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81.
中国东部中新生代裂陷盆地与伸展山岭耦合机制 总被引:60,自引:5,他引:60
中国东部中、新生代伸展构造系包括由松辽盆地、华北盆地和江汉盆地等构成的裂陷盆地 ,以及由大兴安岭、太行山及雪峰山等构成的伸展山岭。从大陆裂解和伸展构造动力学来看 ,主要存在底侵作用、对流作用和拆层作用 3种机制。因此裂陷盆地与伸展山岭耦合关系主要是深部壳幔作用在浅层的响应。 相似文献
82.
83.
Effect of heat treatment on tourmaline from Brazil 总被引:4,自引:0,他引:4
Cristiane Castañeda Sigrid G. Eeckhout Geraldo Magela da Costa Nilson F. Botelho Eddy De Grave 《Physics and Chemistry of Minerals》2006,33(3):207-216
The crystal-chemical behaviour of tourmaline from Araçuaí, Minas Gerais state, Brazil, when subjected to heating in air atmosphere has been studied by several techniques, including EMPA, UV–Vis, TGA, and Mössbauer spectroscopy. The tourmaline samples are typically intermediate members of the elbaite-schorl series. The origin of colour and of its change after treatment has been discussed in terms of local disorder, presence of metal transition elements, oxidation of ferrous iron at the octahedral site, and simultaneous trap of the excess electron. These findings may be used to enhance the colour in tourmaline crystals or generate wanted colour changes. 相似文献
84.
岩体风化程度量化分带研究 总被引:7,自引:1,他引:7
岩体风化程度分带,是常用于区分地壳表部岩体工程地质性质优劣的一种较老的岩体质量分类,由于参与风化带划分的因素中定量指标较少,因而造成分带的误差较大。从风化岩体裂缝发育程度的变化、岩体完整性的变化和岩体结构的变化出发,研究用岩体裂隙间距、岩石质量指标、岩体完整性系数和原有的定性因素,对风化岩进行量化分带。 相似文献
85.
琼西抱板群变质沉积岩地球化学研究 总被引:15,自引:1,他引:15
琼西中元古代抱板群变质沉积岩可分为白云母石英片岩组和石英二云母片岩组,其原岩为砂岩质泥质沉积岩夹火山物质。白云母石英片岩组和石英二云母片岩组在地球化学成分上的差异是原始沉积化学分异作用的结果。对主元素、微量元素(含稀土元素)及Sm-Nd同位素的综合研究表明,海南岛存在古元古代或更早的古老基底,抱板群变质沉积岩一部分来源于成熟度较低的古老地壳物质,另一部分来源于含地幔火山物质较多的初生地壳,或与研究区大规模造山运动、构造-岩浆活动所伴生的地幔物质加入有关。初步研究显示,琼西抱板群变质沉积岩可能是造山带岛弧和活动大陆边缘区(扩张弧后或弧间盆地)大地构造环境下的沉积产物。 相似文献
86.
The current status of weather forecasting and climate prediction, and the main progress China has made in recent years, are summarized in this paper. The characteristics and requirements of modern weather forecast operations are described briefly, and the significance of Numerical Weather Prediction (NWP) for future development is emphasized. The objectives and critical tasks for seamless short-term climate prediction that covers the extended-range (15-30 days), monthly, seasonal, annual, interannual and interdecadal timescales, are proposed. 相似文献
87.
88.
M. A. Hernández-Ceballos J. A. Adame J. P. Bolívar B. A. De la Morena 《Meteorology and Atmospheric Physics》2013,119(3-4):163-175
Air masses are characterized by physical (temperature, humidity) and chemical (transported gases and aerosols) properties, being associated their arrival to different meteorological scenarios. The knowledge of the air masses over a region is fundamental as complementary information in several atmospheric studies, being the calculation of back-trajectory the most widely used tool whenever air masses are analyzed. A study of air masses has been carried out in southwestern Iberian Peninsula using 5-day kinematic back trajectories computed by the HYSPLIT model at three heights (500, 1,500 and 3,000 m) from 1997 to 2007. The main aims have been to characterize their vertical behaviour and their thermal and humidity properties. Thirteen trajectory clusters have been defined, showing the northerly and westerly clusters a high coupling degree. Seasonal daily variation of potential temperature and specific humidity has been analyzed, obtaining higher differences among clusters in the cold season. 相似文献
89.
对2000年春季一次高空槽快速移动影响的暴雨天气过程发生的特殊性进行分析,寻找这次暴雨过程发生的前期特征. 相似文献
90.
Yanmin Yang De Li Liu Muhuddin Rajin Anwar Heping Zuo Yonghui Yang 《Theoretical and Applied Climatology》2014,115(3-4):391-410
Conceptions encompassing climate change are irreversible rise of atmospheric carbon dioxide (CO2) concentration, increased temperature, and changes in rainfall both in spatial- and temporal-scales worldwide. This will have a major impact on wheat production, particularly if crops are frequently exposed to a sequence, frequency, and intensity of specific weather events like high temperature during growth period. However, the process of wheat response to climate change is complex and compounded by interactions among atmospheric CO2 concentration, climate variables, soil, nutrition, and agronomic management. In this study, we use the Agricultural Production Systems sIMulator (APSIM)-wheat model, driven by statistically downscaled climate projections of 18 global circulation models (GCMs) under the 2007 Intergovernmental Panel on Climate Change (IPCC) Special Report on Emission Scenarios (SRES) A2 CO2 emission scenario to examine impact on future wheat yields across key wheat growing regions considering different soil types in New South Wales (NSW) of Australia. The response of wheat yield, yield components, and phenology vary across sites and soil types, but yield is closely related to plant available water capacity (PAWC). Results show a decreasing yield trend during the period of 2021–2040 compared to the baseline period of 1961–1990. Across different wheat-growing regions in NSW, grain yield difference in the future period (2021–2040) over the baseline (1961–1990) varies from +3.4 to ?14.7 %, and in most sites, grain number is decreased, while grain size is increased in future climate. Reduction of wheat yield is mainly due to shorter growth duration, where average flowering and maturing time are advanced by an average of 11 and 12 days, respectively. In general, larger negative impacts of climate change are exhibited in those sites with higher PAWC. Current wheat cultivars with shorter growing season properties are viable in the future climate, but breading for early sowing wheat varieties with longer growing duration will be a desirable adaptation strategy for mitigating the impact of changing climate on wheat yield. 相似文献