西北地区沙丘凝结水形成机制及对生态环境影响初步探讨

西北地区沙漠及荒漠化地区，包气带的水分来源除来自大气降水外，还来自凝结水，凝结水对包气带中水分的保存、运移及荒漠植被生态起到至关重要的作用。作者在甘肃省河西走廊高台县西的流动沙漠边缘的半固定沙丘上，采用TSCⅡ智能化土壤水分快速测试仪，SN2202数字温度计、CENTER1300相对湿度仪进行了凝结水观测试验。对沙丘表层0～30cm范围内的气温、地表温度、地温和含水量进行连续观测，每2h观测一次，试验历时5d。试验结果表明，在西北沙漠、荒漠化地区有凝结水存在，它的形成不仅对包气带中水分的保存及分布起着重要的作用，并且对维系荒漠化地区的植被生态系统的稳定至关重要。并对凝结水形成机制进行了初步探索；初步确定，日气候变化造成的地表温度与地温温差是凝结水形成的主控因素，包气带中的含水量分布则控制着凝结水的多寡，凝结水主要出现在干沙层与湿润砂层界面上。     

渭河流域西部季节冻融对浅层非饱和土壤水热变化的影响

以黄土高原渭河流域西部黄土丘陵沟壑区为研究区域,建立了野外观测场地,对该区域浅层非饱和土体冻融过程及水热运移规律对气候作用的响应过程进行了研究与分析。结果表明：气温对地温及地温变幅的影响随深度增加而迅速衰减,地温振幅随深度增加按指数规律衰减且温度波的相位随深度的增加而滞后,地表下200 cm深度以内地温振幅受气温影响较大。该区域裸露地表土壤的最大冻结深度在20～50 cm之间。在土壤冻结过程中,深层土壤未冻水逐渐向冻结层运移,导致深层含水量逐渐减少。不同深度土壤冻结系数随土壤深度的增加而减小,融化系数则相反。地表下50 cm深度以内的土体含水量受降水影响波动显著。土壤含水量与温度呈相似变化,地温峰值出现的时间总滞后于土壤水分,其变异程度均随土壤深度的增加而减小。     

甘肃黑河中下游影响绿洲植被发育的某些因素

黑河下游额济纳绿洲区和中下游沿黑河干流河床附近的潜水位埋深较浅,是维系地表植被生长的重要因素。中游高台附近潜水位存在每年双峰值的变化,较之下游额济纳绿洲潜水位每年单峰值的变化更有利于植被的生长。在包气带剖面中,同一时刻水土势、含水量、含盐量随深度的变化趋势基本相同。采样点包气带土壤中易溶离子含量相对较低,全盐量小于5%,中游采样点土壤中以HCO3-为主,下游以SO42-为主,由SO42-、Cl-和Na+、Ca2+组成的盐类构成了包气带土壤中的主要盐分。土壤中易溶离子含量自地表至潜水面之间随深度总体上呈减小趋势。植被的根系分布对包气带土壤含水量、水土势和易溶离子含量随深度的分布有着重要的影响,在植物根系发育带的土壤中含水量、水土势和易溶离子含量升高。     

甘肃黑河中下游影响绿洲植被发育的某些因素

黑河下游额济纳绿洲区和中下游沿黑河干流河床附近的潜水位埋深较浅,是维系地表植被生长的重要因素.中游高台附近潜水位存在每年双峰值的变化,较之下游额济纳绿洲潜水位每年单峰值的变化更有利于植被的生长.在包气带剖面中,同一时刻水土势、含水量、含盐量随深度的变化趋势基本相同.采样点包气带土壤中易溶离子含量相对较低,全盐量小于5%,中游采样点土壤中以HCO3-为主,下游以SO24-为主,由SO24-、C1-和Na 、Ca2 组成的盐类构成了包气带土壤中的主要盐分.土壤中易溶离子含量自地表至潜水面之间随深度总体上呈减小趋势.植被的根系分布对包气带土壤含水量、水土势和易溶离子含量随深度的分布有着重要的影响,在植物根系发育带的土壤中含水量、水土势和易溶离子含量升高.     

甘肃黑河中下游影响绿洲植被发育的某些因素

黑河下游额济纳绿洲区和中下游沿黑河干流河床附近的潜水位埋深较浅,是维系地表植被生长的重要因素.中游高台附近潜水位存在每年双峰值的变化,较之下游额济纳绿洲潜水位每年单峰值的变化更有利于植被的生长.在包气带剖面中,同一时刻水土势、含水量、含盐量随深度的变化趋势基本相同.采样点包气带土壤中易溶离子含量相对较低,全盐量小于5%,中游采样点土壤中以HCO3-为主,下游以SO24-为主,由SO24-、C1-和Na 、Ca2 组成的盐类构成了包气带土壤中的主要盐分.土壤中易溶离子含量自地表至潜水面之间随深度总体上呈减小趋势.植被的根系分布对包气带土壤含水量、水土势和易溶离子含量随深度的分布有着重要的影响,在植物根系发育带的土壤中含水量、水土势和易溶离子含量升高.     

季节冻土对包气带水分迁移的影响

采用智能化土壤墒情监测仪,对东北吉林集安季节冻土带进行地温和含水率观测,历时一个水文年。通过分析不同深度地温、含水率随时间的变化,研究地温场变化、降水入渗等因素对水分迁移的影响。寒季,气温急剧下降,地温随深度增加而增高,气态水在包气带上部的低温带凝结,当凝结速率大于渗透速率时,含水率不断增加,水分蓄积。季节冻土形成后,孔隙水以固态水的形式储存,是包气带上部水分主要的聚集期。暖季,地温随深度增加而降低,气态水向下运移凝结,即使降水入渗量很大也不会引起水分蓄积。因此,温度场控制着气态水凝结方向,是引起包气带内水分运移的重要影响因素之一。     

沙漠包气带水分运移机理研究

针对沙漠包气带的特点,运用中子仪—负压计—地温计联合观测法,对试验场典型地段水位埋深分别为lm,2m,3m的包气带含水量、水分势能和温度场进行了长期野外实地观测,并总结出相应的日变化、季节变化规律,分析了降水、蒸发等气象因素对包气带水分的影响过程,从而得出沙漠包气带水分运移机理及运移规律。为红砂岗矿区水源地水资源评价提供了科学依据。      

陆面过程模式SIB2与包气带入渗模型的耦合及其应用

土壤含水量对陆—气相互作用过程中的能—水平衡计算以及降雨、农业灌溉对地下水补给的研究起着关键的作用。但现阶段大多数陆面过程模式对土壤含水量的计算采用一维水桶模式,忽略了流域尺度上的侧向补给、地下水位的变化、包气带土壤的非线性渗透特性对土壤含水量的影响。针对这一问题,在国内外研究较为成熟的饱和—非饱和理论的基础上,编程实现了包气带土壤水分传输方程的求解,并与陆面过程模式（SIB2）相耦合,建立起研究分层包气带土壤水分运移、非稳态的地下水位、和地表蒸散发之间定量关系的模型。最后,利用建立的耦合模型,以河西走廊黑河流域中游临泽农业综合观测场的灌溉试验为例,模拟干旱内陆平原区小麦生长期间定额灌水条件下土壤含水量的变化。计算结果表明：模型能够准确计算瞬时土壤含水量、非稳态的地下水位,并对小麦生长过程中的耗水量进行估算,进而为农业合理灌溉提供了科学的理论基础。     

土壤水资源的变化和补给特征研究

阐述了土壤水资源的结构，利用实验和观测资料分析了土壤含水量、包气带蓄水量、土壤蒸散发量的空间分布特点，通过观测和模型模拟计算的成果分析了土壤蓄水量和土壤蒸散发量多年平均变化过程，以及不同地下水埋深时大气降水、地下水对土壤水资源补给过程和补给特点。     

温度对季节性冻土水分迁移的影响研究

寒区季节性冻土冻胀性质对工程实际影响很大。为了了解温度对水分迁移现象的影响,本文通过地温测试仪对野外不同深度处的土层温度进行测量,并在不同时间相应深度取土样,测其含水率,通过比较不同时间不同深度处的含水率的变化情况来分析温度变化对水分迁移现象的影响。在气温回升之前,当地表温度降低时,温度随深度的降低而升高;随着地表温度不断降低,各深度处的温度也不断下降,温度梯度增加,各深度处地层的含水率变化大,即温度梯度的增加促进了季节性冻土区水分迁移现象的发生。     

Soil moisture potential and water content in the unsaturated zone within the arid Ejina Oasis in Northwest China

Three soil profiles were selected in the Ejina Oasis, northwest China, to determine water content profiles and evolution of soil moisture potentials in the unsaturated zone within the arid area. The total soil moisture potentials have been monitored for about 3 months in 2001 at different depths in the soil profiles. The occurrence and movement of water in the unsaturated zone was analyzed using the zero flux plane (ZFP) method. It is shown that convergent ZFPs and divergent ZFPs may occur at depths between 0.5 and 3.0 m, and that the depth of the ZFPs was controlled by the root zone of plants growing on the land surface. Profiles of the total soil moisture potentials were observed to be coincident with those of the water contents at the three experimental sites. The total soil moisture potential showed a slight increasing trend and the ZFPs tend to vanish from summer to winter as the water extraction by roots decreased. Evapotranspiration through vegetation has an important bearing on the water content and the total potential in the unsaturated zone.     

水蒸气增湿非饱和黄土热湿迁移规律研究

温度梯度、含水率梯度和压力梯度对非饱和土体中的水热迁移有重要影响。用非饱和黄土填筑室内模型,通入0.10MPa高温水蒸气,研究蒸汽压梯度、温度梯度和含水率梯度耦合作用下的水热迁移规律。结果表明:在水蒸气迁移范围之内,土体的升温速率、增湿速率和增湿程度较大,以蒸汽传热和压力梯度驱动的水蒸气增湿为主。而在水蒸气未到位置,以温度梯度引起的热传导和含水率梯度与温度梯度耦合驱动的水热迁移为主;水蒸气迁移时,受土颗粒阻碍和蒸汽压消散的影响,土体升温速率、增湿速率和温度传导速率均随径向距离的增大而减小,且增湿速率小于升温速率;水蒸气增湿土体的最大含水率接近最优含水率,增湿效果较好,可有效提高一定范围内土体的压实性能;基于模型试验边界条件,确定含湿毛细多孔介质中二维热湿迁移方程的一组代数显式特解,并以20 cm测点为例,将温度和含水率实测值和计算值进行对比分析。研究结果可为非饱和黄土水-汽-热耦合传输规律和水蒸气增湿新技术研究提供理论支持。     

Time-domain reflectometry probing systems for the monitoring of hydrological processes in the unsaturated zone

Precise measurements of the downward movement of precipitation through the unsaturated zone, as well as return flow of moisture to the atmosphere via evaporation, have always been challenging in regard to in-situ monitoring techniques. This study investigates the profile of volumetric water-content fluctuations within the unsaturated zone through a combination of field techniques, including in-situ measurements of the volumetric porewater content at different depths using specially designed time-domain reflectometry (TDR) probes. The probes are installed through direct-push vibro-coring methods, at significant depths within the unsaturated zone, providing continuous readings of the soil-moisture content throughout the unsaturated column. The measured waveform is analyzed by using the inverse modeling approach resulting in an apparent relative dielectric permittivity profile of the surrounding medium along the TDR probe length. The approach sufficiently analyzes the mechanisms of water fluxes through significant depths within the unsaturated zone, which in turn can be used to quantify groundwater recharge at areas where the unsaturated zone hydrology plays a key role in the recharge of the underlying aquifers (such as arid and hydrologically sensitive areas). The approach was applied at an experimental field site in the Upper Rhine Valley, Germany.     

Variable temperature and moisture conditions in Yungang Grottoes,China, and their impacts on ancient sculptures

Deterioration of grottoes induced by the negative impacts of the variable temperature and moisture conditions has been an important issue in the conservation of heritage sites in China. In this case study, the spatial distributions and varying patterns of moisture and temperature in the caves of Yungang Grottoes, China, were investigated. The relative air humidity was approximately 100 % in the deep zone of the unsaturated surrounding rocks of the grottoes where the temperature remained almost steady at around 9.4 °C. However, the indoor air temperature, relative humidity, and rock surface temperature in the caves varied significantly because of the active exchange of the air with the outside atmosphere. The condensation water appeared on cave walls in the summer when the dew point in the air was higher than the rock surface temperature. Preliminary assessments with a special collection device indicated that the thickness of the transient condensation water could reach 0.03–0.10 mm on the back wall of a cave. The occurrence of this condensation water is expected to worsen salt deterioration of the sculptures in the grottoes. As revealed by long-term observations, a wooden building in front of a cave can weaken the indoor air temperature fluctuation and reduce the condensation water, and consequently, prevent the negative effects of the microclimate for the sculptures.     

包气带中温度变化对水分分布影响的实验研究

笔者在高180cm、宽50cm的砂槽中,做了温度对水分运移影响的模拟试验。试验结果表明,在包气带一定深度以下,孔隙相对封闭,孔隙内液态水与气态水处于动态平衡,相对湿度接近或达到饱和状态。在此条件下,砂柱内温度场的任何微小变化都会导致孔隙系统内的水分发生蒸发或凝结。当包气带内温度场发生变化时,气态水在温度梯度作用下,向最低温度界面运移,蒸发或是凝结取决于最低温度界面的性质。在不发生聚集的开放性界面上出现蒸散,消耗包气带内水分。在聚集性封闭界面上则出现凝结,使包气带内水分增加。在温度场控制下,包气带中气态水凝结或蒸发是水分运移的另一重要形式,它在一定程度上决定着水分的分布状态,尤其在温差巨大的地区,这种作用显得十分重要。     

An identification technique for evaluation of phenomenological coefficients in coupled flow in unsaturated soils

To determine moisture movement and heat transfer through an unsaturated soil under temperature and volumetric water content gradients, it is necessary to have knowledge of phenomenological coefficients of the soil. However, in unsaturated flow, i.e. flow through unsaturated soil, these phenomenological coefficients are not constants, but vary with volumetric water content as well as temperature. In this paper, an identification technique is proposed for evaluation of the phenomenological coefficients. The phenomeno-logical coefficients are first assumed to be certain kinds of functions of volumetric water content and temperature. The choice of the functional forms is based on an understanding of the physical situation, and previous knowledge of water flow in the isothermal case. The constant parameters associated with the functional forms are evaluated through the use of the identification technique. Once these phenomenological coefficients are obtained as certain functions of the volumetric water content and the temperature for a specified soil, analysis of coupled moisture flow and heat transfer in the unsaturated soil can proceed.     

一维土壤水分运动模拟在土壤水分特征研究中的应用——以华北平原衡水实验站为例

受地形特征以及人类活动的影响,华北平原地下水浅埋区水循环主要以垂直方向上的入渗和蒸发为主,其中,非饱和带对降水和地下水之间的转化具有重要作用。本文选择衡水作为华北平原地下水浅埋区的典型代表点,利用HYDRUS-1D建立了一维数值模型,以平水年2005年夏季作为模拟期,通过计算降水入渗量、蒸散发量、土壤水储存量的变化及地下水补给量等,揭示了该实验点的土壤水分运动特征以及土壤水在降水和地下水转化之间的作用。结果表明降水后土壤水和地下水都得到补给,土壤水储量增加,但由于强烈的蒸发和蒸腾作用(分别占降水补给量的63%和12%),水分消耗较快,因此总的入渗补给量为25%,土壤总储量增加不大;此外,土壤水和地下水联系密切,土壤深层水分在饱和和非饱和状态之间频繁转换,其间没有明确的界面分割,由此说明土壤水在"三水转化"过程中的重要性。     

基于最小作用原理的Richards方程变分解

经典的Richards入渗控制方程属于偏微分方程,具有强烈的非线性,难以求得解析解。以入渗时间为最小作用量,基于Richards方程建立关于入渗路径的时间泛函,将考虑重力项的非饱和土垂直入渗问题转化为泛函极值问题,并构造等价的Euler-Lagrange方程进行求解。计算结果表明,扩散系数D（?）与概化湿润锋距离具有函数关系,当扩散系数D（?）形式已知时,可求得最优路径下湿润锋处含水率、较远处湿润锋最小含水率、土壤含水率最大熵分布3个问题,并基于最优路径检验了本研究条件下,Boltzmann变换和线性变换求解Richards方程的精度。求解过程未引进新变量化简Richards方程,不改变原方程结构,因此其解具有普遍性,可作为非饱和土力学计算的一个补充。     

Transfer of moisture through the unsaturated zone in the tropical forest using the neutron probe

Knowledge of moisture content is crucial in assessing spatial and temporal movement of water through the unsaturated zone. Moisture storage is also important for monitoring the soil water balance and for validation of water balance models. The purpose of this work was to determine and analyse moisture content profiles at point locations in the unsaturated zone of a lateritic soil around Nsimi, south of Cameroon. Neutron probe has been connected to a set of tensiometers in an area of 60 ha. A comparative study between a site covered with vegetation and a site uncovered was conducted to assess the influence of vegetation in the process of moisture transfers. The results showed that the spatial distribution of moisture profiles varied according to the site and the texture of the soil, with in general increasing of moisture from the surface horizon toward the deeper layers. The mean values of moisture varied fromθ_m = 0,397 cm³/cm³ on barren site, against 0 = 0,429 cm³/cm³ in vegetation. Values of suction were generally strong in surface and at depth, but weak in the intermediate layers.     

河套平原盐渍化地区非饱和带氮的分布特征及影响因素

土壤氮在植物生长、土壤理化性质和微生物活动中扮演着重要的角色.为了识别盐渍化地区非饱和带氮的迁移过程,以河套灌区典型盐渍化耕地为例,通过非饱和带监测和水化学统计分析,探究了土壤剖面中氮素分布的差异性及主要影响因素.结果表明,研究区0～100 cm土层深度土壤氮含量处于较低水平,NO3-N、NH4-N和NO2-N含量平均...