Influence of vegetation type and topographic position on volumetric soil water content dynamics and similarity among surface and deep soil layers

Clarifying the mechanisms governing volumetric soil water content(VSWC)dynamics in soil profiles is essential,as it can help to elucidate soil water transport processes and improve the prediction accuracy of soil hydrological processes.Using Spearman's rank correlation and wavelet coherence analysis methods,similarity in soil profile VSWC dynamics and factors governing VSWC soil profile dynamics in upslopes and downslopes under three vegetation types(evergreen forest[EG],secondary deciduous forest mixed with shrubs[SDFS],and deforested pasture[DP])at different time scales(hourly,daily,weekly,and monthly)and in different seasons were analyzed.The results revealed significant similarity in the VSWC of different soil depths(P<0.01),with the similarity decreasing in accordance with the increment in soil depth.Greater VSWC similarity was found in EG than SDFS and DP sites and in upslope than downslope areas at both forest sites.The average significant coherence area(SCA)of VSWC similarity among surface and deep soil layers varied with the time scale,which was in the order of monthly(58.6%)>weekly(42.8%)>daily(21.8%).The effects of soil properties(e.g.,texture,saturated hydraulic conductivity),rainfall,and potential evapotranspiration(ET_(p))on VSWC similarity were related to the time scale and season in which VSWC monitoring took place.Soil properties had apparent effects on VSWC similarity at longer time scales(i.e.,monthly),with a high SCA.In contrast,the effects of rainfall and ET_(p) on VSWC similarity were concentrated at weekly and daily scales,with a relatively low SCA.Rainfall and ET_(p) dominated VSWC dynamics in the summer and fall,respectively.These results imply the use of measured VSWC at one soil depth to predict the VSWC at other soil depths was a reliable method.While the in-fluence of time scale effects and seasonal variations on prediction accuracy of VSWC should be considered.

断层虚位错模式揭示的2022年1月8日青海门源M_(S)6.9地震前的地电阻率变化

选取2022年1月8日青海门源M_(S)6.9地震震中400 km范围内四个地电阻率观测台站的观测精度高、具有稳态年变、震前无显著干扰的地电阻率ρ_(s)观测数据,结合ERA5同化数据集中的多层土壤温度和土壤水分含量,在利用多项式拟合获取各台站(或测道)地电阻率正常年动态的基础上,分析了门源地震前地电阻率的异常变化。结果显示:金银滩台EW测道、武威台NS测道和山丹台EW测道、N45°W测道震前存在超阈值的异常变化,并呈现各向异性特征。基于断层虚位错模式分析了地电阻率异常变化与孕震过程之间的联系,结果表明:金银滩台震前处于压缩区并受到NNE方向的挤压,与主压应变近似正交的EW测道于震前10个月出现负异常;同样位于压缩区的武威台,受到了ENE向的挤压,NS测道的地电阻率在孕震早期(震前13个月)以负异常为主,孕震中晚期(震前3个月)出现了正异常;山丹台,位于膨胀区,受到近似NS向的拉张,与主张应变平行的NS测道未发现异常,但EW测道震前一年地电阻率出现正异常,N45°W测道的地电阻率也在震前半年左右出现超阈值并呈正异常。此外,金银滩台、山丹台和武威台距离门源地震震中的距离分别为92 km,113 km和139 km,相应的地电阻率异常最大变化幅值分别为−3.0σ,2.2σ和−2.1σ。此外,门源地震前地电阻率异常变化的时空特征与岩石实验结果及理论模型一致,也符合震源区应力应变积累程度较高、向外围方向逐渐衰减的分布特征。由此推断,2022年门源M_(S)6.9地震前地电阻率的时空变化可能与区域介质变形及应力变化有关。

中亚热带不同演替阶段森林土壤水分时空异质性

【目的】探究典型中亚热带区不同演替阶段森林群落土壤体积含水量的时间(年、干湿季)与空间(土层)异质性特征,分析森林群落演替进程中引起土壤不同土层体积含水量异质性的主要因素,为区域林水资源管理及森林生态系统服务功能评估提供基础数据。【方法】选取云南玉溪磨盘山的典型森林,包括演替初期的云南松林(PF)、演替中期的云南松阔叶混交林(PBMF)和顶级群落常绿阔叶林(EBF),应用时域反射法与经典统计学分析法,于2021年5月至2022年4月测量样地0~60 cm土层内每10 cm土层的土壤体积含水量,探析森林土壤水分的时空异质性及影响因素。【结果】1)在气候干湿分明、干旱频繁的中亚热带地区,森林土壤储水量在时间上呈中等变异且与降水变化趋势一致。随演替进行,年均土壤储水量为EBF最大,MPBF次之,PF最小。EBF与PBMF全年土壤储水量较PF分别平均增加31.24%和15.22%。2)3种演替阶段森林的土壤体积含水量均随土层加深而增大,0~10 cm土层土壤体积含水量平均比50~60 cm土层低45.22%,土壤体积含水量变异系数与土壤体积含水量呈显著负相关(P<0.05)。3)土壤体积含水量与林分密度、树高、胸径、土壤密度、土壤砂粒含量均极显著负相关(P<0.01),与叶面积指数、郁闭度、土壤孔隙度、黏粒含量、粉粒含量、有机质含量和有机碳含量均极显著正相关(P<0.01),叶面积指数、土壤孔隙度、粉粒含量、有机质含量和有机碳含量与土壤含水量的关联程度最高。【结论】云南玉溪磨盘山不同演替阶段森林的年、干湿季和0~60 cm土层的土壤体积含水量变异系数均值分别为19.86%、17.31%、14.06%和20.58%,均表现出中等强度异质性,随演替进行森林土壤储水能力不断增强。叶面积指数、土壤孔隙度、砂粒含量、有机质含量和有机碳含量是土壤不同土层体积含水量产生空间异质性的主导因素。

下蜀土降雨入渗光纤感测及渗透系数估算研究

下蜀土中裂隙较为发育,在降雨时入渗能力强,因此容易诱发浅层滑坡等灾害。为了研究下蜀土的降雨入渗特征,本文采用主动加热光纤光栅(AH-FBG)法开展了地基土水分分布及其动态变化的原位监测研究。基于监测数据,掌握了冬季和夏季土体体积含水率的时空分布特征,并计算得到降雨事件的降雨入渗量及入渗补给系数。在此基础上,通过稳态法计算获取了原位下蜀土的非饱和渗透系数,并与间接法估算值进行比较。结果表明:将AH-FBG法应用于下蜀土含水率的原位监测具有可行性,其中5 cm深度的均方根误差较大,为0.0252 m^(3)·m^(-3),主要受到浅层土体和空气的热量交换作用以及土体裂隙的影响,其余深度均不超过0.01 m^(3)·m^(-3)。原位监测系统对降雨入渗和蒸发作用引起的含水率变化均具有良好的响应。无论是冬季还是夏季,由稳态法计算得到的原位非饱和渗透系数均大于间接法估算值,表明下蜀土中的裂隙为降雨入渗提供了优先渗流通道。

模拟干旱下杨树树干液流特征及其对环境因子的响应

[目的]研究干旱对杨树人工林树干液流的影响,可以深入理解杨树人工林对全球降水格局改变的响应。[方法]于2018年9月—2020年11月以东台林场10年生杨树(Populus deltoides)人工林为对象,采用穿透雨移除法模拟干旱处理:CK(对照)、D_(1)(30%穿透雨移除)、D_(2)(50%穿透雨移除),利用热扩散探针技术连续测定杨树人工林的液流变化,结合同步监测的环境因子,揭示杨树人工林对环境因子的响应规律。[结果](1)3个处理下杨树人工林树干液流年变化曲线呈现单峰型,与饱和蒸汽压差、光合有效辐射的年际变化曲线相似。树干液流速率在夏季达到峰值,接着随着时间推移逐渐下降,到达林木休眠期时液流密度趋近于0;(2)模拟干旱下,随着截流程度增大,树干液流随之降低。D_(1)和D_(2)生长季液流密度平均值比对照组显著下降了24%~39%(p<0.05);(3)混合效应模型表明饱和蒸汽压差和土壤温度与液流变化极显著相关(p<0.01),大气温度,降雨量和土壤温度与液流变化显著相关(p<0.05)。[结论]移除30%的穿透雨提高了各环境因子对液流变化的解释程度,即干旱条件下会提高树干液流对环境变化的敏感性,其中土壤含水量对液流变化的解释率最高。未来仍需继续探讨树木自身性状对环境的响应。

基于介电频谱特征参数的红壤干旱指标评价研究

为获取红壤含水量对电磁波介电频谱的响应特征,探讨介电频谱特征参数作为红壤干旱评价指标的可行性,以红壤为研究对象,开展不同体积含水量红壤的频域介电谱(FDS)试验,提取介电谱特征曲线积分值,分析介电频谱特征参数与体积含水量的相关性,结合国家《农业干旱等级》标准提出基于介电频谱特征参数的红壤干旱评价指标。结果表明:红壤介电常数实部和虚部均随着介电频谱频率的增大而逐渐减小,两者与体积含水量均呈正相关关系;介电损耗因数随频率变化具有波动性,且体积含水量越小波动性越强,总体呈现出先减小后增大的趋势;通过最小二乘法拟合得到介电频谱特征参数与体积含水量的量化关系,采用细菌觅食算法确定最优的模型系数,拟合精度均大于0.95;基于介电谱特征参数建立红壤干旱指标评价模型,预测值与标准值之间的误差均为±1%左右。该模型能有效地评价红壤干旱程度,可为红壤区域性农业干旱调查、评估及预警提供参考指标。

9种介电类水分传感器对风沙土含水率的测定精度及校准模型比较

【目的】比较不同水分传感器对风沙土含水率的测定精度,并建立校准模型,为旱区农业水土资源的高效利用提供理论依据。【方法】以METER、Acclima和Truebners三大制造商生产的9种介电类水分传感器为对象,以典型风沙土为供试土壤,通过室内校准试验比较各种传感器对土壤含水率的测定精度,评估其在风沙土上的适用范围、准确度、精密度及其影响因素,并构建不同传感器测定风沙土含水率的校准模型,比较不同校准模型的精度。【结果】(1)默认模型下,与其他传感器相比,MAS-1和EC-5的测定精度较高,其均方根误差(RMSE)分别为0.020和0.027,平均偏差误差(MBE)分别为0.016和0.024,斜率(k值)分别为0.9433和0.9403,决定系数(R^(2))分别为0.926和0.938。(2)土壤含水率范围影响传感器的测定精度。各传感器在低含水率下的RMSE平均值比中、高含水率分别减小了40.9%和42.6%,MBE平均值减小了61.8%和59.9%,而R2平均值提高了0.7%和11.3%。其中,低含水率时EC-5和TDR-315H的精度较高,而中、高含水率下MAS-1的精度均较高。对于含水率相同的土壤,各传感器的测定结果差异较大,且含水率越高差异越大。(3)与默认模型相比,校准模型的RMSE和MBE平均减小了48.8%和72.6%,纳什系数(NSE)和R2提高了70.7%和4.5%。经模型校准后,5TE和TEROS-12测定精度的增幅最大,而TDR-315H的测定精度相对最高。此外,传感器测定的风沙土含水率默认值与校准值具有较高的拟合精度,通过模型转换可实现对默认值的二次校准。【结论】综合评估测定精度、使用寿命和售价,MAS-1、EC-5和TDR-315H可作为风沙土含水率监测的优先传感器备选,且利用风沙土的校准模型对传感器进行标定十分重要。

温州城市绿地的土壤呼吸特征及影响因素

[目的]城市绿地面积逐年增加,城市绿地土壤呼吸对准确评估绿地碳源汇功能至关重要,本文旨在阐明不同绿地类型的土壤呼吸变化特征及影响因素,为实现低碳减排目标提供理论依据。[方法]本文以温州城市森林(香樟)和绿化景观(马尼拉草和银杏)为研究对象,于2021年1-12月使用静态箱-气相色谱法对城市绿地土壤呼吸速率(Rs)进行跟踪观测。[结果](1)Rs年排放量大小依次为香樟(892.01 gC·m^(-2)·a^(-1))>马尼拉草(735.30 gC·m^(-2)·a^(-1))>银杏(500.15 gC·m^(-2)·a^(-1)),且Rs年排放量与土壤有机碳含量显著正相关,与土壤容重显著负相关;(2)指数函数拟合表明,土壤温度(T)对马尼拉草、银杏和香樟Rs的月份动态变化解释能力较高,分别为57.4%、59.0%和51.1%;而土壤含水量(VWC)对香樟Rs月份动态的解释能力远高于其他2种植被,达到55.6%;且香樟Rs对T和VWC变化的敏感性高于2种绿化景观;(3)双因素模型进一步表明,VWC对预测香樟林Rs变化的重要性略高于T,而T对2个绿化景观Rs变化的重要性远高于VWC。[结论]温州城市森林土壤呼吸高于绿化景观,且月份动态受T和VWC的共同影响,绿化景观土壤呼吸主要受T影响,不同绿地Rs年排放量的差异归因于土壤的有机碳和容重差异。

梅雨气候区膨胀土填芯路基设计研究

将膨胀土作为路基填料,可有效利用膨胀土路堑开挖产生的弃土。以铜陵江北港铁路专用线膨胀土路基工程为依托,提出了梅雨气候区膨胀土填芯路基的设计方法。首先,进行膨胀土的膨胀力试验;然后,研究梅雨季节膨胀土填芯路基内部体积含水量与包边黏性土种类、包边厚度、路基压实系数的关系,分析梅雨季节填芯膨胀土膨胀力发育情况;最后,确定了膨胀土填芯路基设计方案,并将膨胀力引入折线型滑动面安全系数计算公式进行稳定性验算。结果表明,铜陵江北港铁路专用线膨胀土填芯路基采用亚黏土包边,包边厚度取1 m,压实系数取0.92,不仅能减少浪费,安全系数也满足规范要求。

Proposal of a Method to Easily Understand Rainfall Infiltration in Railway Embankments

Slope failures due to heavy or prolonged rain have been occurring frequently in Japan in recent years.In railway embankments,even small-scale surface collapse can result in track deformation.Currently,train operation during rainy periods is regulated according to empirical rules based on rainfall and disaster history.However,the validity of operation regulations is lacking because the rainfall infiltration circumstances inside the slope are unknown.We have been attempting to understand rainfall infiltration in railway embankments by applying a method of predicting surface collapse from observations of volumetric water content in the soil.We used previous field monitoring and model experiments to propose a method for easily understanding the state of rainfall infiltration in the surface layer of an embankment using the relative history of volumetric water content at different depths.In this study,we applied this simple determination method to railway embankments with different topography and geological environments to demonstrate the versatility of the method.

药用辅料海藻酸钠含量测定方法改进

目的:对USP收载的药用辅料海藻酸钠含量测定方法进行改进,以适用于我国市场上样品的含量测定。方法:对应高、低黏度海藻酸钠样品,分别采用酸-水和酸-异丙醇沉淀法进行前处理,再进行酸碱中和容量分析,以测定海藻酸钠的含量。结果:对前处理条件进行探索优化后,酸-水沉淀法和酸-异丙醇沉淀法分别在0.5~1.5 g样品量范围内与消耗氢氧化钠滴定液的体积呈良好的线性关系(R^(2)=1.0000, 0.9999),平均回收率分别为104.2%、101.9%,RSD分别为0.3%、0.2%(n=6)。结论:改进的方法专属性强、准确度高、精密度好,便捷、成本低,可用于药用辅料海藻酸钠的含量测定。

基于Spearman相关系数的接地电阻与土壤体积含水量相关性分析

【目的】防雷接地是防雷工程设计、施工和验收中的主要工作。通过了解土壤体积含水量对接地电阻的影响,能有效减少其对防雷接地设计的影响。【方法】对重庆市南川区金佛山国家综合气象观测专项试验外场2021年的接地电阻值和不同深度(地下0.1m、0.2 m、0.3 m、0.4 m、0.5 m、1.0 m)的土壤体积含水量数据进行特征分析,并对接地电阻、土壤体积含水量日均值进行正态性检验,利用Spearman相关系数进行相关性分析。【结果】深度为0.1~1.0 m时,接地电阻与不同深度的土壤体积含水量之间均呈现负相关关系,与深度为0.5 m的土壤体积含水量之间相关度最强,与接地极的埋深较为一致。【结论】对防雷接地设计有一定的参考价值。

Water and salt movement in different soil textures under various negative irrigating pressures

supported by the National High-Tech R＆D Program of China （2013AA102901）

Experimental study on unsaturated soil water diffusivity in different soils in Hebei Piedmont Plain

Horizontal soil column method was used to determine the horizontal diffusion rate of sandy loam, loam and clay loam under the same bulk density. The results showed that the migration rates of different lithological wet fronts were different. The sandy loam had the fastest migration rate, the loam followed, and the clay loam was the slowest, but the law of change is the same among the three lithologies. The volumetric water content affects the change of Boltzmann parameter λ. When the volumetric water content is between 0.35-0.45 cm^3/cm^3,λ approaches stability. When the volumetric water content is less than 0.35 cm^3/cm^3, the λ value decreases rapidly with the decrease of water content. The water diffusion rate is related to the volumetric water content and particle size. The greater the moisture content is, the greater the diffusion rate will be. The larger the particle size, the larger the diffusion rate. The diffusivity of sandy loam is 10-30 times larger than that of loam and clay loam. The relationship between water content and diffusion rate is in accordance with the exponential function .

Photosynthetic stimulation of saplings by the interaction of CO2 and water stress

Climate change necessitates research into interactions between elevated carbon dioxide(CO2)concentrations and drought on plant photosynthetic physiology.This study describes the physiological properties of Platycladus orientalis(Chinese thuja)and Quercus variabilis(Chinese cork oak)saplings cultivated through orthogonal treatments of four CO2 concentrations combined with five soil volumetric water contents(SWC).It highlights the differences between the interactive effects from the treatments.Water stress had little effect on photosynthetic traits until the soil volumetric water contents exceeded 70–80 or 100%.Similar variations in carbon-13 isotope abundance(δ^13C)of water soluble compounds(δ^13CWSC)extracted from leaves of two species have been observed.Whether soil volumetric water contents exceeded or fell below the water threshold values(70–80%of field capacity for P.orientalis and 100%of field capacity for Q.variabilis),instantaneous water use efficiency decreased.Elevated carbon dioxide could increase iWUE and enhance drought tolerance,depending on stimulating net photosynthetic rates and declining stomatal conductance and transpiration rates.Augmenting either drought,excess water,or ambient carbon dioxide could alleviate the physiological inhibition caused by the stresses described above.

Study of Water Movement in Unsaturated Copper Ore

Leaching is widely applied in the exploitation of depleted ores. In order to discover the law of leachant movement in the leaching process and calculating volumes and time intervals of spraying leachant,experiments and numerical simulation with the TOUGH2/EOS3 module were carried out in order to find out the principle of water movement in unsaturated copper ore. The results show that water volume increases at the same location over time,that copper ore tends to become saturated and that liquid velocity decreases at the same time as the distance from top in-creases. On the other hand,a comparison and analysis of our experimental and simulated results indicate that the EOS3 module could accurately simulate the water movement in an unsaturated state.

红黏土介电常数模型试验研究

土体介电常数模型反映体积含水率与介电常数的关系,通过探地雷达可快速、便捷、无损地获取土层的含水状况,建立合理、可靠的红黏土介电常数模型对土体含水状态预判、监测及其土壤水分运移研究具有重要的意义。以云南红黏土为例,综合考虑影响红黏土介电特性的关键物理因素(含水率、干密度、温度),通过重塑红黏土开展介电常数室内测试研究,模拟对比分析现有土体介电常数经验模型对红黏土含水量的预估精度,最终提出红黏土多变量介电常数经验模型。结果表明,红黏土相对介电常数随体积含水率、干密度和温度的增加呈现逐渐增大的趋势,已有模型对红黏土含水量预测结果存在较大误差;在考虑干密度影响的土体介电常数模型(Malicki模型、周建平模型)基础上,引入温度因素构建的红黏土介电常数模型对含水量的预估效果有明显提升,预估精度由高到低为:多变量模型、Zhao Yun模型、Malicki模型、周建平模型、Topp模型、廖红建模型、Herkelrath模型。该模型拟合精度较高,可为不同地区红黏土介电常数模型的构建提供参考,为区域工程性红黏土含水状态检测、监测及高效用水提供便捷途径。

基于实时监测的滑坡土体电导率与体积含水率关系研究

降雨入渗增加了斜坡土体的含水率而诱发滑坡灾害,确定深部土体含水率空间分布是滑坡预警预报的关键.通过在河北西部山区滑坡土体中进行的实时土体体积含水率、电导率、地温等原位监测,分析了不同深度土体的电导率与体积含水率的关系.结果表明,滑坡土体体积含水率和电导率随时间同步波动,两者存在线性关系,线性相关系数随深度的增加逐渐增大,并建立了土体电导率(或电阻率)与体积含水率的函数关系模型.这可为河北地区同类型的滑坡地下水空间分布探查提供依据.

基于不同降雨强度的黄土边坡降雨入渗特性研究

以甘肃庆阳某均质黄土边坡为参照原型,建立了满足相似条件的室内模型边坡,进行了不同雨强下的边坡降雨入渗试验,得到了不同雨强下降雨入渗规律和冲刷规律。研究结果表明:在边坡不同位置处降雨入渗速率不同,呈现出坡顶入渗速率最快、坡脚次之、边坡中部最慢的特点;且边坡不同位置处降雨入渗深度亦不同,表现为坡脚入渗深度最大,坡顶次之、边坡中部最小;小雨条件下边坡降雨入渗深度在10~15 cm,中雨条件下降雨入渗深度在15~25 cm,大雨条件下降雨入渗深度在18~35 cm,暴雨条件下降雨入渗深度在20~40 cm。

考虑临界体积含水率作用的无黏性边坡模型试验

针对路基边坡失稳进行分析,研究改进无黏性边坡模型试验,在恒定降雨强度下,边坡体积含水率随时间变化,将初始恒定体积含水率定义为临界体积含水率θ_(iqs);通过图像处理技术,对不同土层厚度下边坡内部任意位置处的体积含水率与边坡位移之间关系进行分析。试验监测不同深度下的水分分布,对垂直方向的降雨渗透行为进行评估;在超过初始的θ_(iqs)后,体积含水率的增加会导致地下水位线的上升,从而诱发边坡变形,随即产生位移,θ_(iqs)可作为预测坡趾失稳指标;在边坡中上部范围内,当未超过θ_(iqs)但土体内部已经形成饱和带时,边坡也会发生小部分位移。