雅鲁藏布江流域地-气系统的水平衡

利用NCEP/NCAR1980-1989年10年逐日00UTC、12UTC再分析资料及青藏高原降水、径流资料,研究了青藏高原雅鲁藏布江流域的水平衡特征,估算了雅鲁藏布江流域的蒸发、土壤和地下水含量。结果表明:雅鲁藏布江流域夏季是水汽辐合区,降水大于蒸发;秋末到次年春季是水汽通量辐散区,蒸发大于降水。降水主要集中在6～9月。径流的年际变化趋势同降水相近,径流主要是由降水补给的,径流峰值滞后降水峰值一个月。雅鲁藏布江流域土壤及地下含水量从1～6月逐渐减少,7月以后开始增加,10月是土壤及地下水最丰富的时段。20世纪80年代中期和后期降水、蒸发、径流等呈增长趋势,这同ENSO事件有关。     

晋、冀、蒙、陕地区淡水资源馈乏的严重性

以陕，蒙，冀，晋为例，阐述了现今地球上淡水资源匮乏的状况，恶化的趋势及危害性，提出了大力提介高效农业，节水农业，少占地，尤其是植树造林，努力改善区域生态,形成水资源的良怀循环；并提出实施的具体措施及方案。     

Elastic waves in visco-elastic half-space generated by various vehicle loads

In this paper, the response of a visco-elastic half-space subjected to moving loads with static and dynamic components is investigated. Four types of vehicle loads are considered, including the moving point load, uniformly distributed wheel load, elastically distributed wheel load, and a train load simulated as a sequence of elastically distributed wheel loads. In each case, the influence of the moving loads traveling in the subsonic, transonic and supersonic ranges on the dynamic responses of the half-space is studied. The parametric study conducted herein enables us to grasp insight into the mechanism of wave propagation for a visco-elastic half-space under moving loads.     

青藏高原牧区大雪期间的水汽和热量平衡

本文通过对１９９６年１月青藏高原牧区大雪期间的水汽和热量收支的计算，分析了大雪期间对流活动的作用和贡献，并与其他地区夏季暴雨期间的能量平衡进行了比较。结果表明，二者都只有一个无辐散层和整层维持上升运动，不同的是降雪期间：１）视水汽汇气柱平均潜热加热率要小得多；２）视水汽汇和视热源的垂直分布差异较大；３）次网格尺度涡动垂直输送主要发生在对流层顶附近     

云南普洱地区6级以上地震前的Y值异常特征

本利用加卸载响应比方法研究了云南省普洱地区ＭＬ６．０级以上地震前的加卸载响应比随时间的变化，计算了这个地区近期的加卸载响应比，结果显示，普洱地区６级以上地震前Ｙ值出现明显异常，近期的Ｙ值显异常，表明该地区或在以其为中心方圆１００－２００公里的区域内在１９９５年或稍长时间内发生６．０级以上的地震的可能性很大。     

旅游供给与需求的空间关系研究

本文研究旅游供给与旅游需求的地域分布规律和空间联系特征，提出了旅游供给与需求的空间模式以及二者之间的动态平衡关系。并根据我国旅游供需分布特点，以大城市为中心，分析了不同地域旅游供需关系。     

ANALYSIS OF SOIL EROSION CHARACTERISTICS AND SEDIMENT SOURCES FOR THE YANTZE THREE GORGES REGION

In this paper the researches made in 1981-1990 have identified that the annual soil loss in the Three Gorges region is 157 million t. and the annual incoming sediment load of the Three Gorges reservoir is 40 million t. Soil erosion increases with the destruction of vegetative cover and its subsequent evolution. The annual amounts of sediment erosion for forest land, shrub land, grassland and farmland make up respectively 6.19%, 10.76%, 23.05% and 60% of the total erosion of the Three Gorges region; the quantities of incoming sediment load to the Yangtze River from the above four types of land account for 5.95%, 12.42%, 35.46% and 46.1 % of the total amount of sediment transported to the reservoir. The farmland of offers the main source of sediment. Gravitational erosion produces more bed loads, which will present serious threat to the Three Gorges Project if entering the reservoir. Resettlement of people to the upper parts of the mountainous areas for agricultural production will increase the sediment yield of the Three Gorges region by 10-20 million t and increase the incoming sediment of the Yangtze River by 50-60 million t. Consequently, it is necessary to make a realistic assessment of the soil erosion in the Three Gorges region.     

Bed load transport during rising and falling stages on two small streams

Bed load transport rates were measured with continuously recording pit samplers on two small gravel-bed streams in the Goodwin Creek Research Watershed, northern Mississippi, U.S.A. When transport samples were grouped according to whether the stage was rising or falling, significant differences in mean bed load transport rates were found at nearly all flow strengths. At higher flow strengths, mean bed load transport rates were greater during rising stages than during falling stages. The greater transport rates measured during rising stages may be caused by a lag in the formation and destruction of bed roughness elements. One of the streams also showed evidence for greater transport rates for low flows as the stage declined. This may be caused by differences in the stability of the bed material at the beginning and at the end of a transport event.     

北半球50条山地冰川近期的物质平衡状况

近期北半球大多数山地冰川的物质平衡为负,冰川普遍退缩,表明北半球气候暖化的趋势.由于区域气候波动和变化的差异性以及冰川对气候变化的敏感性(响应程度)的不同,北半球山地冰川在普遍退缩的背景下具有鲜明的区域特征.     

Geochemical mass balances of major chemical constituents in the watershed of the Changhuajian River in China

Based on the geological background, R-mode factor statistics, and the analysis of the stability diagram for the corresponding system, five weathering reactions controlling the surface-water chemical composition in the watershed of the Changhuajiang River are deduced. In the mass balance model, the precipitation accounts for some solute input, since the rainwater is dilute without pollution. Most of the Ca²⁺ and HCO ₃ ^– ions are from the dissolution of calcite, K⁺, Na⁺, H₄SiO₄ and some of the Mg²⁺ and HCO ₃ ^– come from albite and biotite weathering to kaolinite. The dissolution of dolomite and gypsum controls the mass balances of Mg²⁺ and SO ₄ ^2– . The dissolution of calcite is the dominant chemical weathering reaction in the watershed because of its reactivity and high concentration. In the watershed in 1986, the chemical weathering rate was 0.073 (kg/m² a), and the mechanical denudation rate is 0.093 (kg/m² a). The chemical weathering mass output proportion of carbonate rocks to silicate rocks was about three to one.