Service Center for providing the Chinese Surface Daily Climate Dataset(V3.0)(https://data.cma.cn/en/?r=data/detail&data-Code=SURF_CLI_CHN_MUL_DAY_CES_V3.0)the National Oceanic and Atmospheric Administration,National Centers for Environmental Information,for providing the GHCN-D dataset(V3.25)(Menne et al.,2012).We convey our gratitude to the contributors of the SciPy ecosystem(Virtanen et al.,2020),which was used for data analysis and visualization.
文摘Using rain-gauge-observation daily precipitation data from the Global Historical Climatology Network(V3.25)and the Chinese Surface Daily Climate Dataset(V3.0),this study investigates the fidelity of the AHPRODITE dataset in representing extreme precipitation,in terms of the extreme precipitation threshold value,occurrence number,probability of detection,and extremal dependence index during the cool(October to April)and warm(May to September)seasons in Central Asia during 1961–90.The distribution of extreme precipitation is characterized by large extreme precipitation threshold values and high occurrence numbers over the mountainous areas.The APHRODITE dataset is highly correlated with the gauge-observation precipitation data and can reproduce the spatial distributions of the extreme precipitation threshold value and total occurrence number.However,APHRODITE generally underestimates the extreme precipitation threshold values,while it overestimates the total numbers of extreme precipitation events,particularly over the mountainous areas.These biases can be attributed to the overestimation of light rainfall and the underestimation of heavy rainfall induced by the rainfall distribution–based interpolation.Such deficits are more evident for the warm season than the cool season,and thus the biases are more pronounced in the warm season than in the cool season.The probability of detection and extremal dependence index reveal that APHRODITE has a good capability of detecting extreme precipitation,particularly in the cool season.
文摘The Uyghur ethnic identity and their autochthony of Xinjiang continue to be a subject of academic discussions.However,Chinese authorities as well as Chinese scholars have a permanent position on these matters and reject any alternatives.The“Uyghur issue”has already become a part of the geopolitical game impacting world politics and academia as well.Kazakhstan is a good example of this influence.It has a long common border with northwestern China,a large Uyghur diaspora,and historical connections with Xinjiang.Nonetheless,academia nowadays puts Uyghur Studies in a peripheral position,first of all,because of the geopolitical factor.In this article,I focus on the Uyghurs’ethnic identity and autochthony of Xinjiang based on the historical background of this region covered by Kazakhs and other international historians.It helped me identify the origin of the“Uyghur issue”in the modern context,which explains why there is no global consensus on who the modern Uyghurs are and whether they have the right to claim independence of the territory of modern Xinjiang.During Xi Jinping’s era,control over Xinjiang has sharply strengthened and Kazakhstan has conspicuously showed solidarity with the People’s Republic of China(PRC).The Uyghurs’separatist aspirations are practically suppressed,but the voices of human rights supporters and Western academia have become louder,attracting the attention of the world community to the“Uyghur issue”.