二次土地调查中部分技术问题解决方法的探讨

通过土地利用更新调查与第二次土地调查在调查技术手段方面存在的主要差异对比,发现影像套合会使调查结果产生严重的误差。结合这几年从事土地利用更新调查工作经验,提出了差分校正法,不仅有效地解决了影像套合所带来的误差,还缩短了工作周期,提高了效率。     

Fracability Evaluation Based on the Three-Dimensional Geological Numerical Simulation of In Situ Stress: Case Study of the Longmaxi Formation in the Weirong Shale Gas Field,Southwestern China

Mathematical Geosciences - Quantitative evaluation of fracability is essential for hydraulic fracturing design, with the distribution of in situ stress being a key parameter. This study focused on...     

2021年四川泸县MS6.0地震震源性质及震前区域应力场特征

为了解2021-09-16四川泸县M_S6.0地震的发震机理,加强对四川盆地内地震活动性的认识,基于四川及周边地区地震台网的宽频带地震资料,利用CAP方法反演获得泸县地震的震源机制解和矩心深度;同时,基于震前四川盆地内155个震源机制解,利用MSATSI程序反演得到泸县地震震前四川盆地内的构造应力场。结果显示,泸县地震矩心深度为3 km,矩震级为M_W5.3,滑动性质为纯逆冲。震中附近震前构造应力最大主压应力和中间主压应力都近乎水平,最大主压应力在震中附近走向101°,此构造应力状态下,优势滑动断层为纯逆冲性质,与泸县地震震源机制一致。根据震源位置和性质、震前构造应力场及震中附近的断层性质推测,泸县地震发震断层不是华蓥山断裂,而是其分支和余脉之间极浅的盖层滑脱型断层。     

世界航天遥感技术现状、发展趋势及油气遥感应用方向

世界航天遥感技术发展迅速,掌握卫星发射技术和具备卫星发射能力的国家越来越多,其中,高分辨率小型商业卫星和雷达卫星已经成为重要的遥感信息源;高光谱分辨率遥感将是现今和下个世纪的发展方向。本文总结了世界航天遥感技术现状,分析了今后的发展趋势,提出了油气遥感应用的研究方向     

湖南省大通湖河蚬(Corbicula fluminea)现存量及其时空分布

大通湖是湖南省最大的养殖湖泊.随着河蚬经济价值的提升,大通湖河蚬Corbicula fluminea(Müller,1774)的开发强度逐年增加.为实现河蚬资源的合理开发,本研究在对大通湖河蚬形态特征、现存量及其时空分布调查分析基础上,重点探讨了养殖和软体动物捕捞对其资源的影响.结果显示,壳长大于6 mm河蚬的平均湿重(BW)、壳长(SL)、壳高(SH)和壳宽(SW)分别为1.41±0.03 g、14.82±0.09 mm、13.73±0.09 mm和9.72±0.06 mm,平均相对高度、圆度和凸度分别为0.930±0.001、0.660±0.001和0.710±0.001.河蚬壳长、壳高、壳宽与湿重的关系分别为:lg BW=-3.45+3.00 lg SL、lg BW=-3.23+2.89 lg SH、lg BW=-2.87+2.97 lg SW,表明河蚬为等速生长.2010 2011年,大通湖河蚬平均密度和生物量均较2009年显著增加.2009年,河蚬主要分布于中北部的蜜蜂夹湖区域,2010年开始,几乎遍布整个大通湖,但整体上呈现由东北向西南逐渐递减的趋势,密度和生物量高值均出现在大通湖中部,蜜蜂夹湖、大西湖与尼古湖交界区域.推测养殖过程中物化产品投入的增加是导致大通湖河蚬现存量快速增加的主要原因之一,软体动物捕捞加速了河蚬分布区域的扩展.据此提出了大通湖河蚬合理开发和有效保护的建议.     

长江口海平面上升对崇明三岛除涝安全的影响研究

对长江口海平面上升动态及其对沿海潮汐特性的影响进行了简析。结合长江口崇明三岛地区除涝安全面临海平面上升的影响和威胁,分别建立了基于海平面上升的上海市崇明三岛水系一维平原感潮河网水动力模型,深入开展了海平面上升对三岛地区除涝安全影响的模拟研究。结果显示,至2030年,长江口海平面上升10～16 cm,崇明三岛片区的面平均除涝最高水位、局部除涝最高水位均呈上升趋势,其中,崇明岛片受影响最大,对应水位将分别上升3～5 cm、4～6 cm;长兴岛片受影响次之,对应水位将分别上升3～4 cm、3～5 cm;横沙岛片受影响相对最小,对应水位均将上升1～2 cm;长江口海平面上升对崇明三岛的除涝安全影响在可控范围内。     

长江口水动力场、浓度场数值模拟网格生成技术的研究

为很好地拟合研究区域长江河口的复杂边界及计算水域，本文在曲线坐标系下建立了贴体正交曲线网格生成的泊松方程变换，选择了适当的聚并函数以调节网格疏密程度。所生成网格的结果同时也与拉普拉斯方程变换的结果进行了比较，分析表明效果良好，可用于含有小岛的长江口多连通域的网格划分。     

Preliminary analysis on the source properties and seismogenic structure of the 2017 <Emphasis Type="Italic">M</Emphasis><Subscript>s</Subscript>7.0 Jiuzhaigou earthquake

At GMT time 13:19, August 8, 2017, an M_s7.0 earthquake struck the Jiuzhaigou region in Sichuan Province, China, causing severe damages and casualties. To investigate the source properties, seismogenic structures, and seismic hazards, we systematically analyzed the tectonic environment, crustal velocity structure in the source region, source parameters and rupture process, Coulomb failure stress changes, and 3-D features of the rupture plane of the Jiuzhaigou earthquake. Our results indicate the following: (1) The Jiuzhaigou earthquake occurred on an unmarked fault belonging to the transition zone of the east Kunlun fault system and is located northwest of the Huya fault. (2) Both the mainshock and aftershock rupture zones are located in a region where crustal seismic velocity changes dramatically. Southeast to the source region, shear wave velocity at the middle to lower crust is significantly low, but it rapidly increases northeastward and lies close to the background velocity across the rupture fault. (3) The aftershock zone is narrow and distributes along the northwest-southeast trend, and most aftershocks occur within a depth range of 5–20 km. (4) The focal mechanism of the Jiuzhaigou earthquake indicates a left-lateral strike-slip fault, with strike, dip, and rake angles of 152°, 74° and 8°, respectively. The hypocenter depth measures 20 km, whereas the centroid depth is about 6 km. The co-seismic rupture mainly concentrates at depths of 3–13 km, with a moment magnitude (M_w) of 6.5. (5) The co-seismic rupture also strengthens the Coulomb failure stress at the two ends of the rupture fault and the east segment of the Tazang fault. Aftershocks relocation results together with geological surveys indicate that the causative fault is a near vertical fault with notable spatial variations: dip angle varies within 66°–89° from northwest to southeast and the average dip angle measures ~84°. The results of this work are of fundamental importance for further studies on the source characteristics, tectonic environment, and seismic hazard evaluation of the Jiuzhaigou earthquake.     

Preliminary analysis on the source properties and seismogenic structure of the 2017 M_s7.0 Jiuzhaigou earthquake

At GMT time 13:19, August 8, 2017, an Ms7.0 earthquake struck the Jiuzhaigou region in Sichuan Province, China,causing severe damages and casualties. To investigate the source properties, seismogenic structures, and seismic hazards, we systematically analyzed the tectonic environment, crustal velocity structure in the source region, source parameters and rupture process, Coulomb failure stress changes, and 3-D features of the rupture plane of the Jiuzhaigou earthquake. Our results indicate the following:(1) The Jiuzhaigou earthquake occurred on an unmarked fault belonging to the transition zone of the east Kunlun fault system and is located northwest of the Huya fault.(2) Both the mainshock and aftershock rupture zones are located in a region where crustal seismic velocity changes dramatically. Southeast to the source region, shear wave velocity at the middle to lower crust is significantly low, but it rapidly increases northeastward and lies close to the background velocity across the rupture fault.(3) The aftershock zone is narrow and distributes along the northwest-southeast trend, and most aftershocks occur within a depth range of 5–20 km.(4) The focal mechanism of the Jiuzhaigou earthquake indicates a left-lateral strike-slip fault, with strike, dip, and rake angles of 152°, 74° and 8°, respectively. The hypocenter depth measures 20 km, whereas the centroid depth is about 6 km. The co-seismic rupture mainly concentrates at depths of 3–13 km, with a moment magnitude(M_w) of 6.5.(5) The co-seismic rupture also strengthens the Coulomb failure stress at the two ends of the rupture fault and the east segment of the Tazang fault. Aftershocks relocation results together with geological surveys indicate that the causative fault is a near vertical fault with notable spatial variations: dip angle varies within 66°–89° from northwest to southeast and the average dip angle measures ~84°. The results of this work are of fundamental importance for further studies on the source characteristics, tectonic environment, and seismic hazard evaluation of the Jiuzhaigou earthquake.     

羌塘盆地南部海相侏罗系古油藏例析

羌塘盆地具有良好的油气生储盖组合。盆地内已发现100多处油气显示,其中最典型的南羌塘坳陷“隆鄂尼古油藏”发现于中侏罗统布曲组,为一被断层切割的背斜构造,出露面积约10km~2。主要储层白云岩累计厚度达400.9m,孔隙度最高达15.5%,渗透率最高达283×10~3μm~2。分析结果显示油苗性质为“轻质油”,具有海相原油的特征,其烃源岩主要为中侏罗统夏里组页岩。据构造及烃源岩有机质热演化史分析,盆地内构造形成和烃类转化的高峰期同处于燕山运动晚期。该古油藏的发现,说明了羌塘盆地内确实发生过油气的生成、运移和聚集过程,特别是在盆地内三叠系一中侏罗统未出露的大量地区,具有良好的油气勘探前景。