持久性有机污染物在森林生态系统中的环境行为研究

持久性有机污染物(POPs)具有环境持久性和半挥发性, 可以在区域及全球范围内传输和分布。森林植被和林下土壤富含有机质, 森林生态系统因此成为POPs主要的储存库之一。植被叶片可快速吸附大气POPs, 并通过叶片凋落、雨水冲刷和干沉降等过程加强或加速大气POPs 向地面的沉降, 并使森林土壤成为POPs 的“汇”, 从而形成所谓的“森林过滤效应”, 进而影响POPs 在全球的分布。进入森林的POPs 在森林生态系统中将经历一系列的环境过程。本文简要介绍了森林过滤效应的特征和影响因素, 综述了叶片对大气POPs 的吸附、叶片凋落和干湿沉降、POPs 在土壤中的迁移和损失等3 个主要环境过程的研究进展, 报道了松针、树皮和苔藓作为被动采样器反映的森林POPs空间分布趋势。最后, 提出了森林POPs研究中亟待解决的科学问题, 并指出未来中国森林POPs研究的可能方向。     

中国古代温泉资源分布及其空间演化

以历代地理总志、正史地理志、地方志以及类书等所记载的温泉为数据来源,统计秦至南北朝、隋唐宋和明清时期温泉资源的数量,运用ArcGIS软件对温泉资源空间分布情况进行分析。结果表明：秦至南北朝时期的温泉共有47处,集中分布在黄河中游、晋东北与冀西交界区、长江中游、湘南粤北地区;隋唐宋时期的温泉有108处,主要分布在经济较发达区域,且分布重心南移;明清时期的温泉有419处,遍布全国,已基本与温泉客观分布地重合,且主要集中在山地丘陵地带。古代温泉资源的空间演化规律为：分布地由中原向四周扩展,分布重心东移南迁,南北、东西差异逐渐扩大。自然环境、社会需求、区域发展过程等是影响温泉资源空间分布变化的主要因素。     

土钉支护基坑抗隆起稳定性计算方法研究

以基坑隆起破坏的根本原因是地基承载力不足为前提,运用Terzaghi地基极限承载力理论,推导了土钉支护条件下基坑抗隆起稳定性的计算方法。采用地基土单侧滑动失稳破坏假设,同时考虑了单侧滑动体上竖向抗剪力对抵抗基坑隆起所起的作用。通过基本算例,对影响基坑抗隆起稳定性的参数进行了讨论,并得出了各抗隆起安全系数与各因素之间的部分变化规律。与现有的基坑抗隆起稳定性计算方法对比分析表明,所建议的方法在实际工程应用中是可行的。     

超大型沉井首次接高受力及变形规律初探

依托马鞍山长江大桥南锚碇沉井的首次接高,对其竖向沉降、隔墙墙底土压力和隔墙底板受力情况进行了监测。结果表明,超大型沉井兼有条形基础的特点和整体工作性能,能够承受较大的竖向变形,与单纯考虑地基承载力相比,更适合于按变形控制接高。沉井接高时普通隔墙下的土压力小于分区隔墙,并且普通隔墙下部土体会先达极限承载力,后续接高产生的荷载转而由分区隔墙（或井壁）来承担。沉井首节混凝土浇筑就已决定了隔墙底板的应力大小和分布情况,后续接高不会再引起大的改变;隔墙底板中间部分受力较小,外围拉应力较大,通过井壁外土体的密实回填可有效降低此部分拉应力。     

基于自平衡试桩法大直径嵌岩桩尺寸效应分析

基于自平衡测试技术,通过现场的原位测试方法,对大直径嵌岩桩的尺寸效应进行了研究,内容包括桩径尺寸和嵌岩深度变化以及桩端阻力尺寸效应的影响分析等。从测试结果来看,嵌岩桩也存在一定程度的尺寸效应现象。当其他条件一定时,随着桩径的增大,桩侧阻力存在着减小现象;在同一种岩层的情况下,随着嵌岩深度的增大,桩侧阻力发挥也并不相同,嵌岩深度越大,桩侧阻力发挥也越小。实测结果表明,桩周岩石的特性变化对桩侧阻力影响最大,岩石抗压强度越高,桩侧阻力也越大。此外,桩径的变化对桩端阻力的影响更为明显。因此,在大直径嵌岩桩的设计中应注意尺寸效应对桩基承载力的影响。     

Quantifying the Spatial Characteristics of the Moisture Transport Affecting Precipitation Seasonality and Recycling Variability in Central Asia

Moisture contribution and transport pathways for Central Asia(CA)are quantitatively examined using the Lagrangian water cycle model based on reanalysis and observational data to explain the precipitation seasonality and the moisture transport variation during 1979-2015.Westerly-related(northwesterly and westerly)transport explains 42%of CA precipitation and dominates in southwest CA,where precipitation is greatest in the cold season.Southeast CA,including part of Northwest China,experiences its maximum precipitation in the warm season and is solely dominated by southerly transport,which explains about 48%of CA precipitation.The remaining 10%of CA precipitation is explained by northerly transport,which steadily impacts north CA and causes a maximum in precipitation in the warm season.Most CA areas are exposed to seasonally varying moisture transport,except for southeast and north CA,which are impacted by southerly and northerly transport year-round.In general,the midlatitude westerlies-driven transport and the Indian monsoon-driven southerly-related transport explain most of the spatial differences in precipitation seasonality over CA.Moreover,the contribution ratio of local evaporation in CA to precipitation exhibits significant interdecadal variability and a meridionally oriented tripole of moisture transport anomalies.Since the early 2000s,CA has experienced a decade of anomalously low local moisture contribution,which seems jointly determined by the weakened moisture contribution from midlatitudes(the Atlantic,Europe,and CA itself)and the enhanced contribution from high latitudes(West Siberia and the Arctic)and tropical areas(South Asia and the Indian Ocean).     

The trend on runoff variations in the Lhasa River Basin

Taking the Lhasa River Basin above Lhasa hydrological station in Tibetan Plateau as a study area, the characteristics of the annual and monthly mean runoff during 1956?2003 were analyzed, based on the hydro-data of the two hydrological stations (Lhasa and Tanggya) and the meteorological data of the three meteorological stations (Damxung, Lhasa and Tanggya). The trends and the change points of runoff and climate from 1956 to 2003 were detected using the nonparametric Mann-Kendall test and Pettitt-Mann-Whitney change-point statistics. The correlations between runoff and climate change were analyzed using multiple linear regression. The major results could be summarized as follows: (1) The annual mean runoff during the last 50 years is characterized by a great fluctuation and a positive trend with two change points (around 1970 and the early 1980s), after which the runoff tended to in-crease and was increasing intensively in the last 20 years. Besides, the monthly mean runoff with a positive trend is centralized in winter half-year (November to April) and some other months (May, July and September). (2) The trends of the climate change in the study area are generally consistent with the trend of the runoff, but the leading climate factors which aroused the runoff variation are distinct. Precipitation is the dominant factor influencing the annual and monthly mean runoff in summer half year, while temperature is the primary factor in winter season.     

测绘用离轴三反光学系统技术

离轴三反光学系统可以同时兼顾长焦距与大视场, 可以优化为零畸变、低场曲的光学系统, 很好地满足了测绘对光学系统的要求, 被公认为航天遥感测绘相机的发展方向。本文阐述了航天测绘相机的现状和发展趋势, 对离轴三反光学系统应用于测绘的相机内方位元素定义、焦距计算公式的修正、调焦方式对主点位置精度的影响、系统畸变标定以及系统稳定性等问题进行讨论为中国自主获取高分辨率、高精度的测绘数据提供了技术参考。     

地面超载引起邻近埋地管道的位移分析

地基土承受超载作用时就会产生沉降,在土体沉降作用下埋置于其中的管道,管壁就会产生变形甚至破裂。为分析地面超载对临近地下管线的影响,基于温克勒（Winkler）弹性地基短梁理论,应用Boussinesq解,考虑地面超载引起下卧层的沉降及地基土体的侧向移动对管道的影响,建立地面超载对埋地管道影响的分析计算模型,并采用有限差分法进行求解;通过算例分析了超载大小、位置,管道刚度、埋深、管径以及土体性质对埋地管道位移的影响;结果表明：超载大小、管道的刚度、埋深、管径对地下管道位移的影响较大,而当地基基床系数和超载离管道的距离增大到一定值时,地面超载对其影响将减弱。因此,需要考虑邻近超载对管道的影响,合理制定埋地管道的保护措施。     

GIS专业的Java程序设计教学改革初探

Java语言的独特优势促使其在GIS专业教学中起到越来越重要的作用。本文分析了GIS专业教学中Java程序设计课程教学存在的问题,结合武汉理工大学GIS专业的Java程序设计课程的改革实践,提出了总体的改革思路,并从教学、实践、考核等几个方面提出了具体的改革要求和内容。该门课程的教学改革能推动GIS专业的Java程序设计语言的学习,提高学生的实践动手能力和解决GIS专业问题的能力。同时,该教学改革模式对兄弟院校的GIS专业程序设计语言方面的教学实践能起到相应的借鉴作用。