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121.
122.
The ionospheric radiance and electron density observed by the tiny ionospheric photometer (TIP) and GPS occultation experiment
(GOX) payloads on FORMOSAT-3/COSMIC satellites are applied to determine the boundaries of the auroral oval and its width in
the winter nighttime ionosphere for both hemispheres. The TIP collects ionospheric emission at 135.6 nm due to electron impact
excitation, while the GOX offers ionospheric electron density profiles with radio occultation (RO) technique. Comparison between
them shows similar patterns of the plasma structure in the polar caps. The mean width of the auroral bands ranges between
about 2 and 11° latitude in the winter nighttime and it varies with longitudes. The comparison by month suggests that the
mean radius of the auroral ovals varies with the intensity of the auroral radiance. 相似文献
123.
Ya-Ju Hsu Paul Segall Shui-Beih Yu Long-Chen Kuo Charles A. Williams 《Geophysical Journal International》2007,169(2):367-379
We use GPS displacements collected in the 15 months after the 1999 Chi-Chi, Taiwan earthquake ( M w 7.6) to evaluate whether post-seismic deformation is better explained by afterslip or viscoelastic relaxation of the lower crust and upper mantle. We find that all viscoelastic models tested fail to fit the general features in the post-seismic GPS displacements, in contrast to the satisfactory fit obtained with afterslip models. We conclude that afterslip is the dominant mechanism in the 15-month period, and invert for the space–time distribution of afterslip, using the Extended Network Inversion Filter. Our results show high slip rates surrounding the region of greatest coseismic slip. The slip-rate distribution remains roughly stationary over the 15-month period. In contrast to the limited coseismic slip on the décollement, afterslip is prominent there. Maximum afterslip of 0.57 m occurs downdip and to the east of the hypocentral region. Afterslip at hypocentral depths is limited to the southern part of the main shock rupture, with little or no slip on the northern section where coseismic slip was greatest. Whether this results from along strike variations in frictional properties or dynamic conditions that locally favour stable sliding is not clear. In general, afterslip surrounds the area of greatest coseismic slip, consistent with post-seismic slip driven by the main shock stress change. The total accumulated geodetic afterslip moment is 3.8 × 1019 N m , significantly more than the seismic moment released by aftershocks, 6.6 × 1018 N m . Afterslip and aftershocks appear to have different temporal evolutions and some spatial correlations, suggesting that aftershock rates may not be completely controlled by the rate of afterslip. 相似文献
124.
Kuo-Chin Hsu Chung-Ho Wang Kuan-Chih Chen Chien-Tai Chen Kai-Wei Ma 《Hydrogeology Journal》2007,15(5):903-913
The Pingtung Plain is one of the most important groundwater-resource areas in southwestern Taiwan. The overexploitation of
groundwater in the last two decades has led to serious deterioration in the quantity and quality of groundwater resources
in this area. Furthermore, the manifestation of climate change tends to induce the instability of surface-water resources
and strengthen the importance of the groundwater resources. Southwestern Taiwan in particular shows decreasing tendencies
in both the annual amount of precipitation and annual precipitation days. To effectively manage the groundwater resources
of the Pingtung Plain, a numerical modeling approach is adopted to investigate the response of the groundwater system to climate
variability. A hydrogeological model is constructed based on the information from geology, hydrogeology, and geochemistry.
Applying the linear regression model of precipitation to the next two decades, the modeling result shows that the lowering
water level in the proximal fan raises an alarm regarding the decrease of available groundwater in the stress of climate change,
and the enlargement of the low-groundwater-level area on the coast signals the deterioration of water quantity and quality
in the future. Suitable strategies for water-resource management in response to hydrological impacts of future climatic change
are imperative.
Resumen La llanura Pingtung constituye uno de los recursos de aguas subterráneas más importantes en el Suroeste de Taiwan. La sobreexplotación de las aguas subterráneas en las dos últimas décadas ha dado lugar a un serio deterioro de la calidad y la cantidad de los recursos subterráneos en esta área. En particular el Suroeste de Taiwan muestra una tendencia decreciente en las cantidades de precipitación y en los días anuales de lluvia. Para gestionar de forma efectiva los recursos subterráneos en la Llanura Pingtung, se ha utilizado un modelo numérico aproximado para investigar la respuesta de las aguas subterráneas a la variabilidad climática. Un modelo hidrogeológico se construye a partir de la información geológica, hidrogeológica y geoquímica. Aplicando el modelo de regresión linear de la precipitación para las próximas dos décadas, el modelo resultante muestra que el descenso de los niveles de agua en el abanico proximal es alarmante, observándose el descenso del agua subterránea disponible en la presión del cambio climático, y el crecimiento del área de descensos de niveles de agua subterránea en la costa apunta a un deterioro de la cantidad y calidad del agua subterránea en el futuro. Se imponen pues, estrategias apropiadas para la gestión de los recursos hídricos en respuesta a los impactos hidrológicos del futuro cambio climático.
Résumé La plaine de Pingtung est l’une des plus importantes zones de ressource en eau souterraine du Sud-Ouest de Taiwan. La surexploitation de l’eau souterraine durant les deux dernières décennies a conduit à une sérieuse détérioration de la quantité et de la qualité des ressources en eau souterraine dans cette zone. De plus, la manifestation des changements climatiques tend à induire une instabilité des ressources en eau souterraine et renforce l’importance des ressources en eau souterraine. Le Sud-Ouest de Taiwan montre, en particulier, des précipitations annuelles et des nombres annuels de jour de pluie à la baisse. Pour gérer efficacement les ressources en eau souterraine de la Plaine de Pingtung, une approche par modélisation numérique est adoptée pour étudier la réponse du système hydrogéologique aux variabilités climatiques. La construction du modèle hydrogéologique est basée sur les informations géologiques, hydrogéologiques et géochimiques. En appliquant le modèle de régression linéaire aux précipitations pour les deux prochaines décades, le résultat de la modélisation montre que la baisse du niveau d’eau atteint un état alarmant au regard de la décroissance des eaux souterraines disponibles et la contrainte du changement climatique, tandis que l’extension de la zone de niveau bas des eaux souterraines à la cote indique une détérioration de la quantité et de la qualité de l’eau dans le futur. Des stratégies convenables pour la gestion des ressources en eau souterraine en réponse aux impacts hydrologiques de futurs changements climatiques sont impératifs.相似文献
125.
Yuan‐Sen Yang Shang‐Hsien Hsieh Keh‐Chyuan Tsai Shiang‐Jung Wang Kung‐Juin Wang Wei‐Choung Cheng Chuan‐Wen Hsu 《地震工程与结构动力学》2007,36(15):2291-2306
An Internet‐based framework, named Internet‐based Simulation for Earthquake Engineering (ISEE) was developed to facilitate collaborative earthquake engineering experiments performed by multiple laboratories in a network environment. One of the approaches in the ISEE framework, named Database Approach, offers an easy way to perform multi‐site networked collaborative pseudo‐dynamic experiments. The Database Approach uses the Structured Query Language (SQL), a common and standardized computer language used in database management systems, for inter‐laboratory communications. Using the SQL protocol, it is easy to monitor the experiments' progress, access the data, as well as develop additional programs to expand the functions for a networked experiment. This approach offers consistency and durability of selected experimental data both during and after experiments. Two networked pseudo‐dynamic experiments were conducted to demonstrate the feasibility and expansibility of the Database Approach in ISEE. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
126.
The frequency, intensity, and diurnal cycle of precipitation in surface and satellite observations over low- and mid-latitudes 总被引:3,自引:1,他引:3
Global precipitation data sets with high spatial and temporal resolution are needed for many applications, but they were unavailable
before the recent creation of several such satellite products. Here, we evaluate four different satellite data sets of hourly
or 3-hourly precipitation (namely CMORPH, PERSIANN, TRMM 3B42 and a microwave-only product referred to as MI) by comparing
the spatial patterns in seasonal mean precipitation amount, daily precipitation frequency and intensity, and the diurnal and
semidiurnal cycles among them and with surface synoptic weather reports. We found that these high-resolution products show
spatial patterns in seasonal mean precipitation amount comparable to other monthly products for the low- and mid-latitudes,
and the mean daily precipitation frequency and intensity maps are similar among these pure satellite-based precipitation data
sets and consistent with the frequency derived using weather reports over land. The satellite data show that spatial variations
in mean precipitation amount come largely from precipitation frequency rather than intensity, and that the use of satellite
infrared (IR) observations to improve sampling does not change the mean frequency, intensity and the diurnal cycle significantly.
Consistent with previous studies, the satellite data show that sub-daily variations in precipitation are dominated by the
24-h cycle, which has an afternoon–evening maximum and mean-to-peak amplitude of 30–100% of the daily mean in precipitation
amount over most land areas during summer. Over most oceans, the 24-h harmonic has a peak from midnight to early morning with
an amplitude of 10–30% during both winter and summer. These diurnal results are broadly consistent with those based on the
weather reports, although the time of maximum in the satellite precipitation is a few hours later (especially for TRMM and
PERSIANN) than that in the surface observations over most land and ocean, and it is closer to the phase of showery precipitation
from the weather reports. The TRMM and PERSIANN precipitation shows a spatially coherent time of maximum around 0300–0600
local solar time (LST) for a weak (amplitude <20%) semi-diurnal (12-h) cycle over most mid- to high-latitudes, comparable
to 0400–0600 LST in the surface data. The satellite data also confirm the notion that the diurnal cycle of precipitation amount
comes mostly from its frequency rather than its intensity over most low and mid-latitudes, with the intensity has only about
half of the strength of the diurnal cycle in the frequency and amount. The results suggest that these relatively new precipitation
products can be useful for many applications. 相似文献
127.
The hydrological response of the Choshuishi alluvial fan to the 1999 Chi-Chi earthquake shows that the earthquake did impact the aquifer. The possible earthquake-induced changes in hydrogeological properties were investigated in this study. First, contour maps of the hydrologic anomaly, seismic factors, and vertical ground-surface displacement were compared qualitatively. Bulls eye patterns were found on the contour maps of hydraulic conductivity, coseismic groundwater-level change and vertical ground-surface displacement but did not occur with other seismic factors. The more permeable zones of the aquifer were found to coincide with the locations of greater vertical ground-surface displacement and coseismic groundwater-level change in the 1999 Chi-Chi earthquake. This indicates that the change of the hydrogeologic properties of Choshuishi alluvial fan due to the 1999 Chi-Chi earthquake may have mainly occurred in the highly permeable zones. Fractal, cross semivariogram and cross correlogram analyses were performed to quantitatively measure the persistency, variability and similarity, respectively, of spatial hydrologic response, seismic factors and hydraulic conductivity. The groundwater-level change, earthquake intensity, and vertical ground-surface displacement were found to show antipersistent tendencies while other factors showed the opposite. Higher correlations were found between hydraulic conductivity and groundwater-level change in aquifers 2–1 and 2–2, and between hydraulic conductivity and vertical ground-surface displacement in aquifer 3. Changes in porosities and hydraulic conductivity were evaluated in the main aquifers of the Choshuishi alluvial fan based on the data of hydrologic anomaly and the vertical ground-surface displacement. While both approaches show that the 1999 Chi-Chi earthquake has impacted the Choshuishi alluvial fan by reducing its porosity and hydraulic conductivity, these changes were not significant relative to natural variation in hydraulic conductivity.This revised version was published in May 2005 with correction to the rubric. 相似文献
128.
129.
Chung-Ming Liu Ming-Chin Wu Sahana Paul Ying-Chen Chen Shu-Hua Lin Wei-Shiang Lin Yen-Chih Lee Huang-Hsung Hsu Ren-Yow Tseng Cheng-Ta Chen 《Theoretical and Applied Climatology》2011,103(1-2):265-278
Runs of three regional climate models (RCMs) dynamically downscaling the outputs of atmosphere?Cocean coupling general circulation models (AOGCMs) are studied. These RCMs are NCAR-MM5, NCEP-RSM (Regional Spectral Model), and Purdue-PRM (Purdue Regional Model). A useful approach is developed to compare the variability, error, and spatial distribution of model-simulated results with respect to the Climatic Research Unit (CRU) datasets over East Asia and seven sub-regions during the 1990s. The results show that NCEP-RSM outperforms the other two in meeting criteria selected on evaluating the model performance. Furthermore, three super-ensemble approaches are tested on merging RCMs?? outputs. The inverse of the square error summation (ISES) method is selected as a suitable method with a generally good performance during the verification period. The projected future climate changes by ISES indicate larger temperature increases over high-latitude continent and smaller over low-latitude maritime areas. Rainfall will increase in summer over the central simulation domain, i.e. the eastern China, but decrease in winter, which are clearly linked to the variation in the synoptic airflows. Also, a more frequent occurrence of extreme rainfall events than what happened in the 1990s is projected. The projection over Taiwan suggests strong warming in summer, followed by autumn, winter, and spring. The interaction between the synoptic flow and the local terrain affects significantly the changes in precipitation. In general, larger change of the variability of rainfall will be over areas with lesser rainfall in the future, while lesser change will be over areas with more projected rainfall. 相似文献
130.
SPT-N-based methods have been adopted for liquefaction assessment of soils during earthquakes for decades. However, there has not been a consistent way of assessing the accuracy and applicability of these methods. The Chi-chi earthquake of 1999, which has been the most serious ground shaking in Taiwan within the century, caused extensive liquefactions in mid-west alluvial deposits of the island. This paper assesses the prediction accuracy of several SPT-N-based methods using liquefaction and non-liquefaction incidents observed during the earthquake. A sensitivity study on commonly adopted parameters shows that the SPT blow count and peak ground acceleration are most sensitive in computing liquefaction potential. By comparing the error in predicting liquefaction and non-liquefaction incidents, this study concludes that Tokimatsu and Yoshimi’s method is more accurate than the other methods. However, the differences between prediction errors of various methods are minimal, indicating all of the methods examined are applicable for the 1999 earthquake in Taiwan. 相似文献