1961—2016年中国西北地区陆地水分收支的年代际变化特征

利用观测气象数据集（CN05.1）、地表水文数据集（VIC-CN05.1）以及大气再分析数据（JRA55）分析了我国西北地区1961-2016年暖季（5-9月）陆地水分收支的长期和年代际变化特征。通过对陆地水分收支（Land Water Availability,LWA）时间序列作Mann-Kendall突变检验,将1961-2016年划分为3个时段进行进一步分析（P1：1961-1978年;P2：1979-2008年;P3：2009-2016年）。主要结论如下：在1961-2016年间西北地区LWA呈上升趋势,区域平均的LWA时间序列具有明显的年代际特征。三个时段的LWA距平百分率分别为-5.45%、-0.46%和13.99%,总体表现为"减少-不变-增加"的特征,尤其是近些年地表水资源增加明显。三个时段的LWA距平百分率空间分布差异显著,尤其在新疆中部、甘肃东部和陕西。西北地区总体上水汽通量输送和垂直速度与降水年代际变化特征基本一致,且区域特征明显。西北地区蒸发受降水、向下长波辐射通量和风速变化影响显著。     

多尺度天气分析理论和应用Ⅱ:锋面和气旋的形成机制

利用多尺度天气分析理论,研究了锋面和气旋的形成机制.结果表明,冷、暖气团是由不同性质的亚微团在环境力的作用下向不同方向运动而形成的,而它们的交界面就是锋面.急流附近强动能梯度力能促进微团的分离,因此锋面与急流有很好的对应关系.另外,低空急流附近存在上干冷下暖湿的稳定气流,原因在于急流之上的能量梯度力与重力的方向相反,导致该区域微团所受到的作用力为零,形成稳定的结构.但当微团运动到急流出口处时,这种平衡不再存在,暖湿微团向上运动而干冷微团向下运动,形成剧烈的天气变化.地球自转所形成的离心力使得轻微团产生向北、向上的运动分量,导致极锋向北倾斜.气旋的形成同样是由亚微刚的分离而产生的.当轻微团离开微团,在绝对环境涡度场的作用下将发生旋转,旋转的方向与初始涡度的方向一致,在北半球地转涡度的垂直分量向上,为逆时针旋转,南半球为顺时针旋转.在气旋的形成过程中,轻亚微团在气压梯度力场和绝对涡度力的作用下呈现螺旋运动,是气旋系统普遍存在螺旋云带和雨带的原因.水汽是气旋在形成和加强过程中的基本能源,由于发生地的不同,温带气旋和台风在水汽输送方式上亦有差别:温带气旋主要依靠低空暖输送带进行水汽输送;台风因为发生在热带海洋,水汽充沛,各个层次都有水汽供应.气旋运动主要受三个力的制约:环境气压梯度场力、绝对涡度场力和环境涡度力,这三个力的作用导致台风在沿副热带高压边缘运动的同时,还存在蛇形路径和打转运动.     

基于浏览行为的网络地图用户兴趣模型研究

为准确表达用户兴趣,提升网络地图个性化服务效率,本文结合用户的操作行为与视觉行为,探讨了用户兴趣获取的原理与方法。结合Web日志与眼动数据的特点,提取网络地图的用户兴趣特征项,并利用熵权法对用户兴趣度进行估计。通过向量空间模型,构建网络地图用户兴趣模型,并开展验证实验对用户兴趣建模方法进行验证。     

基于通量均衡基准的地壳垂直形变场逼近的Fourier分析法

本文根据地壳运动的全球通量均衡假说建立了地壳垂直形变场的分析模型,分析了以往作者所研究的球谐函数和球冠谐函数模型的优缺点,着重推导了在密切平面坐标系下该模型的Fourier级数解,该模型一方面可以简单地应用于地壳垂直形变场的逼近,另一方面为采用谱分析法提取地壳垂直形变场信息提供了理论依据。     

海洋测深中的船移效应研究

海洋测深大多是在移动的测量船上进行的,测量船的移动则不可避免地产生船移效应,因而船移效应是影响海洋测深精度的因素之一。在系统推证海洋测深中的船移效应模型基础上,对几种典型船速、水深、海底坡度和波束角情形下的船移效应进行了数值计算,研究了船移效应的影响规律和量级,揭示了船移效应的非对称性影响。根据海洋测深的IHO最低标准要求,提出了采用窄波束和限制船速的降低测深船移效应影响的有效方法。     

Design principles for origin-destination flow maps

Origin-destination flow maps are often difficult to read due to overlapping flows. Cartographers have developed design principles in manual cartography for origin-destination flow maps to reduce overlaps and increase readability. These design principles are identified and documented using a quantitative content analysis of 97 geographic origin-destination flow maps without branching or merging flows. The effectiveness of selected design principles is verified in a user study with 215 participants. Findings show that (a) curved flows are more effective than straight flows, (b) arrows indicate direction more effectively than tapered line widths, and (c) flows between nodes are more effective than flows between areas. These findings, combined with results from user studies in graph drawing, conclude that effective and efficient origin-destination flow maps should be designed according to the following design principles: overlaps between flows are minimized; symmetric flows are preferred to asymmetric flows; longer flows are curved more than shorter or peripheral flows; acute angles between crossing flows are avoided; sharp bends in flow lines are avoided; flows do not pass under unconnected nodes; flows are radially distributed around nodes; flow direction is indicated with arrowheads; and flow width is scaled with represented quantity.     

太平洋板块俯冲对中国大陆的影响

在中国大陆及周边地区ITRF2000速度场的基础上,建立欧亚板块整体旋转与线性应变运动模型,得到中国大陆及邻区的局部形变场,分析此形变场发现东北块体和华北块体东部地壳存在一致的向西或北西西向运动,平均运动速率东北为2.9 mm/a,华北东部为1.4 mm/a,推测这是太平洋板块向欧亚板块俯冲的影响。其影响范围仅限于东北和华北块体,影响较大的是120°E以东和40°N以北地区。并分析太平洋板块俯冲对中国大陆影响的表现形式和形成机制。     

向斜构造煤层开采地表移动规律研究

现行的地表移动预计方法，都是建立在开采工作面主断面为线性分布的基础上，因此，对于非线性分布煤层的预计将会产生较大的误差。本文以随机介质理论为基础，利用曲线积分的方法建立了地表移动与变形预计公式，并且利用数值积分法和叠加原理解算地表移动与变形值，扩大了地表移动预计理论的应用范围，同时也大大提高了预计值的精度     

空间网联合处理中地壳运动参数的引入

本文阐述了空间大地网联合处理中的地壳运动模型的建立方法，并在此基础上提出了非均匀形变，均匀形变，体应变和刚体转动的识别方法，文中以我国现有空间大地网的模拟数据，结合中国大陆地壳构造进行了试算。     

Observations of particle movement in a monitoring well using the colloidal borescope

The colloidal borescope consists of a set of lenses and miniature video cameras capable of observing natural particles in monitoring wells. Based on field observations of these particles, it appears possible to measure in situ groundwater velocity in a well bore. Field observations have shown that directional measurements using the colloidal borescope are generally in good agreement with expected flow directions. However, the magnitude of flow velocity is higher compared with values based on conventional test methods. High relative flow velocities, even after correction factors have been applied to compensate for well bore effects, are believed to be due to preferential flow zones in the surrounding aquifer. Low flow zones exhibit swirling multidirectional flow that does not allow for a linear velocity measurement. Consequently, groundwater flow velocities measured by the colloidal borescope in heterogeneous aquifers will be biased toward the maximum velocity values present in the aquifer. A series of laboratory experiments was conducted to assess the reliability of the instrument. Based on this work, a seepage velocity correction factor ( ) of 1–4 was found for quantifying groundwater seepage velocity in the adjacent aquifer from observations in a well bore. Laboratory measurements also indicate that preferential flow in the surrounding aquifer dominates flow in the well. Results of this work suggest the possibility of quantifying higher-flow velocities associated with preferential flow zones in the subsurface.