It is very important to find out the reasons and the morphological changes of cattle abortion, death embryo and teratism in Sanjiang area, in order to determine the preventive measures, to improve animal quality, and ...It is very important to find out the reasons and the morphological changes of cattle abortion, death embryo and teratism in Sanjiang area, in order to determine the preventive measures, to improve animal quality, and to accelerate the animal industry. In the present studies, 25 cows and 25 local bos calves were investigated. The powder of Veratrum nigrum L. and Euphorbia fischeriana steud. was medicated to the animals during the 15 - 19th day of gestation. It was found that there were different poisoning reactions. When the poisoning was on the 15 - 16th day of gestation, the pregnant animals were easy to miscarriage. When the poisoning was on the 17 - 18th day of gestation, the embryos were easy to become teratism. The joint malformation bicephalus and rachischisis could take place for calves. If the poisoning was after 19th day of gestation , there were much more death embryos. The results of the studies showed that Veratrum and Euphorbia fischeriana steud. were the most poisonous plants to the animal industry of Sanjiang area. Some preventive measures were proposed.展开更多
The Sanjiang area is an important granite distribution area in China,except for South China,in which granites is complex and complete.Based on fully collecting date about it,this paper explores the significance of ura...The Sanjiang area is an important granite distribution area in China,except for South China,in which granites is complex and complete.Based on fully collecting date about it,this paper explores the significance of uranium展开更多
According to the annual statistic values of eight essential elements for the latest 50-year climatic data,including average temperature,average maximum temperature,averageminimum temperature,relative humidity,amount o...According to the annual statistic values of eight essential elements for the latest 50-year climatic data,including average temperature,average maximum temperature,averageminimum temperature,relative humidity,amount of precipitation,precipitation day,average wind speed and sunlight duration,a one-dimensional linear regression equation was built,and the regression ratio b (tendency rate) and related ratio r (trend coefficient) were calculated to analyze the regular pattern and the relationship between each elements.The results showed that the warming trend was obvious in the area of Sanjiang-Changbai,the development was from humidification to half-humidification.The average wind speed and hours of sunlight showed a decreasing trend,and the difference was great in different locations in Sanjiang-Changbai area.展开更多
The western margin of Yangtze Craton is known as a significant sediment-hosted base-metal aggregate cluster,especially for Pb-Zn deposits in China,e.g.Jinding,Daliangzi,Tianbaoshan, Kuangshanchang and Qinlinchang depo...The western margin of Yangtze Craton is known as a significant sediment-hosted base-metal aggregate cluster,especially for Pb-Zn deposits in China,e.g.Jinding,Daliangzi,Tianbaoshan, Kuangshanchang and Qinlinchang deposits.In comparison with the classic MVT deposits in the world, based on the basic geology of the sediment-hosted Pb-Zn deposits,this paper focuses on temporal-spatial distribution of this deposit to further discuss its large scale mineralization and tectonic evolution history.In the SW Sanjiang Thethys,Jinding deposit is typically thrust fault-controlled and hosted mainly in the sandstones and breccia-bearing sandstones,whereas MVT-type deposits are controlled by lithology and faulting/fracturing with a strong preference for carbonate-hosted rocks.Most importantly,Jinding Pb-Zn deposit differs from the other types of sediment-hosted Pb-Zn deposits in which it was formed in a strongly deformed foreland basin within a continental collision zone.In the Kangdian area,the sediment-hosted Pb-Zn deposits were formed in the extensional basin on the side of the continental orogenic belt along the Yangtze Craton.Compared with classic MVT deposits,the Pb-Zn deposits in the Kangdian area belong to MVT deposits.This paper is significant not only for interpretation of the genesis of sediment-hosted Pb-Zn deposits but also for exploiting large base metal deposits in large sedimentary target areas.展开更多
The Xiangcheng-Luoji area is located in the conjunction of the southern part of the "Sanjiang" mineralization belt and the west margin of Yangtze craton. The geological studies were carried out to know the Indosinia...The Xiangcheng-Luoji area is located in the conjunction of the southern part of the "Sanjiang" mineralization belt and the west margin of Yangtze craton. The geological studies were carried out to know the Indosinian large porphyry Cu polymetallic deposits. Recent studies revealed that the area existed in the superposition of Late Yanshanian acidic intrusive rock belt and developed Mo-Cu polymetallic mineralization where promising exploration results have been achieved. Through the systematic study of geochronology, formation age of the Renlin Mo-minieralization monzogranite is 81.7±1.1 Ma. Re-Os dating results concentrate on 82.34±1.2–88.27±1.23 Ma for the model ages of molbdenite of Tongchanggou Mo deposits, average age is 85 ± 2 Ma where seven data points constitute a good isochron which shows that they were the same period products of mineralization. Geochemical features shown that the rocks have a high content of SiO 2(66.59–77.36wt%), alkaline-rich(K2O=2.68–6.08wt%; Na2O=0.50–4.91wt%; K2O/Na2 O ratios are 0.71–5.56, where average ratio of 1.89) and have aluminum–rich features(Al2O3 10.38–15.15wt%) with σ values less than 3.3. Which indicate that they belong to the high-K calc-alkali to shoshonite series. Geochemistry of Yanshanian intrusions shows that rocks are enrich in LREE with obvious negative δEu anomalies, enrichment of trace elements like, LILE elements(Rb, Th, Ba) with a relative loss of Ba, and loss of high field strength elements(Nb, Ta, P, Ti) and HREE elements. The granite genetic classification diagram shows that the granites belong to A-type granite and formatted in syn-collision tectonic environment. Meanwhile, the Yanshanian granites also inherited the characteristics of island arc environment which formed in the process of crustal melting caused by upwelling of asthenospheric substances in the extensional tectonic background. The process of partial melting existed substances from the deep(lower crust or upper mantle) which have been added. In the Xiangcheng-Luoji area, monzogranite and granodiorite porphyry bodies are widely developed Mo polymetallic mineralization, the deep porphyry mineralization have great potential for geological prospecting.展开更多
Sanjiang (Jinshajiang River,Lancangjiang River and Nujiang River) concentration area in southwest China is within the Tethys\|Himalayan tectonic domain,and it is the main area where develops Himalayan movement and rel...Sanjiang (Jinshajiang River,Lancangjiang River and Nujiang River) concentration area in southwest China is within the Tethys\|Himalayan tectonic domain,and it is the main area where develops Himalayan movement and relative ore deposits,such as Yulong super large Cu\|Mo deposit,Jinding super large Pb\|Zn deposit,etc ,in West China.So it is a best place to study Himalayan movement and metallogeny.1 Metallogenic geological background Sanjiang concentration area has passed complex Tethys tectonic development before Cainozoic era,and it begins Himalayan inland basin\|mountain tectonic development at the end of Yanshan movement.It commonly accepts autochthonous platform type deposits since Mesozoic era,and the basin\|mountain tectonic pattern has already appeared.Old metamorphic terrains and paleo\|Tethys orogenic belts become “mountains”,as well as microplateforms sink to become “basins”.Comparing to Mesozoic basins,Eogene basins are many smaller garben\|type extension basins or strike\|slip extension basins on the background of big large basins.展开更多
Sanjiang area in Southwestern China is tectonically situated at the east end of Himalaya-Tethys tectonic domain and at the conjunction of Tethyan Mountain Chain and Circum-Pacific Mountain Chain. It is one of the key ...Sanjiang area in Southwestern China is tectonically situated at the east end of Himalaya-Tethys tectonic domain and at the conjunction of Tethyan Mountain Chain and Circum-Pacific Mountain Chain. It is one of the key areas to understand the global tectonics and also one of gigantic metallogenic provinces in China and even in the world . Volcanism had occurred during the period of time from Proterozoic to Cenozoic . The most important and active periods of volcanism , however , are Carboniferous , Permian and Triassic . The pattern of spatial distribution of Sanjiang volcanic rocks and ophiolites can essentially be described as that several intra - continental micro-massif volcanic districts are respectively sandwiched between each two of four coupling ophioh'te - arc volcanic belts , which are successively from west to east : Dingqing - Nujiang belt , Lancangjiang belt , Jinshajiang belt and Ganzi-Litang belt . Four tectono - magma tic types of volcanic rocks have been rec-ognized in Sanjiang area as follows: mid -ocean- ridge/ para - mid - ocean - ridge type , arc type , collision type and intra - continent type . The petrotectonic assemblages within suture zones , such as oceanic assemblage , subduction - related assemblage , collision - related assemblage etc ., have been paid more attention to because of their significant importance in reconstruction of the history of Sanjiang Tethyan orogenic belt and plate tectonics .Couph'ng ophiolite - arc volcanic belt, para-mid - ocean - ridge volcanism and volcanic rocks, post -collision arc volcanism and volcanic rocks and tensional volcanic arc are newly defined in the present work . These new facts and concepts will be greatly beneficial to understanding the history of Sanjiang Tethyan plate tectonics and the complexity of the volcanism in orogenic belts and of the evolution of the continental lithosphere . A preliminary model of the evolution of Sanjiang Tethys under petrotectonic constraints was presented . It consists of the following four successive stages : (1) Late Paleozoic ocean spreading - dominant stage , (2 ) Early Mesozoic subduction and closing - dominant stage , (3) Late Mesozoic collisional orogenic stage characterized by crust shortening and compression , and (4 ) Cenozoic intra - continent orogenic stage characterized by crustal slipping - out and strike - slipping .展开更多
文摘It is very important to find out the reasons and the morphological changes of cattle abortion, death embryo and teratism in Sanjiang area, in order to determine the preventive measures, to improve animal quality, and to accelerate the animal industry. In the present studies, 25 cows and 25 local bos calves were investigated. The powder of Veratrum nigrum L. and Euphorbia fischeriana steud. was medicated to the animals during the 15 - 19th day of gestation. It was found that there were different poisoning reactions. When the poisoning was on the 15 - 16th day of gestation, the pregnant animals were easy to miscarriage. When the poisoning was on the 17 - 18th day of gestation, the embryos were easy to become teratism. The joint malformation bicephalus and rachischisis could take place for calves. If the poisoning was after 19th day of gestation , there were much more death embryos. The results of the studies showed that Veratrum and Euphorbia fischeriana steud. were the most poisonous plants to the animal industry of Sanjiang area. Some preventive measures were proposed.
基金the China Nuclear Industry Geological Bureau Project (Grant No. 201637,201638)
文摘The Sanjiang area is an important granite distribution area in China,except for South China,in which granites is complex and complete.Based on fully collecting date about it,this paper explores the significance of uranium
文摘According to the annual statistic values of eight essential elements for the latest 50-year climatic data,including average temperature,average maximum temperature,averageminimum temperature,relative humidity,amount of precipitation,precipitation day,average wind speed and sunlight duration,a one-dimensional linear regression equation was built,and the regression ratio b (tendency rate) and related ratio r (trend coefficient) were calculated to analyze the regular pattern and the relationship between each elements.The results showed that the warming trend was obvious in the area of Sanjiang-Changbai,the development was from humidification to half-humidification.The average wind speed and hours of sunlight showed a decreasing trend,and the difference was great in different locations in Sanjiang-Changbai area.
基金supported by the National Basic Research Program(No.2009CB421008)the Fundamental Research Funds for the Central Universities (No.2010ZY02)+2 种基金China Postdoctoral Science Foundation (No.20090460400)Program for Changjiang Scholars and Innovative Research Team in University(PCSIRT)the 111 Project(No.B07011)
文摘The western margin of Yangtze Craton is known as a significant sediment-hosted base-metal aggregate cluster,especially for Pb-Zn deposits in China,e.g.Jinding,Daliangzi,Tianbaoshan, Kuangshanchang and Qinlinchang deposits.In comparison with the classic MVT deposits in the world, based on the basic geology of the sediment-hosted Pb-Zn deposits,this paper focuses on temporal-spatial distribution of this deposit to further discuss its large scale mineralization and tectonic evolution history.In the SW Sanjiang Thethys,Jinding deposit is typically thrust fault-controlled and hosted mainly in the sandstones and breccia-bearing sandstones,whereas MVT-type deposits are controlled by lithology and faulting/fracturing with a strong preference for carbonate-hosted rocks.Most importantly,Jinding Pb-Zn deposit differs from the other types of sediment-hosted Pb-Zn deposits in which it was formed in a strongly deformed foreland basin within a continental collision zone.In the Kangdian area,the sediment-hosted Pb-Zn deposits were formed in the extensional basin on the side of the continental orogenic belt along the Yangtze Craton.Compared with classic MVT deposits,the Pb-Zn deposits in the Kangdian area belong to MVT deposits.This paper is significant not only for interpretation of the genesis of sediment-hosted Pb-Zn deposits but also for exploiting large base metal deposits in large sedimentary target areas.
基金supported by the National Basic Research Program of China (973 Program) (Grant No. 2009CB421007)the Science and Technology Leading Talents Training Plan Program of Yunnan Province (Grant No.2013HA001)
文摘The Xiangcheng-Luoji area is located in the conjunction of the southern part of the "Sanjiang" mineralization belt and the west margin of Yangtze craton. The geological studies were carried out to know the Indosinian large porphyry Cu polymetallic deposits. Recent studies revealed that the area existed in the superposition of Late Yanshanian acidic intrusive rock belt and developed Mo-Cu polymetallic mineralization where promising exploration results have been achieved. Through the systematic study of geochronology, formation age of the Renlin Mo-minieralization monzogranite is 81.7±1.1 Ma. Re-Os dating results concentrate on 82.34±1.2–88.27±1.23 Ma for the model ages of molbdenite of Tongchanggou Mo deposits, average age is 85 ± 2 Ma where seven data points constitute a good isochron which shows that they were the same period products of mineralization. Geochemical features shown that the rocks have a high content of SiO 2(66.59–77.36wt%), alkaline-rich(K2O=2.68–6.08wt%; Na2O=0.50–4.91wt%; K2O/Na2 O ratios are 0.71–5.56, where average ratio of 1.89) and have aluminum–rich features(Al2O3 10.38–15.15wt%) with σ values less than 3.3. Which indicate that they belong to the high-K calc-alkali to shoshonite series. Geochemistry of Yanshanian intrusions shows that rocks are enrich in LREE with obvious negative δEu anomalies, enrichment of trace elements like, LILE elements(Rb, Th, Ba) with a relative loss of Ba, and loss of high field strength elements(Nb, Ta, P, Ti) and HREE elements. The granite genetic classification diagram shows that the granites belong to A-type granite and formatted in syn-collision tectonic environment. Meanwhile, the Yanshanian granites also inherited the characteristics of island arc environment which formed in the process of crustal melting caused by upwelling of asthenospheric substances in the extensional tectonic background. The process of partial melting existed substances from the deep(lower crust or upper mantle) which have been added. In the Xiangcheng-Luoji area, monzogranite and granodiorite porphyry bodies are widely developed Mo polymetallic mineralization, the deep porphyry mineralization have great potential for geological prospecting.
文摘Sanjiang (Jinshajiang River,Lancangjiang River and Nujiang River) concentration area in southwest China is within the Tethys\|Himalayan tectonic domain,and it is the main area where develops Himalayan movement and relative ore deposits,such as Yulong super large Cu\|Mo deposit,Jinding super large Pb\|Zn deposit,etc ,in West China.So it is a best place to study Himalayan movement and metallogeny.1 Metallogenic geological background Sanjiang concentration area has passed complex Tethys tectonic development before Cainozoic era,and it begins Himalayan inland basin\|mountain tectonic development at the end of Yanshan movement.It commonly accepts autochthonous platform type deposits since Mesozoic era,and the basin\|mountain tectonic pattern has already appeared.Old metamorphic terrains and paleo\|Tethys orogenic belts become “mountains”,as well as microplateforms sink to become “basins”.Comparing to Mesozoic basins,Eogene basins are many smaller garben\|type extension basins or strike\|slip extension basins on the background of big large basins.
文摘Sanjiang area in Southwestern China is tectonically situated at the east end of Himalaya-Tethys tectonic domain and at the conjunction of Tethyan Mountain Chain and Circum-Pacific Mountain Chain. It is one of the key areas to understand the global tectonics and also one of gigantic metallogenic provinces in China and even in the world . Volcanism had occurred during the period of time from Proterozoic to Cenozoic . The most important and active periods of volcanism , however , are Carboniferous , Permian and Triassic . The pattern of spatial distribution of Sanjiang volcanic rocks and ophiolites can essentially be described as that several intra - continental micro-massif volcanic districts are respectively sandwiched between each two of four coupling ophioh'te - arc volcanic belts , which are successively from west to east : Dingqing - Nujiang belt , Lancangjiang belt , Jinshajiang belt and Ganzi-Litang belt . Four tectono - magma tic types of volcanic rocks have been rec-ognized in Sanjiang area as follows: mid -ocean- ridge/ para - mid - ocean - ridge type , arc type , collision type and intra - continent type . The petrotectonic assemblages within suture zones , such as oceanic assemblage , subduction - related assemblage , collision - related assemblage etc ., have been paid more attention to because of their significant importance in reconstruction of the history of Sanjiang Tethyan orogenic belt and plate tectonics .Couph'ng ophiolite - arc volcanic belt, para-mid - ocean - ridge volcanism and volcanic rocks, post -collision arc volcanism and volcanic rocks and tensional volcanic arc are newly defined in the present work . These new facts and concepts will be greatly beneficial to understanding the history of Sanjiang Tethyan plate tectonics and the complexity of the volcanism in orogenic belts and of the evolution of the continental lithosphere . A preliminary model of the evolution of Sanjiang Tethys under petrotectonic constraints was presented . It consists of the following four successive stages : (1) Late Paleozoic ocean spreading - dominant stage , (2 ) Early Mesozoic subduction and closing - dominant stage , (3) Late Mesozoic collisional orogenic stage characterized by crust shortening and compression , and (4 ) Cenozoic intra - continent orogenic stage characterized by crustal slipping - out and strike - slipping .
