黄土高原土壤颗粒组成及质地分区研究

黄土高原土壤颗粒组成主要以细沙粒和粗粉沙为主 ,此二者是土壤的骨架部分 ,其含量占颗粒总量的 5 0 %以上。该区土壤颗粒组成具有高度的均一性 ,分布具有一定的规律性。按照土壤物理性黏粒含量 ,区内土壤质地可分为松沙土带、紧沙土带、沙壤Ⅰ带、沙壤Ⅱ带、轻壤Ⅰ带等 10个条带     

降雨条件下分层土壤入渗特性

通过室内模拟降雨入渗试验,研究了粘土、壤土和沙土3种土壤不同分层组合方式对土壤入渗特性的影响。结果表明:垂直入渗条件下,分层土壤入渗特征由土壤分层组合方式决定;分层土壤累计入渗量与湿润锋距离呈线性相关关系;分层土壤入渗过程中,当粗沙覆盖细沙且降雨强度大于下层细沙土稳定入渗率时,湿润锋以上剖面可以达到或接近饱和,当细沙覆盖粗沙且降雨强度大于细沙土稳定入渗率时,湿润锋剖面中,除细沙土部分剖面达到饱和,其余粗沙土剖面无法达到饱和,且其饱和程度和下层粗沙土土壤持水能力有关。     

Land‐use effects on the distribution of soil organic carbon within particle‐size fractions of volcanic soils in the Transmexican Volcanic Belt (Mexico)

The aim of this study was to determine the effect of land‐use and forest cover depletion on the distribution of soil organic carbon (SOC) within particle‐size fractions in a volcanic soil. Emphasis was given to the thermal properties of soils. Six representative sites in Mexico were selected in an area dominated by Andosols: a grassland site, four forested sites with different levels of degradation and an agricultural site. Soils were fractionated using ultrasonic energy until complete dispersion was achieved. The particle‐size fractions were coarse sand, fine sand, silt, clay and particulate organic matter from the coarse sand sized fraction (POM‐CS) and fine sand (POM‐FS). Soil organic carbon decreased by 70% after forest conversion to cropland and long‐term cultivation; forest cover loss resulted in a decrease in SOC of up to 60%. The grassland soil contained 45% more SOC than the cropland one. Soil organic carbon was mainly associated with the silt‐size fraction; the most sensitive fractions to land‐use change and forest cover depletion were POM followed by SOC associated with the silt and clay‐sized fractions. Particulate organic matter can be used as an early indicator of SOC loss. The C lost from the clay and silt‐sized fractions was thermally labile; therefore, the SOC stored in the more degraded forest soils was more recalcitrant (thermally resistant). Only the transformation of forest to agricultural land produced a similar loss of thermally stable C associated with the silt‐sized fraction.     

荒漠草原沙漠化对土壤无机碳和有机碳的影响

以空间代替时间的方法,通过对宁夏荒漠草原不同沙漠化阶段土壤有机碳(SOC)和无机碳(SIC)的研究,探讨荒漠草原沙漠化对土壤SIC、SOC及不同粒径组分土壤SIC、SOC分布特征的影响。结果表明:(1)随着荒漠草原沙漠化程度的加剧,0—10cm土层各粒径组分土壤SIC和SOC含量呈下降趋势。半固定沙地和流动沙地各粒径组分土壤SIC含量均表现为黏粉粒无机碳(CSIC)>细砂粒无机碳(FIC)>粗砂粒无机碳(CIC),而SOC含量均表现为细砂粒有机碳(FOC)>粗砂粒有机碳(COC)>黏粉粒有机碳(CSOC)。(2)随着荒漠草原沙漠化程度的加剧,0—30cm土层土壤无机碳(SICD)、土壤有机碳(SOCD)和土壤总碳(STCD)密度均表现为荒漠草原>固定沙地>半固定沙地>流动沙地。固定沙地、半固定沙地和流动沙地土壤SOCD、SICD分别比荒漠草原降低了18.5%,57.7%,60.5%和6.7%,35.9%,47.0%。(3)0—10cm土层各粒径组分土壤SOC和SIC含量、全土SOC含量与0—30cm土层SOC和SIC均呈显著正相关关系,其中土壤粗砂粒有机碳和粗砂粒无机碳对SOC影响最大,而土壤黏粉粒有机碳和黏粉粒无机碳与全土SIC含量呈显著负相关关系。因此,沙漠化防治对于减少荒漠草原土壤碳损失极为重要。     

Restoration Affect Soil Organic Carbon and Nutrients in Different Particle‐size Fractions

Desertification is reversible and can often be prevented by adopting measures to control the causal processes. Desertification has generally decreased in most of the arid and semiarid areas of China during the last few decades because of the restoration of degraded vegetation and soil nutrients. However, little is known about the responses of soil nutrients in different particle‐size fractions to the restoration process and about the importance of this response to the restoration of bulk‐soil nutrients. In this study, we separated bulk‐soil samples in different sieve fractions: coarse‐fine sand (2·0–0·1 mm), very fine sand (0·10–0·05 mm) and silt + clay (<0·05 mm) fractions. Soil organic carbon (SOC), N, P and K contents stored in the silt + clay were greater than the contents of non‐protected nutrients in the coarser fractions. During the restoration of desertified land, the content and stability of bulk‐soil SOC, total N and P and available N, P and K increased with increasing nutrient contents in all fractions. Topsoil nutrients stored in coarse‐fine sand and very fine sand fractions were more sensitive than those stored in the silt + clay fraction to the fixation of mobile sandy lands and vegetation recovery. The changes of bulk‐soil nutrients and their stability were decided by the soil nutrients associated with all particle‐size fractions. Path analysis revealed that SOC and total nutrients in very fine sand and available nutrients in coarse‐fine sand were the key factors driving the soil recovery. These results will help us understand soil recovery mechanisms and evaluate the degree of recovery. Copyright © 2015 John Wiley & Sons, Ltd.     

流动沙丘造林对土壤物理组分有机碳分配的影响

(1)根据中国知网(CNKI)的《中国学术期刊影响因子年报(自然科学与工程技术.2010版)计量指标统计表》,《水土保持通报》综合统计源统计的总被引频次为3 446次(2009年版中为1 358次);复合影响因子为0.955;期刊综合影响因子为0.568(2008年为0.493),在所统计     

耕层土壤颗粒表面的分形维数及其与主要土壤特性的关系

四川 1 6个耕地表层的土壤颗粒表面分形维数D为 2 80 5～ 2 942 ,其中砂土2 82 1、壤土 2 870、粘壤土 2 91 6和粘土 2 939。统计分析表明D分别与国际制粗砂粒和细砂粒含量呈极显著负相关 ,与粉粒和粘粒含量呈极显著正相关 ;它与粉粒、粘粒和有机质含量的偏相关关系达极显著水平 ,与容重的偏相关关系达显著水平     

Influence of fertilization and organic amendments on organic‐carbon fractions in Heilu soil on the loess plateau of China

The influence of fertilization on organic‐carbon fractions separated by density and particle size in Heilu soil (Calcic Kastanozems, FAO) was investigated in a 20‐year (1979–1999) long‐term experiment on the Loess Plateau of China. Compared to an unfertilized treatment, N application alone did not increase total organic carbon (TOC) and its fractions of density and particle size. However, the treatment of N + P fertilization significantly increased salty‐solution–soluble organic carbon (SSOC), microbial biomass C (MB‐C), and organic C associated with fine silt. When manure was applied alone and in combination with N and P fertilizer, the light fraction of organic C (LFOC), SSOC, and MB‐C were increased significantly, and the TOC was as high as that of a native Heilu soil. Organic C associated with different particle‐size fractions was also increased significantly, and the allocation of C among the fractions was altered: the proportions of C in sand (>50 μm), coarse‐silt (20–50 μm), and fine‐clay (<0.2 μm) fractions were increased whereas fine‐silt (2–20 μm) and coarse‐clay (0.2–2 μm) fractions were decreased. It is concluded that N fertilizer alone is not capable of restoring organic‐matter content in the Heilu soils of the Loess Plateau and that C‐containing material like manure and straw is necessary to produce significant increase in soil organic carbon in these soils.     

不同雨强和覆盖度条件下崩积体侵蚀泥沙颗粒特征

崩积体坡面侵蚀泥沙颗粒的变化特征及过程研究是揭示崩岗崩积体侵蚀机理的关键。基于崩岗崩积体土质疏松、粗颗粒含量高、极易被侵蚀的特性,通过室内人工模拟降雨试验,研究30°坡度条件下,不同覆盖度(0,25%,50%,75%,100%)和雨强(60,90,120 mm h-1)组合坡面侵蚀泥沙颗粒特征。结果表明:降雨过程中,坡面径流优先搬运的是粒径较小的泥沙颗粒;侵蚀泥沙中粗颗粒(砾石和粗砂)泥沙含量随着覆盖度的增加呈先减小后增大趋势;侵蚀泥沙颗粒的平均重量直径(MWD)与覆盖度之间呈极显著相关;当覆盖度达到50%时,坡面粗颗粒泥沙的减少效果最明显,75%覆盖度坡面较容易发生崩塌。以上结果表明,侵蚀泥沙颗粒的大小与坡面秸秆覆盖度的高低密切相关,50%左右的秸秆覆盖度可以达到较好的减沙效果。     

Effect of Continuous Rice–Wheat Rotation on Soil Properties from Four Agro‐ecosystems of Indian Punjab

In Indian Punjab, rice–wheat is a dominant cropping system in four agro‐ecosystems, namely undulating subregion (zone 1), Piedmont alluvial plains (zone 2), central alluvial plains (zone 3), and southwestern alluvial plains (zone 4), varying in rainfall and temperature. Static and temporal variabilities in soil physical and chemical properties prevail because of alluvial parent material, management/tillage operations, and duration of rice–wheat rotation. A detailed survey was undertaken to study the long‐term effect of rice–wheat rotation on soil physical (soil separates, bulk density, modulus of rupture, saturated and unsaturated hydraulic conductivities, soil water content, and suction relations) and chemical (organic carbon, pH, electrical conductivity) properties of different textured soils (sandy clay loam, loam, clay loam, and silty clay loam) in these four zones of Punjab. Soil samples (of 0‐ to 30‐cm depth) from 45 sites were collected during 2006 and were analyzed for physical and chemical properties. The results showed that sand content and pH increased whereas silt and organic carbon decreased significantly from zones 1 to 4. Compared to other textures, significantly greater organic carbon, modulus of rupture, and pH in silty clay loam; greater bulk density in clay loam, and greater saturated hydraulic conductivity in sandy clay loam were observed. Irrespective of zone and soil texture, in the subsurface soil, there was a hard pan at 15–22.5 cm deep, which had high soil bulk density, modulus of rupture, more silt and clay contents (by 3–5%) and less organic carbon and hydraulic conductivity than the surface (0–15 cm) layer. These properties deteriorated with fineness of the soil texture and less organic carbon content. Continuous rice–wheat cropping had a deleterious effect on many soil properties. Many of these soils would benefit from the addition of organic matter, and crop yields may also be affected by the distinct hardpan that exists between 15 and 22.5 cm deep.     

荒漠草原区固沙人工柠条林生长过程中土壤性质演变规律

开展荒漠草原区固沙人工林生长过程中土壤性质研究,对于沙化草地土壤质量演变规律分析和人工林有效管理均具有重要的指导价值。通过野外调查取样和室内分析,测定6,15,24,36年柠条林地土壤机械组成、土壤养分、pH和电导率以及土壤水分与温度等指标变化,分析荒漠草原区种植固沙柠条人工林对土壤性质的影响。结果表明,从6年到15年柠条林地,土壤粗沙粒和细沙粒成分显著升高(P<0.05),但从24年柠条林地开始土壤粗沙粒和细沙粒含量显著下降(P<0.05),土壤极细沙粒和粘粉粒含量开始显著增加(P<0.05)。从24年柠条林地开始,土壤有机碳、全N和全P含量显著升高,土壤电导率和水分含量呈现增加趋势,而土壤pH和温度显著下降;而且土壤全N积累量高于土壤有机碳,土壤C/N随着柠条林龄的增加呈逐渐下降趋势。在荒漠草原区,人工柠条林发育生长有利于土壤肥力的提高和土壤环境的改善,而且需要经历一个较长的发育过程。     

不同质地裸土潜水蒸发估算方法

为定量分析裸土区潜水蒸发与水面蒸发的关系,该文通过自制试验装置,对粗砂、细砂、壤土和砂土4种质地土壤开展了二者之间相关关系的试验研究。结果表明:相同条件下,不同土壤质地的潜水蒸发与水面蒸发量不相等,二者之间存在一个折算系数,除粗砂外,细砂、壤土和砂土的折算系数均大于1,二者表现出较强的线性相关性,基于该相关性,建立了数学关系表达式。与实测数据的对比分析表明,若用水面蒸发强度代替潜水蒸发,相对误差达-17.79%,这将不可避免地影响到潜水蒸发计算结果的精度;而通过二者相关关系建立的折算系数法,可将相对误差减小至-1.94%,有效提高了潜水蒸发计算结果的可靠度。     

中亚热带天然次生常绿阔叶林水文生态效应研究

以科尔沁沙地为研究区域,测定分析了流动沙丘栽植22a的樟子松林和24a的小叶锦鸡儿灌木林对土壤物理组分有机碳分配的影响。结果表明,(1)流动沙丘造林后土壤粗砂、极细砂和黏粉粒含量增加,细砂含量减少,土壤容重降低。(2)流动沙丘栽植樟子松和小叶锦鸡儿林后,全土有机碳储量分别增加357和514g/m2,增幅为729%和1 050%。(3)流动沙丘、樟子松和小叶锦鸡儿林地土壤轻组质量分别为0.08%,1.24%和1.14%,轻组碳储量分别为9.7,182.5和185.9g/m2,占其全土碳储量的比例依次为20%,45%和33%。(4)土壤有机碳在不同粒级土壤中的分配状况为,流动沙丘:细砂>粗砂>极细砂>黏粉粒;樟子松林地:粗砂>细砂>极细砂>黏粉粒;小叶锦鸡儿林地:粗砂>极细砂>细砂>黏粉粒。(5)流动沙丘造林后,轻组有机碳储量的变化比总有机碳的变化更为明显,粗砂组分中非保护性有机质的增加是引起土壤总有机碳变化的主要原因。     

长期施肥下红壤有机碳及其颗粒组分对不同施肥模式的响应

采集不同施肥24年的红壤,采用物理分组的方法,观测了长期不同施肥下红壤有机碳及其组分变化,并结合历史资料分析了不同施肥模式对红壤有机碳及其颗粒组分的影响。结果表明,化肥配施有机肥（NPKM）处理下红壤总有机碳含量（10.33 g/kg）,砂粒（2000～53 m）、细粉粒（5～2 m）和粘粒（2 m）组分中的有机碳含量显著高于其他处理。与不施肥（CK）相比,施用化肥（NPK、2NPK）和有机肥（NPKM、M）显著地提高了红壤有机碳在砂粒和粘粒中的分配比例,而降低了其在粗粉粒和细粉粒的分配比例。施化肥（NPK、2NPK）、单施有机肥（M）、化肥配施有机肥（NPKM）处理,土壤有机碳的平均固定速率分别为0.05 t/(hm2?a)、0.18 t/(hm2?a)、0.26 t/(hm2?a)。相关分析表明,不同施肥模式下红壤有机碳的固定量与碳投入量之间存在着极显著的线性相关关系（R2=0.909, P0.01）,土壤的固碳效率为8.1%;随着碳投入的增加,粗粉粒和细粉粒有机碳储量逐渐下降,而砂粒和粘粒中碳储量逐渐增加,并且粘粒增加速率要远远高于砂粒。以上结果说明,红壤中有机碳还没有达到饱和,还具有一定的固碳潜力,增加的有机碳主要固持在粘粒中,粘粒是红壤有机碳的主要固持组分。     

Soil structural indices' dependence on irrigation water quality and their association with chromophoric components in dissolved organic matter

Irrigation with treated wastewater (TWW) may affect soil structure and stability and the characteristics of dissolved organic matter (DOM) of the soil solution. The objectives of our study were (i) to evaluate the impact of TWW irrigation, as compared with fresh water (FW) irrigation, on aggregate stability and saturated hydraulic conductivity (indices of soil structure stability) and (ii) to determine whether these indices can be associated with the chromophoric indicators of water‐extractable DOM in TWW‐ and FW‐irrigated soils. We studied aggregate stability and soil hydraulic conductivity (HC) of four different soil types irrigated with either TWW (for at least 5 years) or FW. The results were linked to earlier published data on the concentration scores of fluorescent chromophoric DOM components (obtained from excitation‐emission matrices of flouorescence coupled with parallel factor analysis), dissolved organic carbon (DOC) concentration and absorbance at 254 nm (Abs254). These were all obtained from water extracts of the same soils as those used in the current study. Irrigation with TWW decreased aggregate stability, in comparison to irrigation with FW, in the sandy clay and clay soils, while in the loamy sand TWW increased aggregate stability. The apparent steady state HCs in the TWW‐irrigated samples in the loamy sand, sandy clay and clay soils were similar to, or significantly less than, those obtained in the FW‐irrigated samples. In the sandy loam the opposite trend was noted. Results of principal component and classification analyses showed that the aggregate stability indices were directly associated with soil organic matter and DOM attributes in the coarse‐textured soils, while in the fine‐textured soils inverse associations were noted. Only in the fine‐textured soils were the HC attributes associated (directly) with some of the DOM characteristics. Our results suggest that structural indices of fine‐textured soils are more sensitive than those of coarse‐textured soils to the composition of water extractable DOM.     

长江三角洲地区土壤环境质量与修复研究Ⅲ.农业土壤不同粒径组分中菲和苯并[a]芘的分配特征

持久性有机污染物在土壤环境中的行为在很大程度上取决于土壤有机质对它们的吸附作用，粒径分组通常用来区分具有不同有机质组成和周转速率的有机质库。本研究利用菲（Phe）和苯并[a]芘（Bap）作为多环芳烃（PAHs）低、高环组分的代表物质，研究了它们在污染区9个农业表层土壤（0～20cm）不同粒径组分（粘粒、细粉粒、粗粉粒、细砂粒和粗砂粒）中的分配特征。结果表明，Phe在不同粒径组分中的平均含量大小顺序为粗砂粒〉细砂粒〉粘粒〉细粉粒〉粗粉粒，Bap为粗砂粒〉细砂粒〉粗粉粒〉细粉粒〉粘粒。Phe和BaP在不同粒径组分中的含量与粒径组分中有机质的含量均呈显著性正相关（P〈0．01）。不同粒径组分中的有机质对Phe富集能力的大小顺序为粗粉粒〉细粉粒〉细砂粒〉粗砂粒〉粘粒，对Bap的富集能力为粗粉粒〉粗砂粒〉细粉粒〉细砂粒〉粘粒。     

长期施肥土壤不同粒径颗粒的固碳效率

【目的】探讨不同施肥措施土壤有机碳在不同粒级颗粒中的分配及变化情况,可揭示各级颗粒中有机碳与外源有机碳输入之间的定量关系。【方法】依托南方红壤连续20年长期定位施肥试验,依据外源有机碳累积输入梯度选择不施肥(CK)、氮磷钾化肥配施(NPK)、氮磷钾化肥与秸秆配施(NPKS)、轮作条件下氮磷钾化肥与有机肥配施(NPKMR)、氮磷钾化肥与有机肥配施(NPKM)、单施有机肥(M)、增量氮磷钾化肥与增量有机肥配施(1.5NPKM)7个处理,并采用物理分组方法将土壤颗粒分为砂粒(53~2000μm)、粗粉粒(5~53μm)、细粉粒(2~5μm)和粘粒(2μm)4个组分。【结果】与不施肥相比,长期施肥均能显著增加土壤总有机碳及各级颗粒中的有机碳的储量,其中以施用有机肥的效果最明显。不同施肥处理各级颗粒中以粘粒的有机碳储量最高,平均为16.26 t/hm~2。施用有机肥和秸秆还田均能显著增加砂粒中有机碳的分配比例,降低粘粒有机碳的分配比例而对粗粉粒和细粉粒无显著影响。土壤砂粒所占的质量百分比及其与粗粉粒、细粉粒和粘粒的比值均与粗粉粒、细粉粒和粘粒组分中有机碳的浓度呈显著正相关关系表明小颗粒(粗粉粒、细粉粒和粘粒)中有机碳的固持和富集促进了大颗粒(砂粒)的形成与稳定。各级颗粒之间,施用有机肥处理的土壤粘粒组分的固碳速率最快,为0.29~0.52 t/(hm~2·a),其次为砂粒[0.30~0.40 t/(hm~2·a)]而粗粉粒和细粉粒的固碳速率基本相当为0.09~0.16t/(hm~2·a)。分析结果还表明土壤总有机碳及各级颗粒有机碳与外源有机碳的输入呈显著正线性相关关系,其中土壤总固碳效率为10.57%而各级颗粒之间,粘粒和砂粒组分的固碳效率(4.25%和3.60%)相当于粗粉粒和细粉粒(1.73%和1.00%)的2倍以上。【结论】南方红壤各级颗粒中有机碳均没有出现饱和现象,有机碳主要在土壤粘粒和砂粒组分中富集,细颗粒中有机碳的富集会促进大粒径土壤颗粒的形成而粘粒是土壤固碳效率最重要的矿物颗粒组成部分。表明长期配施有机肥不仅是红壤有机质提升的重要措施,也是改善红壤结构的重要途径。     

封育对沙质草甸土壤理化性状的影响

对不同封育年限沙质草甸自然恢复过程中土壤理化性状进行了测定和分析。结果表明,封育对沙质草甸土壤理化性状的改善有明显的促进作用。随封育时间的延长,土壤颗粒组成发生明显变化,>0.25 mm的中粗沙成分明显减少,0.05~0.25 mm的细沙成分明显增加,而且表层粘粉粒含量也明显增加;各取样层次土壤有机碳和全氮含量在不同封育状况下形成显著差异,并随封育时间的延长而显著提高;随封育时间的延长,土壤容重逐渐减小,土壤硬度逐渐增大。相关分析表明,土壤有机碳含量、全氮含量与0.25~0.05 mm的细沙含量及<0.05mm的粘粉粒含量表现出显著的正相关关系,而与>0.25 mm的中粗沙含量呈显著的负相关关系。     

不同耕作年限对耕地土壤质地和有机碳垂直分布的影响

研究不同耕作年限新疆玛纳斯县耕地的土壤颗粒组成、不同土壤颗粒有机碳含量变化特征以及二者的相关关系。选取4种不同耕作年限耕地为研究对象,采集土层0—300cm的土壤样品,采用激光法获取土壤颗粒组成,探讨长期耕作对土壤颗粒组成以及不同土壤颗粒有机碳含量的影响。结果表明:研究区域土壤剖面颗粒组成主要以砂粒(约占21.0%~35.4%)和粉粒(约占46.0%~50.0%)为主,砂粒含量下部明显高于上部,而粉粒含量中部明显低于上部和下部;随着耕作年限增加,剖面上部(0—60cm)土壤质地由粉砂质粘壤土转变为壤土,60—100cm土层土壤质地由粉砂壤土转化为壤土,中部和下部(100—300cm)土壤质地变化较小;土壤有机碳含量随着开垦年限的增加呈现先增加后降低的趋势,增幅达到71.8%,耕作年限越长有机碳增加值趋于平缓;土壤粉粒、砂粒与有机碳含量相关性不高,而粘粒与有机碳含量呈现显著正相关关系,未耕作(Y0)、耕作20a(Y20)、耕作30a(Y30)和耕作50a(Y50)的土壤粘粒与有机碳含量的相关系数(r)范围在0.67*~0.75*,均达到显著性差异(P0.05)。耕作对土壤颗粒组成以及有机碳含量产生一定影响,科学合理的耕作能够提高土壤的固碳能力,对土壤碳循环系统起到良好的保护作用。     

渭北旱塬区不同坡向土地利用类型对土壤性质的影响

为了研究不同坡向土地利用类型对土壤性质的影响,以渭北旱塬区5种土地利用类型(不同坡向)为研究对象,系统分析该区不同坡向土地利用类型剖面土壤物理、化学和生物性质的差异。结果表明:(1)除土壤pH和土壤颗粒组成外,5种土地利用类型土壤含水量、总孔隙度、有机质、全氮、微生物量碳和氮含量总体随土层加深呈下降趋势,土壤容重则相反。(2)0-30cm土层,阳坡农用地土壤含水量、黏粒含量和pH最高,粉粒和全氮含量最低;人工草地砂粒和全氮含量最高,黏粒含量最低;人工林地土壤总孔隙度、土壤有机质、微生物量碳和氮含量最高,土壤含水量、土壤容重和pH最低;天然草地土壤容重和粉粒含量最高,总孔隙度和砂粒含量最低;退耕地有机质、微生物量碳和氮含量最低。阴坡农用地土壤含水量、粉粒含量和pH最高,黏粒和全氮含量最低;人工草地土壤容重、黏粒和微生物量氮含量最高,土壤总孔隙度、粉粒、砂粒和有机质含量最低;人工林地有机质含量和微生物量碳含量最高;天然草地土壤总孔隙度、砂粒和全氮含量最高,土壤容重和pH最低;退耕地土壤含水量、微生物量碳和氮含量最低。(3)5种土地利用类型中,土壤容重、细黏粒、粗黏粒、细粉粒、粗砂粒、土壤pH和有机质(退耕地除外)表现为阳坡阴坡,土壤含水量(退耕地和农用地除外)、总孔隙度、粗粉粒、细砂粒、土壤质地粗化度、全氮(人工草地除外)、土壤微生物量碳和氮含量则为阴坡阳坡。