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1.
Combined observations of hourly soil temperature and electric potential, the latter converted to a relative index of soil-water solute concentration, yield information on the physical chemistry of near-surface frost effects. Solute concentration near the descending 0° C isotherm in the refreezing active layer above permafrost is divided into three distinct zones: (1) an ion-enriched zone in the unfrozen active layer that precedes the penetrating freezing front; (2) an ion-purified desorbed zone at the freezing front that is the source region of the downward-expelled ions and water; and (3) a hydrologically isolated subfreezing zone of enhanced solute concentration located above the freezing isotherm. High-frequency fluctuations superimposed on these general patterns are traceable to vapor migration driven by surface thermal fluctuations. These effects diminish at temperatures below about -0.4° C, as permeability decreases with soil-ice formation. The combined temperature-solute concentration time series is used to develop sorption curves for the frozen organic and mineral soils, and indicates that approximately half of the pore water present in the mineral soil at -0.4° C had not been converted to ice at -6° C. Gradual soil desiccation over winter appears to result from outward vapor diffusion, possibly through soil cracks. [Key words: Alaska, active layer, frozen ground, soil temperature, soil water, permafrost.] 相似文献
2.
The modulation of the soil-water ion concentration and thermal fields resulting from night frost is illustrated with data from temperature-electric potential probes in the upper 15 cm of a sandy loam soil. The relative soil-water ion concentration, calculated from soil electric potential observations, aids in the detection of these modulation effects produced by non-conductive heat-mass transfer processes. The apparent thermal diffusivity, calculated from soil-temperature data, further facilitates the detection and analysis of these non-conductive processes. This new technology demonstrates the distorting effects of soil-water advection to the freezing zone, “ice purification” of soil water in the freezing zone and other coupled mass-heat transport effects produced by night frost. The conversion of electric potential observations to a relative index of soil-water ion concentration and the calculation of the apparent thermal diffusivity from the temperature data matrix are demonstrated as effective methods for the detection and analysis of the magnitude and direction of coupled-flow processes. [Key words: electric potential, frost, soil chemistry, soil temperature, thermal diffusivity.] 相似文献
3.
It is generally known that soil pollution poses a terrible hazard to the environment, but the present techniques of contaminated soil remediation cannot control this growing threat. This paper compares the pollutant extraction efficiency of traditional pumping and treating, which is a typical washing technology for the remediation of contaminated soils, with methods that utilize freeze-thaw cycles. In the soil freezing process, water shifts from unfrozen soils to the freezing front, and the permeability of soil will be enhanced under certain temperature gradients and water conditions. Therefore, this paper discusses the purification of contaminated soil through freeze-thaw action. We conducted a cleansing experiment on clay and silica sand infused with NaCl(simulation of heavy metals) and found that the efficiency of purification was enhanced remarkably in the latter by the freeze-thaw action. To assess the effective extraction of DNAPLs in soil, we conducted an experiment on suction by freezing, predicated on the different freezing points of moisture and pollutants. We found that the permeability coefficient was significantly increased by the freezing-thawing action, enabling the DNAPL contaminants to be extracted selectively and effectively. 相似文献
4.
In seasonally frozen regions, the frost-heave properties of soil play a significant role in its upper-structure performance and durability. To investigate the frost-heave behaviors of saturated, compacted silty clay soil widely used as subgrade material, a series of one-side freezing tests was carried out; and the freezing depth and frozen front effected by the compactness, temperature, overburden pressure, and water-supply condition were analyzed and discussed. The results show that the moving speed of the frozen front and growth rate of the frozen depth are positively correlated. The frost heave is maximum in the frost-heave stability condition. The frost ratio of saturated soil is proportional to the water supply and cooling temperature under a one-side freezing condition. The frost ratio of saturated soil is inversely proportional to the initial compactness of the soil specimen and the overburden pressure. 相似文献
5.
The soil-freezing characteristic curve (SFCC), which represents the relationship between unfrozen water content and sub-freezing temperature (or suction at ice-water interface) in a freezing soil, can be used for understanding the transportation of heat, water, and solute in frozen soils. In this paper, the soil freezing process and the similarity between the SFCC of saturated frozen soil and soil-water characteristic curve (SWCC) of unfrozen unsaturated soil are reviewed. Based on similar characteristics between SWCC and SFCC, a conceptual SFCC is drawn for illustrating the main features of soil freezing and thawing processes. Various SFCC expressions from the literature are summarized. Four widely used expressions (i.e., power relationship, exponential relationship, van Genuchten 1980 equation and Fredlund and Xing 1994 equation) are evaluated using published experimental data on four different soils (i.e., sandy loam, silt, clay, and saline silt). Results show that the exponential relationship and van Genuchten (1980) equation are more suitable for sandy soils. The simple power relationship can be used to reasonably best-fit the SFCC for soils with different particle sizes; however, it exhibits limitations when fitting the saline silt data. The Fredlund and Xing (1994) equation is suitable for fitting the SFCCs for all soils studied in this paper. 相似文献
6.
Canopy effect refers to the phenomenon in which moisture accumulates underneath an impervious cover. A canopy effect can lead to full saturation of the soil underneath the impervious cover. A recent theoretical study separates the canopy effect into two types. The first one is caused by evaporation-condensation in unsaturated soils, while the second one is induced by freezing-enhanced vapour transfer in unsaturated soils. To validate experimentally these two types of canopy effect and to reveal their mechanisms, moisture-migration experiments were carried out, using a newly developed laboratory apparatus for unsaturated frozen soils. Six conditions were applied to the calcareous sand, with different initial water contents and boundary temperatures. The results show that water content in the upper portion of the sample increased under an upward temperature gradient, and the increment of water content was greater if the soil was subjected to freezing. For the freezing cases, the depth of the peak water content was in line with the freezing front. And the greater the initial water content, the more the water content accumulated at the freezing front. However, a lower cooling rate seemed to facilitate vapour migration. For the unfrozen cases, the water content in the upper portion of the sample also increased; and the increases became more apparent with a higher initial moisture content. The temperature gradient can also inhibit the vapour migration. A less steep temperature gradient always resulted in a more notable inhibition effect. Test results seem to verify the theory of the canopy effect. 相似文献
7.
冬季结冰灌溉对苏打盐碱土水盐变化的影响 总被引:3,自引:0,他引:3
在苏打盐碱土区进行结冰灌溉试验,研究灌溉后盐碱土土壤水分和盐分的分布状况。试验分为淡水结冰灌溉(E)、微咸水结冰灌溉(D)、微咸水结冰灌溉+100%GR(石膏需求量)磷石膏(A),微咸水结冰灌溉+50%GR磷石膏(B),以及对照(CK),5个处理。灌溉水量为180 mm。试验结果表明灌溉融水增加了土壤耕层的含水量,为春播抗旱起到了重要作用。同时灌溉融水使土壤耕层主要离子Na+、Cl-、CO32-、HCO3-明显降低,使土壤耕层的盐碱化程度得到改善。不同处理方式之间比较,微咸水结冰灌溉洗盐效果和盐碱化改良效果明显好于淡水结冰灌溉,微咸水+磷石膏淋洗和改良效果好于微咸水结冰灌溉,且随着磷石膏施用量的增多,洗盐和改良效果更好。 相似文献
8.
During a 96-hour period in mid-March 1987, a series of four serial frost-thaw events occurred in a research field at the University of Michigan Matthaei Botanical Gardens. Soil temperature and electric potential were recorded at two near surface probe arrays (0, 3, 6 & 9 cm) and (0, 5, 10 & 15 cm) with a horizontal separation of approximately 1 m beneath the organic-mineral soil interface at hourly intervals. These time series revealed strong repetitive serial patterns. When the electric potential measurements were converted to a surrogate measure of electrolyte concentration, the C-index, strong coupled flow effects appeared to be present in the time series owing to the effects of surface freeze-thaw, evaporation-distillation and soil water advection. The data set shows the low frequency effects of upward soil water advection increasing the soil temperature and modulating the electrolyte concentration. These observations also demonstrate that soil freezing processes have two distinct regimes dominated by (1) early soil water advection toward the frost front from below and (2) downward expulsion of electrolyte-rich water as ice fills the pore space. These two processes of soil water advection and expulsion augmented by local evaporation produce two distinct near surface C-index signatures of serial diurnal frost. The signature depends on the direction of the vertical electrolyte gradient near the surface. [Key words: soil, frost-thaw, soil water, soil temperature.] 相似文献
9.
2011年初广西异常低温冰冻灾害成因分析 总被引:1,自引:0,他引:1
利用NECP再分析资料和Micaps站点资料,对2011-01-03-28广西地区出现的异常低温冰冻灾害过程的环流背景场、物理量场和影响系统等特征进行了分析.结果表明:1)此次过程的异常环流特征表现为中高纬倒Ω流型,低纬南支槽异常活跃,构成典型的“北脊南槽”形势,有利于北方冷空气与南方暖湿气流在广西地区交汇;2)蒙古地面冷高压强度较往年偏强,位置偏东、偏南,有利于地面冷空气的堆积和不断分裂南下,影响广西地区;3)逆温区主要位于桂北,长时间降水普遍以小到中雨为主,容易形成过冷水滴,造成冻雨灾害;4)华南静止 相似文献
10.
根据 2 0 0 3年中国第二次北极科学考察资料 ,并结合历史现场调查资料和同期的海冰分布 ,分析了白令海峡及其周围海域的水体结构及变化情况 ,得到如下结论 :( 1 ) 2 0 0 3年夏季白令海峡区域层结构季节内变化显著 ,东西部呈两层结构 ,而中部上下水体均匀一致 ,( 2 )白令海峡邻近海域温盐结构是东部高温低盐 ,西部低温高盐 ,西部存在明显上升流特征 ;( 3)白令海峡的水交换以北太平洋水通过白令海峡进入北冰洋为主 ,而温度、盐度的分布也与北向的输运是匹配的。 相似文献
11.
冻融过程对生物结皮中齿肋赤藓叶绿素荧光特性的影响 总被引:2,自引:2,他引:0
以新疆古尔班通古特沙漠苔藓结皮中的优势种齿肋赤藓(Syntrichia caninervis Mitt.)为研究对象,利用便携式调制叶绿素荧光仪Mini-PAM(Walz公司,德国)测定其在冻融作用影响下叶绿素荧光特性的变化特征。结果表明,冻结过程中随着处理温度的降低,齿肋赤藓的初始荧光(F0)、最大荧光产量(Fm)、PSⅡ的最大光化学效率(Fv /Fm)、PSⅡ的潜在活性(Fv /F0)、PSⅡ实际光化学效率(ΦPSⅡ)、光合电子传递速率(ETR)和光化学猝灭系数(qP)均呈显著下降的趋势(P<0.05),而非光化学猝灭系数(NPQ)则逐步上升。低温胁迫下NPQ的增加表明齿肋赤藓PSⅡ系统通过提高非辐射性热耗散消耗过剩光能,从而保护PSⅡ反应中心免受因吸收过多光能而引起的光氧化伤害。消融过程中,齿肋赤藓的叶绿素荧光参数(F0、Fm、Fv /Fm、Fv /F0、ΦPSⅡ、ETR和qP)可恢复至未冻结前的正常水平。齿肋赤藓叶绿素荧光强度和诱导曲线的形状在冻融过程中均随处理温度的降低或升高而发生了明显的变化。一定范围内的低温胁迫不会对齿肋赤藓的光合器官造成永久伤害,光合系统仍维持在可恢复的状态。 相似文献
12.
Unidirectional freezing experiments under overburden pressure were carried out, in order to study the driving force of mois-ture migration of remodeled clay during freezing, through improving the indoo... 相似文献
13.
In this paper, based on the basic equations of water flow and heat transfer, the hydrothermal coupling model is established.The numerical model was realized in COMSOL Multiphysics software, and simulation results are compared with the experimental results of Watanabe and Wake(2008) to verify the effectiveness of the model. Through the calculation, we can obtain the dynamic changes of heat and water fluxes, thermal and hydrological properties, matric potential and temperature gradient in unsaturated freezing soil; and these variables are unmeasurable in practice. 相似文献
14.
The active-layer soils overlying the permafrost are the most thermodynamically active zone of rock or soil and play important roles in the earth-atmosphere energy system. The processes of thawing and freezing and their associated complex hydrothermal coupling can significantly affect variation in mean annual temperatures and the formation of ground ice in permafrost regions. Using soil-temperature and-moisture data obtained from the active layer between September 2011 and October 2014 in the permafrost region of the Nanweng'he River in the Da Xing'anling Mountains, the freeze-thaw characteristics of the permafrost were studied. Based on analysis of ground-temperature variation and hydrothermal transport characteristics, the thawing and freezing processes of the active layer were divided into three stages:(1) autumn-winter freezing,(2) winter freeze-up, and(3) spring-summer thawing. Variations in the soil temperature and moisture were analyzed during each stage of the freeze-thaw process, and the effects of the soil moisture and ground vegetation on the freeze-thaw are discussed in this paper. The study's results show that thawing in the active layer was unidirectional, while the ground freezing was bidirectional(upward from the bottom of the active layer and downward from the ground surface).During the annual freeze-thaw cycle, the migration of soil moisture had different characteristics at different stages. In general, during a freezing-thawing cycle, the soil-water molecules migrate downward, i.e., soil moisture transports from the entire active layer to the upper limit of the permafrost. In the meantime, freeze-thaw in the active layer can be significantly affected by the soil-moisture content and vegetation. 相似文献
15.
季节性冻融是干旱区土壤盐碱化形成的主要驱动因子,但冻融过程中土壤水盐耦合关系及热量调控机理仍不清楚。通过分析2009年11月~2010年5月新疆玛纳斯河流域典型盐荒地季节性冻融过程中土壤剖面160 cm以内的水分、盐分和温度动态变化,探讨了不同土层冻融过程中水热盐的耦合关系。结果表明:土壤最大冻结深度为150 cm左右,表土层(0~40 cm)温度与气温关系密切;土壤剖面水分呈现“C”型垂直分布,表土层和底土层(100~160 cm)含水量较大,而心土层(40~100 cm)含水量不足10%,土层平均含水率在冻融前期增加了12.91%,而在初蒸期减少了10.01%;土壤剖面盐分在冻结期和初蒸期表聚作用明显,心土层和底土层含盐量稳定,土壤剖面含盐量表现为“积盐-脱盐-再积盐”的变化过程。水热盐之间具有高度协同性,心土层和底土层表现为水盐相随、而表土层为水去盐留的耦合特征,热量传输是调控水盐运移的关键因素。 相似文献
16.
松嫩平原盐沼湿地冻融期水盐动态研究--吉林省长岭县十三泡地区湖滩地为例 总被引:12,自引:0,他引:12
以吉林省长岭县十三泡地区湖滩地为例 ,选取有代表性的月份进行定位观测、实验和对比分析 ,研究了冻融期盐沼湿地水盐运移的特殊规律性。研究表明 ,盐沼湿地冻结期 ,由于冻层的存在 ,土体内产生的温度梯度、水势梯度 ,是冬季水盐积累的驱动力。在冻结期 ,冻层水盐自底层向上迁移 ;融冻期 ,冻层自地表向下及自暖土层向上双向融化 ,在冻层形成上层滞水 ,在冻层之下水盐从下向冻层迁移冻结。冻融期间盐沼湿地水盐迁移的热力学机制是松嫩平原土壤盐化发生机制的重要组成部分。 相似文献
17.
Lakes regulate the water and heat exchange between the ground and the atmosphere on different temporal and spatial scales. However, studies of the lake effect in the high-altitude Tibetan Plateau(TP) rarely have been performed until recently, and little attention has been paid to modelling of frozen lakes. In this study, the Weather Research and Forecasting Model(WRF v. 3.6.1) is employed to conduct three numerical experiments in the Ngoring Lake Basin(the original experiment, an experiment with a tuned model, and a no-lake experiment) to investigate the influences of parameter optimization on the lake simulation and of the high-altitude lake on the regional climate. After the lake depth, the roughness lengths, and initial surface temperature are corrected in the model, the simulation of the air temperature is distinctly improved. In the experiment using a tuned model, the simulated sensible-heat flux(H) is clearly improved, especially during periods of ice melting(from late spring to early summer) and freezing(late fall). The improvement of latent-heat flux(LE) is mainly manifested by the sharp increase in the correlation coefficient between simulation and observation, whereas the improvement in the average value is small. The optimization of initial surface temperature shows the most prominent effect in the first year and distinctly weakens after a freezing period. After the lakes become grassland in the model, the daytime temperature clearly increases during the freezing and melting periods; but the nocturnal cooling appears in other stages, especially from September to October. The annual mean H increases by 6.4 times in the regions of the Ngoring Lake and the Gyaring Lake, and the LE declines by 56.2%. The sum of H and LE increases from 71.2 W/m2(with lake) to 84.6 W/m2(no lake). For the entire simulation region, the sum of H and LE also increases slightly. After the lakes are removed, the air temperature increases significantly from June to September over the area corresponding to the two lakes, and an abnormal convergence field appears; at the same time, the precipitation clearly increases over the two lakes and surrounding areas. 相似文献
18.
土壤斥水性(Soil Water Repellency,SWR)指水分不能或很难湿润土壤颗粒表面的现象,对农业水管理、土壤水入渗、农化污染物运移及土壤侵蚀有重要影响,土壤斥水性在绿洲化过程中的变化特征及其影响因素尚不明确。在甘肃临泽绿洲分别选取未开垦的沙地(0年)及开垦10、30、50、100年绿洲农田表层土壤(0~5 cm),分别测定土壤有机碳含量、土壤质地(砂粒、粉粒、黏粒)和土壤pH,并用毛管上升法测定土壤斥水性。结果表明:土壤斥水性随着开垦年限的增加而不断增加。不同开垦年限土壤的“土-水”接触角58°~89°,差异显著(P<0.001)。土壤有机碳含量、土壤质地和土壤pH均与“土-水”接触角存在显著的回归关系(P<0.001)。逐步回归分析的结果表明,绿洲化过程中土壤有机碳含量和pH共解释了土壤斥水性72.1%的变异。因此,在绿洲农田进一步研究土壤斥水性对土壤水运动的影响应更多关注土壤有机碳和pH两大因素。 相似文献
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20.
利用2015年9月采自青海北霍布逊湖区的原土样,自行配比进行了室内盐渍细砂土冻胀试验,研究了低干密度盐渍细砂土的低温特性变化规律,探讨了盐渍细砂土的冻胀机理,集中分析了土的冻缩特性。研究发现低干密度盐渍细砂土在不同含水率条件下土的冻胀规律差异很大。低含水率条件下会有冻缩现象,高含水率条件下只会有冻胀现象,临界含水率(含水率14%)条件下细砂土先出现冻缩,之后随着温度的降低又出现冻胀,且由于温度引起的体积变化均在-28℃~-30℃时达到稳定;土的冻缩随着含盐量增加先呈递增趋势,后又呈递减趋势,在中间含盐量10%达到最大;除临界含水率条件下,盐渍细砂土的冻胀、冻缩均与温度呈三次多项式关系,与含水率呈线性关系。研究结果能够为盐渍土地区的工程建设提供有价值的理论依据。 相似文献