共查询到20条相似文献,搜索用时 203 毫秒
1.
黄土高原风蚀水蚀交错带沟岸对柠条林地土壤水分的影响 总被引:12,自引:0,他引:12
The most serious erosion on the Loess Plateau of China exists in the wind-water erosion crisscross region where the annual precipitation is about 400 mm, the ecological environment is very fragile, and water is the key limiting factor for improving the environment. In this study, changes of soil moisture content for Caragana korshinskii Kom. shrubland in the gully bank of the Loess Plateau were studied using the methods of soil sampling and neutron probe. A typical gully (75 m long, 28 m wide, and 10 m deep) was selected, and six neutron probe access tubes (6 m long) were installed at points 50, 100, 200, 300, 400, and 500 cm from the gully border for obtaining soil moisture data from July to October 2004 at approximately 10 d intervals. Soil samplings were simultaneously carried out for moisture determination at the six points. Results showed that the soil moisture of the shrubland in the gully bank significantly varied between 300 and 400 cm in the horizontal direction and up to 600 cm in vertical direction of the gully. Seasonal changes in soil moisture revealed a curve with a single peak that occurred at the end of August or early September. A linear regression equation was fit for soil water storage and the distance from the gully border, with coefficients depending on rainfall characteristics, sampling point, and time of measurement. 相似文献
2.
土壤有机碳和活性碳的梯度分布及其对环境变化的反应 总被引:5,自引:0,他引:5
Based on data from a field survey in 2001 along the Northeast China transect (NECT), a precipitation gradient, and a short-term simulation experiment under ambient CO2 of 350μmol mol^-1 and doubled CO2 of 700μmol mol^-1 with different soil moisture contents of 30%-45%, 45%-60%, and 60%-80% soil water holding capacity, the distribution of soil organic carbon and labile carbon along the NECT, their relationships with precipitation and their responses to CO2 enrichment and soil moisture changes were analyzed. The results indicated that the soil labile carbon along the gradient was significantly related to soil organic carbon (r = 0.993, P 〈 0.001). The soil labile carbon decreased more rapidly with depth than organic carbon. The soil organic and labile carbon along the gradient decreased with decrease in longitude in both the topsoils and subsoils, and the coefficient of variation for the labile carbon was greater than that for the organic carbon. Both the soil organic carbon and labile carbon had significant linear relationships with precipitation, with the correlation coefficient of soil organic carbon being lower (0.677 at P 〈 0.001) than that of soil labile carbon (0.712 at P 〈 0.001). In the simulation experiment with doubled and ambient CO2 and different moisture contents, the coefficient of variation for soil organic carbon was only 1.3%, while for soil labile carbon it was 29.7%. With doubled CO2 concentration (700μmol mol^-1), soil labile carbon decreased significantly at 45% to 60% of soil moisture content. These indicated that soil labile carbon was relatively more sensitive to environmental changes than soil organic carbon. 相似文献
3.
In order to utilize the wasted saline-sodic soils under shallow groundwater condition,a 3-year field study was carried in a field cropped with Lycium barbarum L.and irrigated by drip irrigation with saline groundwater under the water table depth of 30-40 cm in the northern Yinchuan Plain,China.Effects of cropping duration (one,two,and three years) on soil salinity,soil solution composition,and pH in three adjacent plots were investigated in 2008.Results showed that a high irrigation frequency maintained high soil water potential and subsequently facilitated infiltration and downward movement of water and salt in the crop root zone.Salt accumulated on the edges of the ridges,and soil saturated-paste electrical conductivity (ECe) was higher in the edge.Concentrations of Na+,Ca2+,Mg2+,Cl-,and SO42- in the soil increased with the soil depth as did the ECe,while HCO3- and pH had a relative uniform distribution in soil profile.As planting year increased,the ECe and soil salts in the field had a decreasing tendency,while in the root zone they decreased immediately after irrigation and then remained relatively stable in the following growing seasons.HCO3- and pH had little change with the planting year.Results suggested that the application of drip irrigation with saline water could ameliorate saline-sodic soil and provide a relatively feasible soil environment for the growth of salt-tolerant plant Lycium barbarum L.under the saline-sodic soils with shallow groundwater. 相似文献
4.
Through a simulation test carried out with soil columns (61.8cm in diameter),the effect of precipitation on salt-water dynamics in soils was studied by in-situ monitoring of salt-water dynamics using soil salinity sensors and tensioneters.The results show that in the profile of whole silty loam soil,the surface runoff volume due to precipitation and the salt-leaching role of infiltrated precipitation increased with the depth of ground water;and in the profile with an intercalated bed of clay or with a thick upper layer of clay,the amount of surface runoff was greater but the salt-leaching role of precipitation was smaller than those in the profile of whole silty loam soil.In case of soil water being supplemented by precipitation,the evaporation of groundwater in the soil columns reduced,resulting in a great decline of salt accumulation from soil profile to surface soil.The effect of precipitation on the water regime of soil profile was performed via both water infiltration and water pressure transfer.The direct infiltration depth of precipitation was less than 1m in general,but water pressure transfer could go up to groundwater surface directly. 相似文献
5.
Diffusion coefficients of chlorde ions in four soils of different exture with varying effective moisture content and varying bulk density from 1.1 to 1.6 g cm^3 under three different temperatures were determined by the diffusion-cell method using ^36Cl-labelled CaCl2 solution.The result showed that activation energy decreased with water content,which indicated that the threshold fro diffusion was lower at a higher soil moisture rate .Therefor,the diffusion coefficient(D) of chloride ions in soil increased consistently with soil moisture,Although a near linear increase in the diffusion coefficient with increasing soil moisture or bulk density in all the soils was observed,the increase rate in different soils was not the same.The D value increased with teperature,and with temperature increased by 10℃ in the range from 5℃to 45℃ the D valve increased by 10%-30%,averaging about 20%. 相似文献
6.
While research on pedogenesis mainly focuses on long-term soil formation and most often neglects recent soil evolution in response to human practices or climate changes, this article reviews the impact of artificial subsurface drainage on soil evolution. Artificial drainage is considered as an example of the impact of recent changes in water fluxes on soil evolution over time scales of decades to a century. Results from various classical studies on artificial drainage including hydrological and environmental studies are reviewed and collated with rare studies dealing explicitly with soil morphology changes, in response to artificial drainage. We deduce that soil should react to the perturbations associated with subsurface drainage over time scales that do not exceeding a few decades. Subsurface drainage decreases the intensity of erosion and must i) increase the intensity of the lixiviation and eluviation processes, ii) affect iron and manganese dynamics, and iii) induce heterogeneities in soil evolution at the ten meter scale. Such recent soil evolutions can no longer be neglected as they are mostly irreversible and will probably have unknown, but expectable, feedbacks on crucial soil functions such as the sequestration of soil organic matter or the water available capacity. 相似文献
7.
红壤中水热耦合转化的实验和数值模拟研究 总被引:1,自引:0,他引:1
Coupled transfer of soil water and heat in closed columns of homogeneous red soil was studied under laboratory conditions.A coupled model was constructed using soil physical theory,empirical equations and experimental data to predict the coupled transfer.The results show that transport of soil water was affected by temperaature gradient,and the largest net water transport was found in the soil column with initial water content of 0.148m^3m^-3,At the same time,temperature changes with the transport of soil water was in a nonlinear shape as heat parameters wre function of water content,and the changes of temperature were positively correlated with the net amount of water transported.Numerical modelling results show that the predicted values of temperature distribution were close to the observed values,while the predicted values of water content exhibited limited deviation at both ends of the soil column due to the slight temperature changes at both ends .It WAS indicated that the model proposed here was applicable. 相似文献
8.
A laboratory salt-water dynamics experiment using unsaturated soils in packed silt loam and clay soil columns with different soil texture profiles and groundwater levels under crops were conducted to study the changes of salt-water dynamics induced by water uptake of crops and to propose the theoretical basis for the regulation and control of salt-water dynamics as well as to predict salinity levels. The HYDRUS 1D model was applied to simulate the one-dimensional movement of water and salt transport in the soil columns. The results showed that the salts mainly accumulated in the plow layer in the soil columns under crops. Soil water and salt both moved towards the plow layer due to soil water absorption by the crop root system. The salt contents in the column with lower groundwater were mostly greater than those with high groundwater. The water contents in the soil columns increased from top to the bottom due to plant root water uptake. The changes in groundwater level had little influence on water content of the root zone in the soil columns with crop planting. Comparison between the simulated and the determined values showed that model simulation results were ideal, so it is practicable to do numerical simulation of soil salt and water transport by the HYDRUS 1D model. Furthermore, if the actual movement of salt and water in fields is to be described in detail, much work needs to be done. The most important thing is to refine the parameters and select precise boundary conditions. 相似文献
9.
单室结构土壤微生物燃料电池发电性能的影响因子研究 总被引:5,自引:0,他引:5
DENG Huan WU Yi-Cheng ZHANG Fan HUANG Zong-Chuan CHEN Zheng XU Hui-Juan ZHAO Feng 《土壤圈》2014,24(3):330-338
There is limited information about the factors that affect the power generation of single-chamber microbial fuel cells (MFCs) using soil organic matter as a fuel source. We examined the effect of soil and water depths, and temperature on the performance of soil MFCs with anode being embedded in the flooded soil and cathode in the overlaying water. Results showed that the MFC with 5 cm deep soil and 3 cm overlaying water exhibited the highest open circuit voltage of 562 mV and a power density of 0.72 mW m-2. The ohmic resistance increased with more soil and water. The polarization resistance of cathode increased with more soil while that of anode increased with more water. During the 30 d operation, the cell voltage positively correlated with temperature and reached a maximum of 162 mV with a 500 ft external load. After the operation, the bacterial 16S rRNA gene from the soil and anode was sequenced. The bacteria in the soil were more diverse than those adhere to the anode where the bacteria were mainly affiliated to Eseherichia coli and Deltaproteobacteria. In summary, the two bacterial groups may generate electricity and the electrical properties were affected by temperature and the depth of soil and water. 相似文献
10.
The effects of individual and combined additions of urea (100 μg N g-1 soil) and insecticide (triazophos at field rate, FR) under different moisture levels of air-dried soil (AD), 50% of water-holding capacity (WHC), 100% WHC and flooded soil (FS) on some selected soil properties in a paddy field soil were examined in a laboratory incubation study. The results indicated that after 21-day incubation at 25 ℃, the different moisture levels led to significant changes in the parameters studied. Flooding of soil with distilled water significantly increased the electron transport system (ETS)/dehydrogenase activity and phenol contents of the soil compared to the other moisture levels, while protein and phospholipids behaved differently at varied moisture levels with or without the addition of urea and/or triazophos. Increased ETS activity was observed with N addition at higher moisture levels while insecticide incorporation decreased it at all moisture levels as compared to the control (moisture only). The phenol contents slightly decreased and increased with N and insecticide applications, respectively. The soil protein contents were found to be unaffected among all the soil treatments at all moisture levels. However, among different moisture levels, reduced quantities of proteins were estimated at 50% WHC, suggesting more N-mineralization. Lower quantities of soil biomass phospholipids, among all treatments, were recorded at higher moisture levels (100% WHC and FS) than at the lower levels. An overall slight enhancement in phospholipid contents with N and small reduction with insecticide addition, respectively, was noticed against the untreated soil. The toxicity of fertilizer and insecticide decreased as the soil moisture contents increased, suggesting rapid degradation of agrochemicals. 相似文献
11.
12.
黄土高原水蚀风蚀交错带沟岸灌木林地土壤水分变化 总被引:9,自引:2,他引:7
选择黄土高原水蚀风蚀交错带典型切沟,采用人工取样和中子仪测定研究了柠条坡地不同坡位土壤水分变化,明确了切沟对沟岸柠条林地土壤水分的影响范围,建立了土壤储水量与距沟沿不同距离之间的关系。结果表明:在黄土高原雨季(7~10月),天然降水对柠条坡地下位的补给深度达到了220 cm,对坡地上位和中位的补给深度分别为180 cm和160 cm。在土壤剖面200 cm深度范围内,坡下位土壤水分含量始终高于坡上位和坡中位,200 cm深度以下,坡地上、中、下位土壤水分趋于一致。切沟对柠条林地土壤水分影响水平宽度达到3~4 m,垂直深度达到6 m以下。沟岸柠条坡地距沟沿不同距离土壤剖面储水量与沟沿距离间的关系可以用线性函数来表达。研究沟岸地距沟沿不同距离的土壤水分变化规律对沟岸地植被的恢复具有重要的科学意义。 相似文献
13.
氮对土壤中氯氰菊酯及其降解产物3-苯氧基苯甲酸降解的影响 总被引:5,自引:0,他引:5
Increasing use of pyrethroid insecticides has resulted in concerns regarding potential effects on human health and ecosystems. Cypermethrin and its metabolite 3-phenoxybenzoic acid (PBA) have exerted adverse biological impacts on the environment; therefore, it is critically important to develop different methods to enhance their degradation. In this study, incubation experiments were conducted using samples of an Aquic Inceptisol supplied with nitrogen (N) in the form of NH4NO3 at different levels to investigate the effect of nitrogen on the degradation of cypermethrin and PBA in soil. The results indicated that appropriate N application can promote the degradation of cypermethrin and PBA in soil. The maximum degradation rates were 80.0% for cypermethrin after 14 days of incubation in the treatment with N at a rate of 122.1 kg ha^-1 and 41.0% for PBA after 60 days of incubation in the treatment with N at a rate of 182.7 kg ha^-1. The corresponding rates in the treatments without nitrogen were 62.7% for cypermethrin and 27.8% for PBA. However, oversupplying N significantly reduced degradation of these compounds. Enhancement of degradation could be explained by the stimulation of microbial activity after the addition of N. In particular, dehydrogenase activities in the soil generally increased with the addition of N, except in the soil where N was applied at the highest level. The lower degradation rate measured in the treatment with an oversupply of N may be attributed to the microbial metabolism shifts induced by high N. 相似文献
14.
为定量研究沟壁侧面蒸发对加速黄土高原环境旱化的作用,在侵蚀强烈的水蚀风蚀交错带选择典型冲沟,分别在沟岸地(邻近沟缘的沟间地部分)距冲沟沟缘20、100、200、300、400、500、600cm处布设中子管,研究沟岸地土壤水分的垂直分布及其动态变化。结果表明:土壤水分在距沟缘500cm范围内随距离增加而增加,证明了沟壁侧面蒸发作用的客观存在;对距沟缘不同距离0~300cm土层土壤储水量动态变化的研究表明:降雨发生时,不同距离各点的储水增量并无显著差异,但距沟缘20 cm处土壤水分损失最快,而500 cm土壤水分损失最慢,证明了沟壁侧面蒸发通过加速土壤水分蒸发加速黄土高原环境旱化的客观事实。沟岸地土壤储水量与距沟缘距离幂函数关系的确定为定量化研究沟壁侧面蒸发加速黄土高原环境旱化程度奠定了初步基础。 相似文献
15.
为掌握黄土高原切沟对其上方集水区内土壤水分的影响,选取晋西黄土区典型切沟上方的集水区为研究对象,采用土钻法定期测量0—10 m土层的土壤水分,探讨集水区内不同地貌部位的土壤水分状况。结果表明:(1)集水区内土壤水分状况受距离切沟远近和地貌部位的共同影响。(2)集水区内距离切沟1 m处的蓄水量显著低于距离切沟3,6 m处的蓄水量(P<0.05),集水区内洼地的蓄水量大于坡面。(3)集水区内6个采样点浅层含水量随时间变化剧烈,深层含水量随时间变化小。(4)切沟对其上方集水区内土壤水分的水平影响距离为1~3 m,距切沟1 m处,影响深度最深可达7 m,距切沟3 m处,影响深度为2 m。在未来开展切沟治理中,建议在距离切沟1 m范围内密植低耗水的耐旱灌木或草本,利用密植的植物增加地面糙率,降低水流流速,并利用植物根系网络土体,增加抗冲性,从而起到防治切沟溯源侵蚀。 相似文献
16.
黄土高原沟壑区塬面苹果园土壤水分特征分析 总被引:11,自引:1,他引:10
为了解长期种植果树对黄土高原沟壑区土壤水分的影响,对不同种植年限的塬面果园土壤水分特征进行了分析。结果表明:黄土沟壑区塬面果园土壤水分含量普遍低于80%田间持水量,水分较亏缺。0~10 m果园土壤平均含水量与3 m以下各层含水量均呈极显著相关关系,与2~3 m层含水量呈显著相关关系,与0~2 m层次的土壤含水量相关性不显著。土壤水分含量随种植年限的增加呈现先降低后又略有恢复的趋势,但水分恢复量不大。土壤水分波动性及其亏缺量随种植年限的增加呈现先增加后减小的抛物线型变化趋势。果树根系所吸收利用的土壤水分的深度,随着种植年限的增加而增深。在果树的主要生命周期内,其吸收利用的土壤水分最大深度可达8 m上下,耗水量最大时期为盛果中期(种植15年左右)。 相似文献
17.
等高绿篱模式下红壤丘岗区浅沟坡面土壤水分时空分布 总被引:1,自引:0,他引:1
等高绿篱技术被认为是防治浅沟侵蚀的一种有效措施,然而,绿篱拦挡下浅沟坡面土壤水分的变化特征还不是很清楚。利用定位观测数据,探讨了绿篱拦挡下浅沟坡面土壤水分的时空变化。结果表明:在浅沟存在的坡面上,等高种植香根草显著影响了土壤水分时空分布特征。0-45cm土层土壤含水量垂直变化,香根草小区和裸地小区在雨季均呈逐渐减小趋势,在旱季呈逐渐增大趋势,且香根草小区各层土壤水分变异程度大于裸地;浅沟坡面土壤水分从坡顶向下,香根草小区变化总趋势是先减小后增大或持平,裸地小区呈先增大后减小再增大趋势;香根草种植增大了土壤水分沿坡面横向的变异度,但纵向坡位的影响仍较横向明显。 相似文献
18.
赣南稀土尾矿堆积区水土流失规律初探 总被引:2,自引:1,他引:2
赣南是我国重要的离子型稀土矿生产基地,但在其开采的同时也对矿区周围的土壤与环境造成影响,特别是稀土尾矿的水土流失问题尤为严重。本文选择典型的尾矿水土流失区,采用野外测量等方法对矿堆的主要水土流失类型及其强烈程度进行研究,同时对典型水土流失路径进行实地监测。结果表明:尾矿水土流失区沟道平均侵蚀模数约为3.73×104 t/(km2?a),坡面细沟平均侵蚀模数为1 651.2 t/(km2?a),水土流失情况极其严重。在降雨过程中,侵蚀沟内路径为侵蚀状态,侵蚀深度不断增加,在距沟头66 m处侵蚀深度开始减小,径流流出冲沟后到距离侵蚀沟出口处大约60 m的地方侵蚀深度为0 cm,之后随着距离的增加,泥沙开始逐渐沉积,水土流失状态转为堆积。 相似文献
19.
梯田田坎水分耗散及其对作物产量的影响初探 总被引:6,自引:0,他引:6
通过对陕北丘陵沟壑区梯田土壤水分及作物产量监测结果的分析,认为田坎水分蒸发对田面土壤水分的减少作用,在距田坎1m距离内是明显的,它使作物单株产量较坡地减少了18.2%,理论计算表明:1m高田坎水分损失10.9%,2m高田坎水分损失11.2%。 相似文献