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Science China Earth Sciences - 相似文献
2.
Three-dimensional thermal structure of the Chinese continental crust and upper mantle 总被引:3,自引:0,他引:3
We invert S-wave velocities for the 3D upper-mantle temperatures, in which the position with a temperature crossing the 1300℃ adiabat is corresponding to the top of the seismic low velocity zone. The temperatures down to the depth of 80 km are then calculated by solving steady-state thermal conduction equation with the constraints of the inverted upper-mantle temperatures and the surface temperatures, and then surface heat flows are calculated from the crustal temperatures. The misfit between the calculated and observed surface heat flow is smaller than 20% for most regions. The result shows that, at a depth of 25 km, the crustal temperature of eastern China (500―600℃) is higher than that of western China (<500℃). At a depth of 100 km, temperatures beneath eastern and southeastern China are higher than the adiabatic temperature of 1300℃, while that beneath west China is lower. The Tarim craton and the Sichuan basin show generally low temperature. At a depth of 150 km, temperatures beneath south China, eastern Yangtze craton, North China craton and around the Qiangtang terrane are higher than the adiabatic temperature of 1300℃, but is the lowest beneath the Sichuan basin and the regions near the Indian-Eurasian collision zone. At a depth of 200 km, very low temperature occurs beneath the Qinghai-Tibet Plateau and the south to the Tarim craton. 相似文献
3.
1 Introduction Thermal inertia is a bulk property that shows the re- sistance of a material to an input or output of heat. This plays a very important role in certain geological and hydrological studies, and climate modeling. In the 1970s, a simple thermal inertia model was proposed by Watson et al.[1―3]. Pratt (1979)[4] improved the thermal inertia model based on application tests where more factors were considered such as solar ra- diance, thermal conductivity effect, average humidity of g… 相似文献
4.
The Santa Rosa–Calico volcanic field (SC) of northern Nevada is a complex, multi-vent mid-Miocene eruptive complex that formed
in response to regional lithospheric extension and flood basalt volcanism. Santa Rosa–Calico volcanism initiated at ∼16.7 Ma,
concurrent with regional Steens–Columbia River flood basalt activity and is characterized by a complete compositional spectrum
of basalt through high-silica rhyolite. To better understand the relationships between upwelling mafic magmatism, coeval extension,
and magmatic system development on the Oregon Plateau we have conducted the first comprehensive study of Santa Rosa–Calico
silicic volcanism. Detailed stratigraphic-based field sampling and mapping illustrate that silicic activity in this volcanic
field was primarily focused along its eastern and western margins. At least five texturally distinct silicic units are found
in the western Santa Rosa–Calico volcanic field, including abundant lava flows, near vent deposits, and shallow intrusive
bodies. Similar physical features are found in the eastern portion of the volcanic field where four physically distinct units
are present. The western and eastern Santa Rosa–Calico units are characterized by abundant macro- and microscopic disequilibrium
textures, reflecting a complex petrogenetic history. Additionally, unlike other mid-Miocene Oregon Plateau volcanic fields
(e.g. McDermitt), the Santa Rosa–Calico volcanic field is characterized by a paucity of caldera-forming volcanism. Only the
Cold Springs tuff, which crops out across the central portion of the volcanic field, was caldera-derived. Major and trace
element geochemical variations are present within and between eastern and western Santa Rosa–Calico silicic units and these
chemical differences, coupled with the observed disequilibrium textures, illustrate the action of open-system petrogenetic
processes and melt derivation from heterogeneous source materials. The processes and styles of Santa Rosa–Calico silicic magmatism
are linked to three primary factors, local focusing of and thermal and material contributions from the regional flood basalt
event, lithospheric extension within the northern portion of the Northern Nevada rift, and interaction of mid-Miocene silicic
magmas with pre-Santa Rosa–Calico lithosphere. Similar processes and styles of mid-Miocene silicic volcanism likely occurred
across the Oregon Plateau in regions characterized by both focused lithospheric extension and localized mafic magmatism.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
This paper constitutes part of a special issue dedicated to Bill Bonnichsen on the petrogenesis and volcanology of anorogenic
rhyolites. 相似文献
5.
Zuji Qiang Changgong Dian Lingzhi Li Min Xu Fengsha Ge Tao Liu Yong Zhao Manhong Guo 《中国科学D辑(英文版)》1999,42(3):313-324
Mechanism of satellitic thermo-infrared brightness temperature and temperature increaming is studied. Experiments are made
with a gas sample taken around the epicenter area. The gas ample is pmved to contain green house gases such as CH4, and CO2 which have increased by tens of thousands of times. In addition, lab research slso pmes that CH4, and CO2 can obtain energy under the action of transient electric field and release heat, thus reeulting in a temperature increase
of 2–6°C. Also a brief account of practices since 1990 is given; altogether 40 short-tenn and impending earthquake predictions
have been made, with 9 precise ones whose three main factors of an earthquake are clearly depicted, and 12 fairly good ones.
These predictions include 3 earthquakes ofM.⩾ 7, 4 ofM.⩾ 6.0 and the rest are mundM. 5.0. Yet there are earthquakes left out of prediction. Finally the evolutionwy processing characters of satellitic thermo-infrared
brightness temperature and temperature increase before the Lijiang earthquake on Feb. 3, 1996 and Tangshan earthquake on April
14, 1998 are introduced in detail. The conclusion makes a study on the regularities of connection among time, space and stress
when there appears the satellitic thermal-inlinred brightness tempera- and temperature increasing anomaly.
Project supported by the State 863 High-Tech Project (Grant No. 863-2-7-4-18) 相似文献
6.
Introduction The velocity field of surface plate motion can be split into a poloidal and a toroidal parts.At the Earth′s surface,the toroidal component is manifested by the existence of transform faults,and the poloidal component by the presence of convergence and divergence,i.e.spreading and subduc-tion zones.They have coupled each other and completely depicted the characteristics of plate tec-tonic motions.The mechanism of poloidal field has been studied fairly clearly which is related to … 相似文献
7.
C.T. Seagle D.L. Heinz A.J. Campbell V.B. Prakapenka S.T. Wanless 《Earth and Planetary Science Letters》2008,265(3-4):655-665
Melting in the Fe–FeO system was investigated at pressures up to 93 GPa using synchrotron X-ray diffraction (XRD) and a laser heated diamond anvil cell (DAC). The criteria for melting were the disappearance of reflections associated with one of the end-member phases upon raising the temperature above the eutectic and the reappearance of those reflections on dropping the temperature below the eutectic. The Fe–FeO system is a simple eutectic at 50 GPa and remains eutectic to at least 93 GPa. The eutectic temperature was bound at several pressure points between 19 and 93 GPa, and in some cases the liquidus temperature was also determined. The eutectic temperature rises rapidly with pressure closely following the melting curve of pure Fe. A detailed phase diagram at 50 GPa is presented; the eutectic temperature is 2500 ± 150 K and the eutectic composition is bound between 7.6 ± 1.0 and 9.5 ± 1.0 wt.% O. The coefficient of thermal expansion of FeO is a strong function of volume and decreases with pressure according to a simple power law. 相似文献
8.
Introduction Mantle convection is thought to be the most effective way of heat transportation in the earth and the source of driving lithospheric plates (Elasser, 1971). The velocity field of plate motion can be split into poloidal and toroidal parts, which are corresponding to the vertical (i.e. radial) and horizontal motions, respectively, in global model. The toroidal component is manifested in the existences of transform faults and the poloidal one in the presences of convergence and diver… 相似文献
9.
Cao Hui He Lanfang He Zhanxiang Zhao Xiaoming 《应用地球物理》2006,3(4):248-254
High-frequency electromagnetic sounding is an electromagnetic exploration method using the natural high-frequency electromagnetic field as a field source. It has higher resolution and greater depth penetration than the direct current method and is especially fit for geothermal energy exploration and low- and mid-level groundwater detection. We introduce a successful application of high-frequency electromagnetic sounding for evaluating geothermal water resources. The high frequency electromagnetic system (MT-USA with a frequency range from 10 KHz to 1 Hz) is first applied to sample field data from China. A remote reference station is used to assure sampled data quality. We then perform 2D inversion image processing with the electrical method data. The results basically indicate the spatial distribution of underground geothermal water and provide favorable clues to finding the sources of the subsurface geothermal water in this area. 相似文献
10.
The heat flow in crust and the thermal stress generated by the flow play a very important role in earthquake occurrence. Different crustal structure has different effect on heat distribution and associated thermal stress. In all of typical seismogenic crustal structure models, including the bulge of Moho surface, the deep-large fault in the mid-lower crust, low-velocity and high-conductive layer in the middle crust, and the typical crustal structure in mid-upper crust, the thermal stress produced by deep heat disturbance may move up to the mid-upper crest. This leads to upper brittle part of crust break and hence, strong earthquakes. This result is constructive in enhancing our understanding of the role of deep fieat flow in curst in development of earthquake and its generation, as well as the generation mechanism of the shallow flowing fluid. 相似文献
11.
Formation cause of thermal infrared high temperature belt along Honghe fault and its relation to earthquakes 总被引:3,自引:0,他引:3
Introduction The relation between satellite thermal infrared anomaly and earthquakes or fault activities has been studied for more than ten years. Many researchers contribute themselves to the research field and made some progress (Gorny et al, 1988; Andrew et al, 2002; WANG and QIANG, 1995; ZHENG et al, 1996; QIANG and DIAN, 1998). In recent years, with the rapid development of satellite remote sensing technique and its wide application to the field of seismology, more and more rese… 相似文献
12.
The acceleration of the industrialization process in China has increased the demand for electricity and triggered a power-plant building boom, especially along China’s eastern coast, where the economy gets off early and enjoys a fast development. The thermal plumes, residual chlorine, nuclides and other pollutions produced by the thermal and nuclear power plants have exerted an impact on the coastal eco-environment. To monitor the thermal pollution from the power plants at Yueqing Bay on the eastern coast, in this research, the distribution of sea surface temperature (SST) surrounding the power plants is obtained by using the SST retrieval methods developed for Landsat Enhanced Thematic Mapper Plus (ETM+), HJ-1B infrared sensor (IRS) and Terra moderate resolution imaging spectroradiometer (MODIS) data. The comparison of the SST retrieval results before and after the operation of power plants indicates that the total area of sea waters that is impacted by the thermal discharge from the two power plants at Yueqing Bay is approximately 17.95 km2, with the highest SST rise of 4.5 °C appearing over the waters around the outlet of the Huaneng Yuhuan power plant on the eastern shore, whereas the highest SST rise around the Zheneng Yueqing power plant on the western shore reaches 3.8 °C. The intensity and scope of influence of the thermal discharge mainly depend on the installed capacity of power plants, coastal terrain, and tide. Although the area where the SST rise is more than 3 °C is not large, thermal discharge still has an impact on bay ecosystems due to the relatively closed nature of the bay environment. Due to the influence of rising water temperatures on the reproduction and individual evolution of fish, shrimp, crabs, shellfish and other aquatic creatures, in the long term, the thermal pollution from coastal power plants will affect the volume of natural fishery and biological resources throughout the waters. The quantitative retrieval results also suggest that relative to MODIS data, Landsat ETM+ and HJ-1B IRS data with a high spatial resolution are more applicable to the estimation of small-scale SST, and IRS data with a high temporal resolution are more helpful in the study of spatio-temporal variability of thermal plumes from coastal power plants. 相似文献
13.
Letizia Spampinato Sonia Calvari Clive Oppenheimer Luigi Lodato 《Journal of Volcanology and Geothermal Research》2008
The 26 October 2002–28 January 2003 eruption of Mt. Etna volcano was characterised by lava effusion and by an uncommon explosivity along a 1 km-long-eruptive fissure on the southern, upper flank of the volcano. The intense activity promoted rapid growth of cinder cones and several effusive vents. Analysis of thermal images, recorded throughout the eruption, allowed investigation of the distribution of vents along the eruptive fissure, and of the nature of explosive activity. The spatial and temporal distribution of active vents revealed phases of dike intrusion, expansion, geometric stabilization and drainage. These phases were characterised by different styles of explosive activity, with a gradual transition from fire fountaining through transitional phases to mild strombolian activity, and ending with non-explosive lava effusion. Here we interpret the mechanisms of the dike emplacement and the eruptive dynamics, according to changes in the eruptive style, vent morphology and apparent temperature variations at vents, detected through thermal imaging. This is the first time that dike emplacement and eruptive activity have been tracked using a handheld thermal camera and we believe that its use was crucial to gain a detailed understanding of the eruptive event. 相似文献
14.
F. Quattrocchi R. Pik L. Pizzino M. Guerra P. Scarlato M. Angelone M. Barbieri A. Conti B. Marty E. Sacchi G.M. Zuppi S. Lombardi 《Journal of Seismology》2000,4(4):567-587
After the earthquakes of September 26, 1997, that hit the Umbria-Marcheboundary (Apennine, Central Italy), with a maximum 6.0 Mw, aprogram of geochemical surveying together with a collection ofhydrogeological changes episodes was extended throughout theepicentre-area, taking the yearly period of the seismic sequence as a whole.After a first areal screening, the Bagni di Triponzo thermal spring wasselected for a discrete temporal monitoring (weekly and monthly basis),being the unique thermal spring throughout the epicentre area. This sitedeserves peculiar interest in deepening the knowledge about deep fluidscirculation changing during seismicity.Laboratory and on-field analyses included major, minor and trace elementsas well as dissolved gases (He, Ar, CH4, CO2, H2S,222Rn, NH4, As, Li, Fe, B, etc...) and selected isotopic ratios(C, H, O, He, Sr, Cl), meaningful from tectonic point of view.The chemistry and isotopic chemistry of the spring were fully outlined anddiscussed, pointing out the main process involving the thermal aquifer: thewater-rock interaction inside the Evaporite Triassic Basement (ETB),possibly involving also the Paleozoic Crystalline Basement. On theother hand, sudden and apparent geochemical and hydrogeologicalvariations during the seismic sequence ruled out an evolution in thewater-rock interaction processes. They occurred both at depth, i.e.,induced by fluid remobilization within the crust explained by the Coseismic Strain Model and by the Fault Valve Activity Model, and in the shallow part of the reservoir (i.e., meteoric watercontamination). A statistical multivariable analysis (Factor Analysis) wasaccomplished to better constrain the correlation between the paroxysmalphases of the seismic sequence and the observed trends and spike-likeanomalies. The groundwater variations was inferred to occur mainly insidethe ETB, from depth (1–2 km) up to surface, particularly in associationof the Sellano earthquake (14/10/1997) and of the seismic re-activationof the sequence at the end of March 1998 (Gualdo Tadino-Rigali andVerchiano areas). The lack of deeper input from below the ETB (slightsignature of PCB), as the lack of He mantle signature, during the seismicperiod as a whole, accounted for seismogenic fault segments rooted onlyin the crust. The results also provide useful information about theearthquake-related response mechanisms occurring at this site, thatrepresent the basic task for planning and managing the impendinghydro-geochemical network aimed at defining the relationships betweenseismic cycle, fluids and reliable earthquake forerunners. 相似文献
15.
ZHANG Renhua WANG Jinfeng ZHU Caiying SUN Xiaomin & ZHU Zhilin .Institute of Geographical Sciences Natural Resources Chinese Academy of Sciences Beijing China .Institute of Surveying Mapping Information Engineering University of the Chinese People''''s Liberation Army Zhengzhou China 《中国科学D辑(英文版)》2004,47(12):1134-1146
The research for the land surface fluxes has madea quiet great progress for its breakthroughs in the fieldof regional or global interactions between land surfaceand atmosphere. However, many remote sensing mod-els for estimating the land surface fluxes need the pa-rameters of surface momentum, heat, resistance ofwater vapor at a referenced height, which are the func-tion of aerodynamic surface roughness zad. It hasbeen validated that the retrieval of the land surfacefluxes is very sensitive to… 相似文献
16.
Bulletin of Volcanology - 相似文献
17.
J. Zlotnicki Y. Sasai J. P. Toutain E. U. Villacorte A. Bernard Julio P. Sabit Juan M. Gordon Jr Ernesto G. Corpuz M. Harada J. T. Punongbayan H. Hase T. Nagao 《Bulletin of Volcanology》2009,71(1):29-47
Since 1572, 33 phreatic to phreatomagmatic eruptions have occurred on Taal volcano (Philippines), some of them causing several
hundred casualties. Considering the time delay between two consecutive eruptions, there is an 88% probability that Taal volcano
should have already erupted. Since 1992, several phases of seismic activity have been recorded accompanied by ground deformation,
opening of fissures, and surface activity. The volcanic activity of Taal appears to be controlled by dike injections and magma
supply, buffered by a hydrothermal system that releases fluids and heat through boiling and subsequent steaming. In early
2005, a multidisciplinary project was launched for studying the hydrothermal activity. To map the hydrothermal system, combined
surveys were carried out to investigate self-potential, total magnetic field, ground temperature and carbon dioxide soil degassing,
along with satellite thermal imaging of the Main Crater Lake. The elevated temperatures and high concentrations of carbon
dioxide, as well as electromagnetic anomalies, indicate large-scale hydrothermal degassing. This process is enhanced along
the tectonic features (e.g., crater rim and faults) of the volcano, while active fissures opened along the E–W northern flank
during the 1992–1994 seismic activity. Heat and fluids from the hydrothermal system are essentially released in the northern
part of the crater, which is bounded to the South by a suspected NW–SE fault along which seismicity seems to take place, and
dikes are thought to be intruded. During the January 2005 surveys, a new seismic crisis started, and the felt earthquakes
prompted spontaneous evacuation of hundreds of inhabitants living on the volcano. Repeated surveys show changes of self-potential,
total magnetic field, and ground temperature with time, without any noticeable spatial enlargement. These observations suggest
that the northern flank located between the crater rim and the 1992–1994 fissures is connected with a deep thermal source
in Main crater and is reactivated during seismic crises. This sector could be subjected to flank failure. 相似文献
18.
To monitor heat losses using Landsat 7 thermal infrared data from 2002 to 2010 within the active fumarolic region of Kuju volcano in Japan, we used the Stefan-Boltzmann equation for radiative heat flux (RHF) estimation. Heat discharge rate (HDR) was calculated by using the relationship coefficient of RHF and HDR, obtained from two previous studies. The highest total RHF was found to be about 57.7 MW in 2002 and the lowest was about 21.1 MW in 2010. We found the highest HDR, of about 384.5 MW, in 2002 and the lowest, of about 140.8 MW, in 2010. The RHF anomalous areas were showing a declining trend during our study period. The relationship between the land surface temperature (LST) above ambient and RHF was, as expected, in a strong correlation for each result during our study period. Overall, our study was able to delineate the declining trend of heat losses that supports a previous study of similar declining trend of HDR using steam maximum diameter method from the active fumarolic region of Kuju volcano. 相似文献
19.
Shigehiko Tateno Kei Hirose Nagayoshi Sata Yasuo Ohishi 《Earth and Planetary Science Letters》2009,277(1-2):130-136
We have determined the post-perovskite phase transition boundary in MgSiO3 in a wide temperature range from 1640 to 4380 K at 119–171 GPa on the basis of synchrotron X-ray diffraction measurements in-situ at high-pressure and -temperature in a laser-heated diamond-anvil cell (LHDAC). The results show a considerably high positive Clapeyron slope of + 13.3 ± 1.0 MPa/K and a transition temperature of about 3520 ± 70 K at the core–mantle boundary (CMB) pressure. The thermal structure in D″ layer can be tightly constrained from precisely determined post-perovskite phase transition boundary and the depths of paired seismic discontinuities. These suggest that temperature at the CMB may be around 3700 K, somewhat lower than previously thought. A minimum bound on the global heat flow from the core is estimated to be 6.6 ± 0.5 TW. 相似文献
20.
ZHANG Renhua LI Zhaoliang SUN Xiaomin ZHU Zhilin & WANG Weimin Institute of Geographical Sciences Natural Resources Research Chinese Academy of Sciences Beijing China LSIIT 《中国科学D辑(英文版)》2005,(1)
This paper proposes a basic equation of thermal radiation interaction between surface objects on the basis of the principle of heat balance in the interface. The solution of this equation takes account of the contribution of sensible heat flux and latent heat flux more completely, compared with traditional solution for surface cooling and heating processes. By the aid of the experimental data conducted in the Xiaotangshan experimental site, Beijing, both the non-applicability of Kirchoff's law and the measurability of surface emissivity in a non-isothermal system have been highlighted. Two methods called ventilation and time-delay compensations have been proposed to reduce the error induced by change of surface temperatures of non-isothermal objects during the measurement of emissivity. Based on the solution of the basic equation, this paper has analyzed and pointed out the misunderstanding in comprehension and application of Kirchoff's law published in literature. 相似文献