三峡库区不同土地利用类型土壤颗粒分形特征

采集三峡库区忠县石宝寨4种不同土地利用类型土壤剖面0-40cm土层3个层次12个土壤样品,通过计算和测定土样颗粒体积分形维数及基本性质,以期说明三峡库区中性紫色土土壤颗粒体积分形特征及其与土壤基本性质间的相关性。结果表明,研究区中性紫色土土壤剖面（0-40cm）土壤颗粒体积分形维数D值介于2.638～2.674之间。随土层深度的增加D值总体呈增加趋势,不同土地利用类型之间的D值存在差异,表现为林地〈果园〈菜地〈水田;D值与土壤粘粒（〈0.002mm）体积百分含量呈极显著正相关关系（P〈0.01）,与土壤粉粒（0.002～0.05mm）体积百分含量的相关性不强,而与砂粒（〉0.05mm）体积百分含量呈极显著负相关关系（P〈0.01）;D值与土壤有机质、全氮、全磷含量不存在显著相关性。     

不同耕作年限水稻土土壤颗粒的体积分形特征研究

应用基于土壤颗粒体积分布确定土壤颗粒大小分布分形维数的方法,对浙江慈溪耕作年限分别为50、100、500、700、1000和2000年的水稻土土壤颗粒体积分形特征进行了研究.结果表明:同基于土壤颗粒质量分布的分形维数相比,基于土壤颗粒体积分布的分形维数计算不需要密度假设,更具有合理性.不同年限水稻土的土壤颗粒大小分布能被体积分形模型显著拟合(p＜0.01).土壤颗粒体积分形维数与黏粒的体积百分含量之间呈显著正相关(p＜0.01),与粉粒和砂粒的体积百分含量之间呈显著负相关(p＜0.01),其中与黏粒含量关系最为密切.耕作年限对水稻土土壤颗粒的体积分形维数和分形模型的拟合度均有一定影响.与50 ～ 500年水稻土相比,700 ～ 2000年水稻土剖面中土壤颗粒体积分形维数的变异性和均值较高,但其拟合决定系数则较低;耕作年限会对水稻土剖面中黏粒的含量和分布产生影响,进而影响到剖面土壤的颗粒体积分形特征;对于同一质地类型的土壤,耕作年限越长,分形维数越高.     

PLA平铺沙障对沙丘土壤颗粒分形特征的影响

采用室外调查与室内分析相结合的方法,统计分析了毛乌素沙地PLA沙障铺设5年后的土壤颗粒粒径组成、分形维数及其与土壤砂粒(0.05 mm)、粉粒(0.05~0.002 mm)和黏粒(0.002 mm)含量的之间的关系。结果表明:研究区沙物质颗粒主要以粒径大于0.05 mm的细沙、极细沙为主。设置PLA沙障后,导致沙丘中粗沙含量减少,黏粒物质增加。沙障规格对土壤分形维数的影响表现为规格越小,土壤分形维数越大。沙丘表层分形维数与砂粒含量(0.05 mm)呈极显著的负相关关系,而与黏粒含量呈极显著的正相关关系。该地区颗粒分形维数的临界粒径为0.05 mm粒径物质,低于0.05 mm的颗粒含量越多,分形维数越高,反之则越低。设置PLA沙障后,黏粒物质聚集和沙粒物质的降低共同导致分形维数的增加。     

沙柳沙障对沙丘土壤颗粒粒径及分形维数的影响

统计分析了库布齐沙漠流动沙丘、设置沙柳活沙障和死沙障沙丘的土壤颗粒粒径分布、分形维数及其与土壤砂粒(>0.05 mm)、粉粒(0.05~0.002 mm)和黏粒(<0.002 mm)含量的关系。结果表明:与流动沙丘相比,设置沙障沙丘的粉粒和黏粒含量增加,且随着土层的加深而表现为下降趋势,不同部位则均呈沙丘下部>上部>中部的趋势。土壤颗粒分形维数因设置沙障而呈增大趋势,且表现为活沙障沙丘>死沙障沙丘>流动沙丘;垂直分布上,设置沙障沙丘的土壤分形维数随土层加深而逐渐减小,而流动沙丘表现为表层与下层大而中层小的特征,沙丘不同部位的分形维数则均表现为沙丘下部>上部>中部。土壤颗粒分形维数大小与土壤质地的细粒化有一致的变化趋势,且与砂粒含量呈极显著负相关关系,而与黏粒含量、粉粒含量呈极显著正相关关系。<0.05 mm粒径物质含量的增加和>0.05 mm粒径物质含量的降低共同导致了土壤颗粒分形维数在设置沙障后的增大。     

土地利用方式对雅江中游土壤理化性质及 颗粒分形特征的影响

采取野外调查和室内试验相结合方法,分析了雅江中游4种土地利用方式基本理化性质,并运用土壤颗粒体积分形维数模型研究了不同土地利用方式土壤颗粒分形特征及与土壤粒径、性状关系。结果表明:(1)不同土地利用方式0~30 cm土壤理化性质差异显著(P0.05),土壤容重表现为稀疏灌丛农耕地荒草地人工林地,随着土壤层次增加,土壤容重呈增大趋势。总孔隙度、毛管孔隙度、饱和持水率、毛管持水率均与容重规律相反;(2)4种土地利用方式主要以粉粒、砂粒为主,黏粒含量仅占到0.36%~4.27%,土壤质地偏砂性;(3)0~30 cm土壤颗粒体积分形维数平均值的顺序为:农耕地荒草地人工林地稀疏灌丛。人工林地具有较好的土壤结构,相对疏松、通透性好。而稀疏灌丛受到砾石影响,分形维数最小,但在保水保肥能力上最弱;(4)土壤颗粒体积分形维数与砂粒体积百分含量呈极显著负相关(r=–0.873,P0.01);与粉粒体积百分含量呈极显著正相关(r=0.860,P0.01);与黏粒体积百分含量呈极显著正相关(r=0.913,P0.01)。这表明,一定程度上,研究区分形维数可作为评估水土流失的指标;(5)土壤颗粒体积分形维数与各土壤单一物理性质具有不同程度相关性,其中与总孔隙度、毛管孔隙度、饱和含水量、毛管含水量均为正相关关系,而与容重、有机质呈负相关关系。     

沂蒙山区小流域坡耕地土壤颗粒结构与养分退化特征

为探讨坡耕地土壤退化程度及其与坡度的关系,在沂蒙山区选择典型小流域,通过测定流域内不同坡度坡耕地、弃耕地与生态林地的土壤颗粒组成、分形维数、土壤养分质量分数的变化及其相关性,研究坡耕地土壤颗粒结构与养分退化特征。结果表明：1）所有土地利用类型,土壤砂粒体积分数最高,黏粒体积分数最低,平均值分别为70．81％、0．75％;2）土壤颗粒分形维数、有机质质量分数为生态林地〉弃耕地〉坡耕地;3）坡耕地土壤颗粒分形维数随坡度增加而减小,其大小与土壤粉粒和黏粒体积分数分别呈极显著、显著正相关;4）所有土地利用类型,土壤有机质质量分数与砂粒体积分数显著负相关,与粉粒和黏粒体积分数显著正相关,土壤氮、磷、钾养分质量分数与土壤颗粒体积分数相关性不显著;5）研究区土壤具有粗骨性砂土的物理特性,坡耕地耕作或坡度加大会增强土壤粉粒和黏粒的流失,导致土壤颗粒分布的均匀性及其分维数下降,水肥保蓄性能和养分质量分数降低。     

王茂沟流域淤地坝系土壤颗粒与有机碳分布特征研究

为了研究黄土高原丘陵沟壑区坝系坝地土壤颗粒与有机碳的分布特征,以陕北绥德县王茂沟小流域为研究对象,选取了47个土壤剖面,采集土样940个,分析了分形维数、粗化度、有机碳与各粒径组成之间的关系。结果表明:（1）研究区坝地的土壤粒径分布中,粉粒含量占主导地位,依次为砂粒、黏粒;（2）王茂沟坝地土壤颗粒的分形维数在2.674~2.829之内变化,垂直剖面上变化很微小,坝前、坝中、坝后土壤颗粒分形维数分别为2.803 3,2.783 6,2.795 8;（3）王茂沟坝地土壤质地粗化度在0.27~0.58,平均值为0.44,坝前（0.40） < 坝后（0.45） < 坝中（0.46）;（4）坝地土壤颗粒在0.05~0.002 mm和 < 0.002 mm范围内与土壤颗粒的分形维数成极显著正相关,在2.0~0.05 mm范围内与土壤颗粒的分形维数成极显著负相关;坝地土壤有机碳与粉粒和黏粒呈正相关,与细砂粒和极细沙粒含量呈负相关。     

重庆市宅基地复垦土源土壤分形特征研究——以渝西大足区古龙镇、万古镇为例

选取重庆市大足区农村宅基地复垦项目的复垦土源为研究对象,分别对地基翻耕土(TS)、土墙捣碎土(WS)和外部客土(OS)这三种主要复垦土源的表土(0~20 cm)进行土样采集,并利用体积分形维数研究其土壤颗粒组成、分形特征及相互关系,结果表明:1三种复垦土源中,土壤颗粒组成以粉粒(0.002~0.05 mm)为主,按粉粒体积分数均值排序为WS(86.84%)OS(86.13%)TS(79.36%),黏粒(0~0.002 mm)和砂粒(0.05~2 mm)所占比例较低,按黏粒体积分数均值排序为OS(9.24%)TS(8.97%)WS(7.49%),按砂粒体积分数均值排序为TS(12.69%)WS(5.66%)OS(4.84%);2三种复垦土源的土壤颗粒体积分形维数TS为2.56~2.81、WS为2.65~2.74、OS为2.70~2.78,按其均值排序为OS(2.723)WS(2.696)TS(2.678);3土壤颗粒体积分形维数与黏粒体积分数呈显著的线性正相关,与砂粒体积分数呈线性负相关但线性关系不显著,与粉粒体积分数不存在一致的相关性;4研究区三种复垦土源土壤结构良好,但并未处于最佳状态,黏粒含量较理想值低。     

岷江上游干旱河谷土壤粒径分布分形维数特征

具有分形特征是土壤的客观属性之一,为了探讨分形维数与土壤性质之间的关系与影响因素。运用土壤体积粒径分布分维模型计算了岷江上游干旱河谷不同土地利用方式下土壤表层(0～20cm)161个样品的分形维数,分析了分形维数的空间变化特点及其与粒度组成、有机质和土壤养分之间的相关性。土壤粒径分布分形维数可以作为表征土壤结构和性质的重要指标。结果表明:不同土地利用方式下土壤的粒径分布具有不同的分形特征,分形维数在2.5011～2.7825之间,粉壤土>壤土>砂壤土,耕地大于灌林地。土壤颗粒体积分形维数与黏粒(<0.002mm)和粉粒(0.002～0.05mm)的体积百分含量以及土壤全钾含量呈极显著正相关关系,与砂粒(>0.05mm)的体积百分含量呈极显著负相关关系,而与土壤有机质,全氮,全磷,速效磷和速效钾含量的相关性未达到显著水平。研究结果可以为研究区植被恢复和土地利用开发提供一定的依据。     

黄土丘陵区典型植被土壤剖面的颗粒分形特征

运用分形理论研究陕北安塞五里湾流域5种典型植被0～200 cm土壤剖面土壤颗粒大小分布(particle size distribution,PSD)及其体积分形维数分布特征,并进一步分析土壤PSD的分形维数与土壤有机碳、全氮和含水量的相关性。结果表明:研究区典型植被群落土壤颗粒组成主要为细颗粒(黏粒和粉粒),其中粉粒体积分数占总颗粒的56.82%～71.99%;铁杆蒿草地的细颗粒平均体积分数最大(78.86%),乔木林的最小(65.77%)。5种典型植被群落土壤PSD的体积分形维数介于2.498～2.599,均表现出随着土层深度的增加呈递增趋势;相同土层深度的分形维数呈现出铁杆蒿草地黄芪草地农田灌木林乔木林的趋势,灌木林和农田间差异不显著,其他植被群落间差异显著。典型植被土壤PSD的体积分形维数与黏粒、粉粒的体积分数和含水量呈极显著正相关(P0.01),但与砂粒的体积分数呈极显著负相关(P 0.01),与有机碳含量呈显著负相关(P 0.05)。     

黏粒质量分数对土壤水分蓄持能力影响的模拟试验

通过人工配制不同质地土壤,测定土壤水分特征参数,研究土壤中黏粒质量分数对其水分蓄持能力的定量影响。结果表明：1）黏粒质量分数对土壤水分蓄持能力有较大影响,土壤持水能力随黏粒质量分数增加而递增。2个水分特征曲线模型——Gardner模型及van Genuchten模型中,表征土壤持水能力的参数均随黏粒质量分数增加而增大。2）黏粒质量分数对土壤比水容量有较大影响,试验土壤在任一水吸力水平下的比水容量值均随其黏粒质量分数增大而增大。3）试验土壤饱和含水量、田间持水量分别与黏粒质量分数呈指数、对数正相关,凋萎系数与黏粒质量分数呈指数正相关。4）试验土壤有效水、迟效水含量随黏粒质量分数增加呈先升高后降低趋势,二者与黏粒质量分数均呈抛物线关系,最高点分别出现在黏粒质量分数为35.9%和35.8%处,易效水含量与黏粒质量分数相关性不显著。研究结果可为黄土区土壤水分蓄持机制进一步研究提供一定理论依据。     

土壤持水力与盐含量的相关性

The soil moisture retention capability of Chao soil and coastal saline Chao soil in Shandong and Zhejiang provinces were measured by pressure membrane method. The main factors influencing soil moisture retention capability were studied by the methods of correlation and path analyses. The results indicated that < 0.02mm physical clay and soil salt content were the main factors influencing soil moisture retention capability. At soil suction of 30~50 kPa, the soil salt content would be the dominant factor.     

Sorghum root growth as influenced by soil physical properties

Abstract

Variations in the plant growth media were achieved by combining kaolinite clay (<lμm esd.), silt (2–50μm esd.) and sand (100–250 μm esd.) in various ratios. Peds of different sizes were separated from an Okolona clay soil and used as a growth media. A layer (3 cm thickness) of the sand, silt or clay and their combinations were intercalated between sandy loam soil material in a lucite coated cardboard carton. After 21 days the plants were harvested and analyzed for a number of growth parameters and related to the physical and micromorphology of the central control layer.

Germination and emergence of sorghum seed were delayed in the finer aggregates. An increase in aggregate size increased the root elongation. An examination of thin sections showed that most of the roots in the finer aggregates were grown in interpedal regions whereas in the larger aggregates roots were found in both the intrapedal as well as interpedal regions.

An increase in clay content of the central layer reduced the root growth. Silt also reduced root growth but not to the extent of the clay. Maximum root growth and penetration occurred in the mixture containing about 50 percent sand. Better root growth was observed in a sandy to sandy loam texture than clay to clay loam texture.     

土壤持水特性参数与土壤质地尺度关系的联合多重分形分析

Soil water-retention characteristics at measurement scales are generally different from those at application scales, and there is scale disparity between them and soil physical properties. The relationships between two water-retention parameters, the scaling parameter related to the inverse of the air-entry pressure (αvG, cm-1) and the curve shape factor related to soil pore-size distribution (n) of the van Genuchten water-retention equation, and soil texture (sand, silt, and clay contents) were examined at multiple scales. One hundred twenty-eight undisturbed soil samples were collected from a 640-m transect located in Fuxin, China. Soil water-retention curves were measured and the van Genuchten parameters were obtained by curve fitting. The relationships between the two parameters and soil texture at the observed scale and at multiple scales were evaluated using Pearson correlation and joint multifractal analyses, respectively. The results of Pearson correlation analysis showed that the parameter αvG was significantly correlated with sand, silt, and clay contents at the observed scale. Joint multifractal analyses, however, indicated that the parameter αvG was not correlated with silt and sand contents at multiple scales. The parameter n was positively correlated with clay content at multiple scales. Sand content was significantly correlated with the parameter n at the observed scale but not at multiple scales. Clay contents were strongly correlated to both water-retention parameters because clay content was relatively low in the soil studied, indicating that water retention was dominated by clay content in the field of this study at all scales. These suggested that multiple-scale analyses were necessary to fully grasp the spatial variability of soil water-retention characteristics.     

长期种植苜蓿对中国半干旱地区黄土钾含量和粘土矿物的影响

Alfalfa cropping has been considered an efficient method of increasing soil fertility.Usually nitrogen increase in root nodules is considered to be the major beneficial effect.A 21-year time series (five sampling periods) of alfalfa cultivation plots on a loess soil,initially containing illite and chlorite,in Lanzhou of northwestern China was selected to investigate the relationships among alfalfa cropping,soil potassium (K) content and soil clay minerals.The results indicated that soil K significantly accumulated after cropping,with a peak value at about 15 years,and decreased afterwards.The accumulated K was associated with the K increase in the well-crystallized illite,which was not extracted by the traditional laboratory K extraction methods in assessing bioavailability.The steep decline in soil K content after 15-year cropping was in accord with the observed fertility loss in the alfalfa soil.Plant biomass productivity peaked at near 9 years of culture,whereas soil K and clay minerals continued to increase until cropping for 15 years.This suggested that K increased in the topsoil came from the deep root zone.Thus alfalfa continued to store K in clays even after peak production occurred.Nitrogen did not follow these trends,showing a general decline compared with the native prairie soils that had not been cropped.Therefore,the traditional alfalfa cropping can increase K content in the topsoil.     

Some characteristics of the humus in soil types (part 3) composition groups of humus

In most literature on soil, the term humus has been used as synonymous with soil organic matter, on the other hand, it has been applied to a portion of soil organic matter that has decomposed and has lost the structure of the original matter, from which it has derived. Scheffer and Schachtschabel ¹⁾ defined the humus not synonymously with soil organic matter, but, in a broad sense, as all the dead organic substances which are accumulated on the soil surface as well as in the soil layer, and undergo continually decomposition, alteration, and synthetic reactions. According to them, the composition groups of humus are divided into non-humic and humic, and the latter group is sub-divided into (1) fulvic acid and humo-lignin acid, (2) humic acid, (3) humin, and (4) humus coal. Some natures of these composition groups of humus are shown in Table 1.     

The oxidation of soil organic matter by KBrO for particle size determination

Abstract

The oxidation of soil humus by alkaline KBrO solution at boiling temperature has been shown to be successful even with samples as carbonaceous underwater soils. With these soils treatment with H₂O₂ produces a cohesive foam which prevents further oxidation.     

土柱尺寸对扰动黏壤土饱和导水率的影响

土壤饱和导水率Ks是最基本的水力参数之一,而已知实验室内其值的确定受土柱尺寸的影响.以关中的塿土为研究对象,在室内,采用定水头法,研究5～30 cm内6个不同土柱尺寸对扰动黏壤土Ka测定的影响.结果表明：随着时间的延伸,Ks逐渐减小,其值最初降幅较大,其后趋于稳定,且在5 ～ 30 cm土柱直径范围内,Ks随着土柱直径的变大,扰动黏壤土的Ks递增,二者线性相关,y=0.000 4x＋0.003 7（R2=0.965 1）.研究结果可为测定Ks合理测定时间段及合理尺寸的选择提供参考.