With a detailed study on petrology, mineralogy and geochemistry of some important Ordovician carbonate well core samples in Tazhong uplift of Tarim Basin, the distinguishing symbols of hydrothermal karstification are first put forward as the phenomena of rock hot depigmentation, hot cataclasm and the appearance of typical hydrothermal minerals such as fluorite, barite, pyrite, quartz and sphalerite. The main homogenization temperatures of primary fluid inclusions in fluorite are from 260 to 310°C, indicating the temperature of hydrothermal fluid. The fluid affected the dissolved rocks and showed typical geochemistry features with low contents of Na and Mg, and high contents of Fe, Mn and Si. The ratio of 3He/4He is 0.02Ra, indicating the fluid from the typical continental crust. The hydrothermal fluid karstification pattern may be described as follows: the hot fluid is from the Permian magma, containing dissolving ingredients of CO2 and H2S, and shifts along fault, ruptures and unconformity, and dissolves the surrounding carbonates while it flows. The mechanism of hydrothermal karstification is that the mixture of two or more fluids, which have different ion intensity and pH values, becomes a new unsaturated fluid to carbonates. The hydrothermal karstification is an important process to form hypo-dissolved pinholes in Ordovician carbonates of Tazhong uplift of Tarim Basin, and the forming of hydrothermal minerals also has favorable influence on carbonate reservoirs.
Geotechnical and Geological Engineering - Due to the complexity of the interaction between the geogrid and the soil interface in high earth-rock dams, the method of replacing the grid with steel... 相似文献
According to records of 17 meteorological stations distributed in the study area, climate change of the middle Inner Mongolia
in northern China was analyzed in this paper. Based on SPOT VGT data, combined with field investigation, local vegetation
change was detected in the last 10 years. The results show that annual mean air temperature obviously rose, while precipitation
slightly decreased in fluctuation in the study area during the last 50 years. Air temperature increasing rates are +0.318°C 10 year−1 during 1960-2009 and +0.423°C 10 year−1 during 1980–2009, while precipitation decreasing rates are −2.91 mm 10 year−1 during 1960–2009. There were five different dry or wet periods from the 1960s to the 2000s in order, and the wetter 1990s
and the drier 2000s changed dramatically in the study area. Local climate totally tend to warm–dry conditions during the last
50 years. According to coefficient of variation (Cv) of yearly growing-season cumulative NDVI value and yearly NDVI maximum in pixel scale, vegetation had experienced huge temporal
and spatial variation during the last 10 years. Recently, frequent droughts and dust storms seriously affected local agriculture
and grazing activities, and resulted in heavy economic loss, especially over the drought period of 1999–2001. Faced with those
drought disasters accompanied with strong dust storms, the local authorities proposed the enclosing-transferring strategy
and made great efforts to adapt overt climate change and improve environment, including making selective emigration, decreasing
livestock numbers, fencing grasslands and building forage production bases with irrigation instruments and actively adjusting
industry structure. However, some effects and potential problems of this adaptation strategy still need to be comprehensively
assessed further in longer time scales and aimed at different sub-regions. 相似文献
