Seismotectonic environment of occurring the February 3, 1996 Lijiang M=7.0 earthquake, Yunnan Province   总被引：1，自引：0，他引：1  

韩竹军  虢顺民  向宏发  张家声  冉勇康 《地震学报(英文版)》2004,17(4)

Introduction The surface rupture and aftershocks of the February 3, 1996 Lijiang earthquake are basically distributed along the N-S-trending Lijiang-Daju fault, which is boundary fault between Lijiang Quaternary, fault controlled basin and Yulong-Haba range (ZHANG, et al, 1997). Corresponding to the surface geological features, the focal rupture of the Lijiang earthquake also shows large component of dip-slip. It is of great difference from that of other earthquakes in west Yunnan, in w…  相似文献   

Seismotectonic environment of occurring the February 3, 1996 Lijiang M=7.0 earthquake, Yunnan Province     

HAN  Zhu-jun 《地震学报(英文版)》2004,17(4):453-463

Lijiang-Daju fault, the seismogenic fault of the 1996 Lijiang M=7.0 earthquake, can be divided into Lijiang-Yuhu segment in the south and Yuhu-Daju segment in the north. The two segments show clear difference in geological tectonics, but have the similar dynamic features. Both normal dip-slip and sinistral strike-slip coexist on the fault plane. This kind of movement started at the beginning of the Quaternary (2.4～2.5 Ma B.P.). As to the tectonic types, the detachment fault with low angle was developed in the Early Pleistocene and the normal fault with high angle only after the Mid-Pleistocene (0.8 Ma B.P.). Based on the horizontal displacements of gullies and the vertical variance of planation surfaces cross the Lijiang-Daju fault at east piedmont of Yulong-Haba range, the average horizontal and vertical slip rates are calculated. They are 0.84 mm/a and 0.70 mm/a since the Quaternary and 1.56 mm/a and 1.69 mm/a since the Mid-Pleistocene. The movements of the nearly N-S-trending Lijiang-Daju fault are controlled not only by the regional stress field, but also by the variant movement between the Yulong-Haba range and Lijiang basin. The two kinds of dynamic processes form the characteristics of seismotectonic environment of occurring the 1996 Lijiang earthquake.  相似文献   

基于GRNN模型的岩溶地区城市水生态足迹分析与预测   总被引：5，自引：0，他引：5  

杨振华  苏维词  赵卫权  谢砫军  李艳丽 《中国岩溶》2016,35(1):36-42

为揭示岩溶地区城市生态足迹的驱动因子与机制,评估和预测水资源可持续利用程度,根据岩溶地区水文地质特征及其与水生态足迹的相关性,分析了贵阳市2002-2014年水生态足迹的变化特征,并利用GRNN模型对其进行了时间序列预测。结果表明,贵阳市水生态足迹由2002年的12.79万hm2上升至2014年的15.74万hm2,整体呈波动上升趋势,其中,水量生态足迹变化特征主要由工业用水量决定,水质生态足迹变化特征主要由氨氮排放量决定。水生态承载力波动变化明显,且小于水生态足迹需水量,导致水资源可持续利用系数介于0.31~0.63之间。对贵阳市2015-2019年水生态足迹进行GRNN预测,表明水生态足迹呈现先升后降得趋势,水生态承载力变幅在4.315~8.038万hm2之间,但水生态足迹与承载力的缺口大,水资源可持续利用系数偏低。因此,在水生态承载力有限的贵阳市,降低水生态足迹才是实现水资源可持续利用的关键。  相似文献   

四川道孚八美糜棱岩石林形态特征及综合评价   总被引：2，自引：2，他引：0       下载免费PDF全文

高竹军  李忠东  卢志明  杨金山 《华东地质》2016,(3):229-234

八美石林是在青藏高原东侧首次发现的、国内唯一的糜棱岩石林,可与南方喀斯特石林景观相媲美,在地质成因和自然环境等方面具有特殊性。对石林形态的划分,尤其是对糜棱岩石林形态的划分,国内目前还没有统一的标准。本文从糜棱岩石林的地貌形态、相对高差及旅游美学的角度,将八美糜棱岩石林初步划分为尖棱状、刀刃状、石墙、石柱、石槽、金字塔状及钟状等七种类型,这对研究糜棱岩石林的成因及综合评价具有重要意义。  相似文献   

基于水位和雨量的洪涝受灾面积评估模型研究     

周月华  郭广芬  邵末兰  李竹君 《湖北气象》2007,26(4):323-327

在分析湖北省洪涝灾害孕灾环境和致灾因子的基础上,利用民政部门整理的1951～2000年洪涝受灾面积资料,建立了基于长江中游流域逐月最高水位和湖北省5～10月降水总量的湖北省洪涝灾害受灾面积定性和定量评估模型,并给出了该模型2001～2006年的独立样本检验值,探讨了该模型在年度灾害趋势预估和灾后评估中的应用。  相似文献   

随钻测量定向钻进技术在矿井顶板水患治理中的应用研究          下载免费PDF全文

曹主军 《探矿工程》2015,42(2):23-27

西北侏罗系顶板裂隙水害是我国煤矿水害主要类型之一,严重影响了矿井的正常生产,并构成了安全隐患。提出采用随钻测量定向钻进技术施工定向长钻孔进行顶板水探放的治理方案,并对钻进成孔工艺和钻探装备进行了选配。选择红柳煤层3121工作面进行了现场应用,施工的定向长钻孔终孔平均出水量是相邻工作面常规钻孔的269倍,相同疏放周期时放水量是常规钻孔的415倍,成功对2个顶板含水层进行探放并达到安全开采要求,起到超前长距离区域探放顶板水的效果,同时可节约78%工期。现场应用情况表明,随钻测量定向钻进技术在顶板水害防治中具有广阔的应用前景,可为类似矿井提供参考。  相似文献   

RESEARCH OF SEISMOGENIC STRUCTURE OF THE MENYUAN M_S6.4 EARTHQUAKE ON JANUARY 21, 2016 IN LENGLONGLING AREA OF NE TIBETAN PLATEAU          下载免费PDF全文

JIANG Wen-liang  LI Yong-sheng  TIAN Yun-feng  HAN Zhu-jun  ZHANG Jing-fa 《地震地质》2017,39(3):536-549

On January 21 2016, an earthquake of M_S6.4 hit the Lenglongling fault zone(LLLFZ)in the NE Tibetan plateau, which has a contrary focal mechanism solution to the Ms 6.4 earthquake occurring in 1986. Fault behaviors of both earthquakes in 1986 and 2016 are also quite different from the left-lateral strike-slip pattern of the Lenglongling fault zone. In order to find out the seismogenic structure of both earthquakes and figure out relationships among the two earthquakes and the LLLFZ, InSAR co-seismic deformation map is constructed by Sentinel -1A data. Moreover, the geological map, remote sensing images, relocation of aftershocks and GPS data are also combined in the research. The InSAR results indicate that the co-seismic deformation fields are distributed on both sides of the branch fault(F₂)on the northwest of the Lenglongling main fault(F₁), where the Earth's surface uplifts like a tent during the 2016 earthquake. The 2016 and 1986 earthquakes occurred on the eastern and western bending segments of the F₂ respectively, where the two parts of the F₂ bend gradually and finally join with the F₁. The intersections between the F₁ and F₂ compose the right-order and left-order alignments in the planar geometry, which lead to the restraining bend and releasing bend because of the left-lateral strike-slip movement, respectively. Therefore, the thrust and normal faults are formed in the two bending positions. In consequence, the focal mechanism solutions of the 2016 and 1986 earthquakes mainly present the compression and tensional behaviors, respectively, both of which also behave as slight strike-slip motion. All results indicate that seismic activity and tectonic deformation of the LLLFZ play important parts in the Qilian-Haiyuan tectonic zone, as well as in the NE Tibetan plateau. The complicated tectonic deformation of NE Tibetan plateau results from the collisions from three different directions between the north Eurasian plate, the east Pacific plate and the southwest Indian plate. The intensive tectonic movement leads to a series of left-lateral strike-slip faults in this region and the tectonic deformation direction rotates clockwise gradually to the east along the Qilian-Haiyuan tectonic zone. The Menyuan earthquake makes it very important to reevaluate the earthquake risk of this region.  相似文献   

TECTONIC INDICATIONS OF OCCURRENCE OF MODERATE-TO-STRONG EARTHQUAKES IN CHAOHU-TONGLING AREA,ANHUI PROVINCE          下载免费PDF全文

GUO Peng  HAN Zhu-jun  ZHOU Ben-gang  ZHOU Qing  MAO Ze-bin 《地震地质》2018,40(4):832-849

The Chaohu-Tongling area in Anhui Province is a typical moderate-to-strong earthquake active area in the mainland of China. Four earthquakes occurred in this area, displayed as a NNE-trending zonal distribution, including the 1585 M5(3/4) Chaoxian earthquake and the 1654 M5(1/4) Lujiang earthquake, which formed a striking moderate-to-strong seismic activity zone. Field survey, shallow geophysical prospecting, drilling data, collection and dating of chronology samples and comprehensive analysis of fault activity indicate that the Fanshan, Xiajialing and Langcun faults are not active since Quaternary. The NNE-trending Tongling Fault is a buried middle-Pleistocene fault, but it can produce moderate-to-strong earthquakes and control the evolution and development of three en echelon geologic structures. The intensity of the four earthquakes is characterized by southward progressive decrease, which is in accordance with the characteristics that the subsidence range of Wuwei Basin is obviously larger than that of Guichi Basin to its south since late Cenozoic. In terms of deep structure, the characteristics of spatial distribution of Tongling Fault indicate that it corresponds to a NNE-striking Bouguer gravity anomaly gradient belt. So there is a spatial correspondence between the middle-Pleistocene Tongling Fault, the en echelon structures, the differential movement of the neotectonics, the Bouguer gravity anomaly gradient belt and the moderate-to-strong seismic activity belt in the Chaohu-Tongling area, indicating that they should be the tectonic indications of occurrence for moderate-to-strong earthquakes.  相似文献   

Using live vegetation volume to analyze the effects of plot Pinus massoniana Lamb on water and soil conservation under natural rainfall events   总被引：1，自引：0，他引：1  

Zhu-jun GU  Xiao-xia WU  Xiao-lei WANG  Shao-yun PENG  Hao LUO  Xue-zheng SHI  Dong-sheng YU 《国际泥沙研究》2013,28(4):579-587

The 3-D spatial distributions of vegetation are of great significance for water and soil conservation but are rarely concerned in literatures. The live vegetation volume （LVV） was used to relate to water/soil loss under 144 natural erosive rainfall events from 2007 to 2010 in a typical water-eroded area of southern China. Quadratic polynomial regression models were established for five pure tree （Pinus massoniana Lamb） plots between LVV and water （rtmoff）/soil conservation effects （RE/SE）. RE/SE corresponds to the ratios of runoff depth/soil loss of the pure tree plots to that of the control plot under each rainfall event. Increasing LVV exhibits descending （DS）, descending-ascending （DA）, ascending-descending （AD）, and ascending （AS） trends in the LVV-RE and LVV-SE curves. The effects of soil conservation on the plots were generally more noticeable than the effects of water conservation, and most of the RE and SE values reflected the positive effects of water and soil conservation. The effects were mainly positive under heavy rains （e.g., rainfall erosivity, R = 140 MJ mm ha-l h, maximum 30 min intensity, I30 = 16 mm h-l）, whereas the effects were mainly negative under light rains （e.g., R = 45 MJ mm ha-1 h, I30 = 8 mm h-l）. The trees＇ water/soil conservation effects notably transformed when rainfall erosivity and intensity were lower than the positive or negative effects to a certain threshold. About 50% rainfall events led to obvious transform effects when LVVs were near 0.5 or 0.6. These results are able to aid in the decision making on the forest reconstruction in water-eroded areas.  相似文献   

中国东部中强地震发生的地震地质标志初探   总被引：4，自引：2，他引：2  

向宏发  韩竹军  张晚霞  曾建华  肖和平 《地震地质》2008,30(1):202-208

中国东部地区,尤其是105°~120°E,20°~35°N的中国东南部大陆地区,自有史记载以来,少有7级以上的地震发生,却有不少5~6级左右的中强地震。研究此类中强地震发生的地震地质标志很有必要。对此,经初步分析认为:1)中国东部大多数中强地震发生在早第四纪(早、中更新世)活动断裂带附近;2)中国东部大多数5~6级中强地震都与第四纪断陷盆地的发育、分布有关;3)具有明显第四纪活动的构造地貌特征的地区,如线性断层地貌或地貌面的线性分布区具备孕发中强地震的可能性;4)有历史记载以来4~5级地震活动带的空区或缺震地区,也存在发育5~6级地震的可能性  相似文献