河南省干旱遥感监测信息系统

利用ＮＯＡＡ／ＡＶＨＲＲ极轨气象卫星遥感与ＧＩＳ集成干旱遥感监测研究成果,建立了河南省干旱遥感监测信息系统。介绍了该系统的软硬件配置和主要功能,并给出了具体应用例子。     

黄山旅游气候指南

通过对黄山地区气候特征的概括,对各具特色的气象景观及其出现季节,时段的分析和计算,为有关部门合理安排旅游计划。为广大游客根据自身具体情况选择理想的旅游季节提供了指导性的参考意见。     

公路桥梁地震易损性和震后恢复过程

采用专家调查的方式,统计的我国各种主要公路桥梁在不同烈度的地震发生后可能遭受的结构破坏和功能损失,以及地震发生后所需要的恢复时间。通过分析,给出了大、中、小种规模的斜拉、悬索、板梁式和拱式桥梁的结构破坏概率矩阵、设施损失率、功能损失率分布、损失功能恢复所需要的时间和桥梁在遭受破坏期间所损失的工作日数,并将研究结果与唐山地震之后的实际调查结果进行了对比,得到了一些有益的结果。     

牛心山花岗岩岩体特征及其与成矿的关系

本文较系统地阐述了牛心山花岗岩岩体的地质特征及岩体的成因,并结合华尖金矿区地质矿化特征,探讨了花岗岩体在时间、空间及岩浆演化方面与成矿的关系。     

水声学方法对黄河口水下底坡失稳现象研究

对黄河三角洲东北部地区的高分辨率水声学资料进行了综合研究。根据所记录的破坏土体变形程度、运动产生的平面形状和地貌特征形态,对土体失稳过程进行分类：浅表土体变形、塌陷凹坑、滑坡和沉积物重力流。结果表明：（１）浅表土体形变的变形程度最低,出现在研究区斜坡上部平滑海底,主要为绳网状泄水构造和表层拉张裂隙。（２）塌陷凹坑在研究区内广泛出现,是局部土体液化后发生了垂直沉降的结果。（３）滑坡多发生在水下斜坡的中上部,由弧形塌陷区、狭窄的冲沟通道和负地形沉积物堆积区组成。滑坡陡坎后缘发现拉张裂隙。（４）沉积物重力流是土体发生变形程度最大,搬运距离最长的土体破坏变形形式。局部区域多次受到沉积物重力流切割和充填作用。     

人类活动对江汉湖群沼泽化的影响

从破坏植被加速湖泊淤积速度、围湖造田使湖泊日渐萎缩、江湖隔绝促进水生高等植物生长、垸湖沼同体而互相转化等方面论述了人类活动加速了江汉湖群湖泊沼泽化的进程,并提出缓解湖泊沼泽化的措施;人类活动既具有加速湖泊沼泽化进程的作用亦具有延缓甚至逆转沼泽化进程的双向作用。     

柘林水库修河流域降水时空分布特征与旱涝研究

根据1953—1983年降水资料,分析了柘林水库修河流域降水时空分布特征和旱涝规律。降水主要集中在6月中、下旬,有时可推迟到7月中旬,此时暴雨频数高,强度大,历时长,是柘林水库洪水运行管理的关键时期。为此,需要了解梅雨晚期发生的大暴雨的形成条件和时空分布,以及梅雨期旱涝情况和采用预报的风险程度。本文在这方面进行了一些综合性分析,特别是对5,6月旱涝年份的统计规律、环流特征作了较详细的气候学对比研究。     

STA/LTA—AIC算法对地震P波震相拾取稳定性影响

选取区域地震台网记录的地震波形数据,使用STA/LTA算法与STA/LTA—AIC算法,进行地震P波震相初至到时自动拾取,对地方震及震中距较大的震相进行P波震相拾取效果分析,发现:STA/LTA算法对于地方震P波震相识别精度较高,与STA/LTA—AIC算法拾取的P波震相初至到时相差不大;震中距变大后,STA/LTA算法对P波拾取位置相对于最佳位置向后延迟,STA/LTA—AIC算法有效矫正了STA/LTA算法拾取位置的延迟问题,与人工拾取位置差别可忽略不计。     

Shales in the Qiongzhusi and Wufeng–Longmaxi Formations: a rock-physics model and analysis of the effective pore aspect ratio

The shales of the Qiongzhusi Formation and Wufeng–Longmaxi Formations at Sichuan Basin and surrounding areas are presently the most important stratigraphic horizons for shale gas exploration and development in China. However, the regional characteristics of the seismic elastic properties need to be better determined. The ultrasonic velocities of shale samples were measured under dry conditions and the relations between elastic properties and petrology were systemically analyzed. The results suggest that 1) the effective porosity is positively correlated with clay content but negatively correlated with brittle minerals, 2) the dry shale matrix consists of clays, quartz, feldspars, and carbonates, and 3) organic matter and pyrite are in the pore spaces, weakly coupled with the shale matrix. Thus, by assuming that all connected pores are only present in the clay minerals and using the Gassmann substitution method to calculate the elastic effect of organic matter and pyrite in the pores, a relatively simple rock-physics model was constructed by combining the self-consistent approximation (SCA), the differential effective medium (DEM), and Gassmann’s equation. In addition, the effective pore aspect ratio was adopted from the sample averages or estimated from the carbonate content. The proposed model was used to predict the P-wave velocities and generally matched the ultrasonic measurements very well.     

Monitoring litter interception of rainfall using leaf wetness sensor under controlled and field conditions

Leaf litter interception of water is an integral component of the water budget for some vegetated ecosystems. However, loss of rainfall to litter receives considerably less attention than canopy interception due to lack of suitable sensors to measure changes in litter water content. In this study, a commercially available leaf wetness sensor was calibrated to the gravimetric water content of eastern redcedar (Juniperus virginiana ) litter and used to estimate litter interception in a subhumid eastern redcedar woodland in north‐central Oklahoma. Under controlled laboratory conditions, a strong positive correlation between the leaf wetness sensor output voltage (mV) and measured gravimetric litter water content (? _g) was determined: ? _g = (.0009 × mV²) ? (0.14 × mV) ? 11.41 (R ² = .94, p  < .0001). This relationship was validated with field sampling and the output voltage (mV) accounted for 48% of the observed variance in the measured water content. The maximum and minimum interception storage capacity ranged between 1.16 and 12.04 and 1.12 and 9.62 mm, respectively. The maximum and minimum amount of intercepted rain was positively correlated to rainfall amount and intensity. The continuous field measurements demonstrated that eastern redcedar litter intercepted approximately 8% of the gross rainfall that fell between December 16, 2014 and May 31, 2015. Therefore, rainfall loss to litter can constitute a substantial component of the annual water budget. Long‐term in situ measurement of litter interception loss is necessary to gain a better estimate of water availability for streamflow and recharge. This is critical to manage water resources in the south‐central Great Plains, USA where grasslands are rapidly being transformed to woodland or woody dominated savanna.