不同辐射对土壤湿度长程相关性的影响——以黑河流域阿柔超级站为例（英文）

Analyses of the soil moisture evolution trend and the influence of different types of radiation on soil moisture are of great significance to the simulation and prediction of soil moisture.In this paper,soil moisture(2–60 cm) and various radiation data from 2014–2015 at the A’rou superstation were selected.The radiation data include the net radiation(NR),shortwave and longwave radiation(SR and LR).Using adaptive fractal analysis(AFA),the long-range correlation(LRC) of soil moisture and long-range cross correlation(LRCC) between moisture and three types of radiation were analyzed at different timescales and soil depths.The results show that:(1) Persistence of soil moisture and consistency between soil moisture and radiation mutate at 18-d and 6-d timescales,respectively.The timescale variation of soil moisture persistence is mainly related to the influence process of radiation on soil moisture;(2) Both the soil moisture persistence and soil moisture-radiation consistency vary substantially with soil depth.The soil depth variation of soil moisture persistence is related to the influence intensity of radiation;(3) From 2–6 day timescales,LR displays the strongest influence on soil moisture at depths of 2–10 cm through negative feedback of radiation on the soil temperature.The influence intensity decreases with depth from 2–15 cm.Therefore,the soil moisture persistence is weak and increases with depth from 2–15 cm;and(4) At more than 6 day timescales,SR and NR display a stronger influence on the soil moisture persistence at depths of 2–40 cm through positive feedback of radiation on the soil temperature,especially at depths of 2–10 cm.This influence also weakens with depth.The soil moisture persistence at depths of 2–10 cm is the weakest and increases with depth from 2–40 cm.The research results are instructive for determining timescales and soil depths related to soil water in hydrological models.     

The enrichments of organic matter and total nitrogen in sediment as affected by relavant factors

1IntroductionResearch results have shown that overland flow firstly removes fine particles of topsoil because the fine soil particles can be easily transported in runoff (Burwell etal., 1975; Alberts etal., 1983; Gregory 1991). The component differences of fine soil particles between the sediment resulting from soil erosion and the original soil were studied (Meyer etal., 1975; Loch etal., 1982; Cogo, 1983). Sediment was normally composed of soil aggregates and particles of different diamet…     

Effects of freeze–thaw cycles on soil N_2O concentration and flux in the permafrost regions of the Qinghai–Tibetan Plateau

Nitrous oxide(N_2 O) is one of the most important greenhouse gases in the atmosphere; freeze–thaw cycles(FTCs) might strongly influence the emission of soil N_2 O on the Qinghai–Tibetan Plateau(QTP). However, there is a lack of in situ research on the characteristics of soil N_2 O concentration and flux in response to variations in soil properties caused by FTCs.Here, we report the effect of FTC-induced changes in soil properties on the soil N_2 O concentration and flux in the permafrost region of the higher reaches of the Shule River Basin on the northeastern margin of the QTP. We measured chemical properties of the topsoil, activities of soil microorganisms, and air temperature(AT), as well as soil N_2 O concentration and flux, over an annual cycle from July 31, 2011, to July 30, 2012. The results showed that soil N_2 O concentration was significantly affected by soil temperature(ST), soil moisture(SM), soil salinity(SS), soil polyphenol oxidase(SPO), soil alkaline phosphatase(SAP), and soil culturable actinomycetes(SCA), ranked as SMSSSTSPOSAPSCA, whereas ST significantly increased soil N_2 O flux, compared with SS. Overall, our study indicated that the soil N_2 O concentration and flux in permafrost zone FTCs were strongly affected by soil properties, especially soil moisture, soil salinity, and soil temperature.     

Effects of sawdust soil amendment on the soil, growth and yield of Solanum esculentum Linn. in waste engine oil-polluted soil

This study investigated the effects of sawdust as a soil amendment on certain growth parameters of Solanum esculentum Linn. grown in soil polluted with various concentrations of waste engine oil, and changes in the physicochemical properties of the soil. The purpose was to assess the soil remediation potentials of sawdust in waste engine oil-polluted soil. The experiment was divided into three regimes: control(air-dried soil without waste engine oil and with clean sawdust), polluted(waste engine oil-contaminated soil), and amended(oil-polluted soil amended with sawdust). Enough 3-kg soil samples were sieved and air-dried to prepare five treatment levels of waste engine oil-contaminated soil(30 m L, 1%; 60 m L, 2%; 90 m L, 3%; 120 m L, 4%; and 150 m L, 5%), as well as five additional treatment levels(the same amounts of oil contamination) in soil amended with sawdust. The treatment levels were replicated five times in a completely randomized design. A nursery bed was planted with a hybrid tomato variety(Roma V F) obtained from National Horticultural Research Institute(NIHORT) in Ibadan, Nigeria. During the maturation period, the growth parameters such as plant height, number of leaves, and number of branches per plant were determined and then the harvested plants were oven dried at 70 °C for 48 hours to determine their dry weights. The effects of the sawdust amendment on the soil were assessed by determining the soil p H(glass electrode p H meter), total nitrogen(Kjeldahl method), total phosphorus(Bray-1 solution), and potassium(on the leacheate by a flame photometer). Chromium, lead, and cadmium contents were determined using an atomic absorption spectrophotometer. Analysis of variance and a Duncan multiple-range test were employed to test significant differences in the soil properties of the three regimes. The growth performance of Solanum esculentum Linn. in the amended regime(soil with sawdust) at the 150-m L waste engine oil-contamination level was significantly higher than in the polluted regime(soil without sawdust). After plant harvest, the p H of the soil was shown to be clearly affected by the addition of waste engine oil. The control soil(air-dried only, no sawdust, no oil) had the highest p H value, 6.60, which was significantly different from the p H values at other levels of waste engine oil contamination. However, when amended with sawdust, the control soil had a significantly lower p H value than the unamended control soil. This study further demonstrates that sawdust has the potential of amending waste engine oil-contaminated soil for increasing tomato growth performance because it is capable of increasing the soil nutrient content and reducing the soil total hydrocarbon content.     

Study on the impact of vegetation degeneration to hydrology characteristic of the Alpine soil

Alpine soil infiltration process is an important part of the hydrological characteristics of alpine soil in permafrost. This research is carried out in the source region of the Yellow River where the permafrost is severely degraded, using various methods for choosing typical sample areas, and to experiment, study and simulate the soil water curve, soil saturated hydraulic conductivity, soil infiltration and soil moisture under different characteristics of degraded vegetation. The results indicate that the empirical equation θ=AS^−B, proposed by Gradner and Visser, is very reliable in simulating the soil moisture curve; soil saturated hydraulic conductivity and soil infiltration are significantly different under different vegetation coverage: in the soil surface within 0–10 cm, the saturated hydraulic conductivity and infiltration intensity of Black Beach are the strongest; respectively, in soil layers below 30 cm, vegetation has almost no impacts on the saturated hydraulic conductivity, infiltration intensity and soil moisture content. Significant reduction of soil moisture occurs in soil surfaces with degraded vegetation. The more serious the degradation, the more water loss, and it can be up to 38.6% in the worst situation. Soil moisture of developed vegetation root systems in depths within 10–20 cm has the greatest impact on the soil environment, and the loss of moisture induces difficulty in the restoration of degraded meadows. Through a comparative study, the Kostiakov infiltration equation f(t) = at^−b is more applicable for studies on the process of soil moisture infiltration of the alpine meadow in the source region of the Yellow River.     

Microbial production of CO2 in red soil in Stone Forest National Park

Lunan stone forest is a kind of typical karst in China,Which is mainly developed under red soil.In the winter of 1999,three study sites were chosen in stone forest national park according to vegetation cover,geomporphologic location and soil types,CO2 concentration was measured with Gastec punp at different dephts of soil (20,40,60cm) and at the same time soil samples were gatered and soil properties such as soil moisure,pH,soil organic content were analyzed and the total nmuber of viable microbes were counted in laboratory,In the study,dependent variable was chosen as the mean soil log(PCO2),and soil properties were chosen as the independent variables.Multiple stepwise regression analysis showed that the totla amount of microbes and soil moisture are the best indicators of the CO2 production,With the equation LOG(PCO2)=-0.039(TNM)-0.056 (Mo) 1.215 accounting for 86% of the variation of the soil CO2 concentration,where TNM is the total number of microbes in teh soil and Mo is the moisture of soil sample.     

内蒙古锡林河流域羊草草原植物生长旺季呼吸的影响因素分析和区分

Based on the static opaque chamber method,the respiration rates of soil microbial respiration,soil respiration,and ecosystem respiration were measured through continuous in-situ experiments during rapid growth season in semiarid Leymus chinensis steppe in the Xilin River Basin of Inner Mongolia,China. Soil temperature and moisture were the main factor affecting respiration rates. Soil temperature can explain most CO2 efflux variations (R2=0.376-0.655) excluding data of low soil water conditions. Soil moisture can also effectively explain most of the variations of soil and ecosystem respiration (R2=0.314-0.583),but it can not explain much of the variation of microbial respiration (R2=0.063). Low soil water content (≤5%) inhibited CO2 efflux though the soil temperature was high. Rewetting the soil after a long drought resulted in substantial increases in CO2 flux at high temperature. Bi-variable models based on soil temperature at 5 cm depth and soil moisture at 0-10 cm depth can explain about 70% of the variations of CO2 effluxes. The contribution of soil respiration to ecosystem respiration averaged 59.4%,ranging from 47.3% to 72.4%; the contribution of root respiration to soil respiration averaged 20.5%,ranging from 11.7% to 51.7%. The contribution of soil to ecosystem respiration was a little overestimated and root to soil respiration little underestimated because of the increased soil water content that occurred as a result of plant removal.     

Geostatistical analysis of variations in soil salinity in a typical irrigation area in Xinjiang, northwest China

Characterizing spatial and temporal variability of soil salinity is tremendously important for a variety of agronomic and environmental concerns in arid irrigation areas. This paper reviews the characteristics and spatial and temporal variations of soil salinization in the Ili River Irrigation Area by applying a geostatistical approach. Results showed that:(1) the soil salinity varied widely, with maximum value of 28.10 g/kg and minimum value of 0.10 g/kg, and was distributed mainly at the surface soil layer. Anions were mainly SO_4~(2-) and Cl~-, while cations were mainly Na~+ and Ca~(2+);(2) the abundance of salinity of the root zone soil layer for different land use types was in the following order: grassland cropland forestland. The abundance of salinity of root zone soil layers for different periods was in the following order: March June September;(3) the spherical model was the most suitable variogram model to describe the salinity of the 0–3 cm and 3–20 cm soil layers in March and June, and the 3–20 cm soil layer in September, while the exponential model was the most suitable variogram model to describe the salinity of the 0–3 cm soil layer in September. Relatively strong spatial and temporal structure existed for soil salinity due to lower nugget effects; and(4) the maps of kriged soil salinity showed that higher soil salinity was distributed in the central parts of the study area and lower soil salinity was distributed in the marginal parts. Soil salinity tended to increase from the marginal parts to the central parts across the study area. Applying the kriging method is very helpful in detecting the problematic areas and is a good tool for soil resources management. Managing efforts on the appropriate use of soil and water resources in such areas is very important for sustainable agriculture, and more attention should be paid to these areas to prevent future problems.     

Impact of human activities on soil respiration: A review

Soil respiration is one of the primary fluxes of carbon between soils and the atmosphere.It is produced by rhizosphere respiration and soil microbial respiration.Soil respiration is not only affected by environmental factors,but also changes with the hu-man-induced disturbances of ecosystems.Land-use,the measures of land management,the pollution of soil,and so on can affect soil respiration and change the soil efflux.According to some research,the authors summed up their impacts on soil respiration by human activities through land-use changes and land-management measures among agroecosystem,grassland ecosystem,and for-est ecosystem.The results showed that (1) when adding fertilization to farmland,the soil respiration will increase;(2) fenced land can decrease soil respiration,while soil respiration in the grazed land at a grassland ecosystem will decline with the increasing of grazing intensity;(3) with grassland fertilization;farmland cultivation;fire,fertilization,and cutting of forest,conflicting results were found in the changes of soil respiration.Perhaps plant species,site condition,and measurement season can lead to different results on soil respiration.     

Relationship between Distribution of Soil Seed Bank and Environmental Factors in Lakeshore Wetlands,Taihu Lake,China

In order to analyze the spatial pattern of soil seed bank and its relation to environmental factors in lakeshore wetlands in Taihu Lake region,4 different sites in the lakeshore wetlands(A site at fleabane zone;B site at bush and grass zone;C site at crop zone;D site at natural reed zone) were established.Seed germination experiment was carried out and ordination technique(canonical correspondence analysis) was used in the study area.The results showed that totally 21 species(7 families) germinated from the seed banks.The seed bank density of 4 sites(A,B,C,and D sites)was(3 120 ± 1 581) ind./m2,(14 800 ± 5 049) ind./m2,(4 080 ± 1 760) ind./m2and(3 600 ± 2 882) ind./m2,respectively.With the deepening of the soil,the soil seed bank density of the vertical distribution showed a downward trend.Soil p H,soil moisture content,electric conductance,vegetation cover and soil bulk density all influenced the distribution of soil seed banks.Overall,soil moisture content had the greatest impact on the soil seed bank in lakeshore wetlands in Taihu Lake region.     

The impact of land use on soil properties in a karst agricultural region of Southwest China:a case study of Xiaojiang watershed, Yunnan

Supported by RS and GIS, the land use change from 1982 to 2003 were analyzed and the impacts of land use changes on pH value, organic matter, total N, total P, total K, available N, available P, and available K in soil of Xiaojiang watershed, a typical karst agricultural region of Yunnan Province, Southwest China were assessed. The following aspects are concluded. (1) The total land use converted during the past 20 years in Xiaojiang watershed covers an area of 610.12 km2, of which 134.29 km2 of forestland was converted into cultivated land, and 210 km2 of unused land was converted into cultivated land. (2) The rapid growth of population and the economic development were the main driving forces of land use change. (3) With the change in land use, the soil properties have been changed significantly. The pH, organic matter, total N, total P, total K, available N, available P and available K in soil in 1982 were 6.3, 38.02 g kg-1, 1.86 g kg-1, 1.63 g kg-1, 10.94 g kg-1, 114.42 g kg-1, 11.65 mg kg-1 and 64.69 mg kg-1g, respectively; and those in 2003 were 6.73, 25.26 g kg-1, 1.41 g kg-1, 0.99 g kg-1, 12.6 g kg-1, 113.43 mg kg-1, 11.11 mg kg-1 and 151.59 mg kg-1, respectively. Pared samples t-test of the tested indices of soil properties indicate that those indices have changed significantly during the last 20 years. But the soil properties changed differently, due to the differences in land use change. (4) Also, with the change in land use and management measures of soil, the modifications in soil properties which developed from carbonate rocks were more sensitive than those in the soil developed from sandstone.     

典型岩溶农业区土地利用变化对土壤性质的影响——以云南小江流域为例

以云南省泸西县小江典型岩溶农业流域为研究单元,分析了流域1982~2003年土地利用的变化及定点对比分析不同土地利用变化下土壤性质的变化,结果表明：小江流域1982~2003年610.12 km²的土地利用发生了变化,变化类型主要是由未利用地向耕地、林地以及林地向耕地的转变,人口的增加、社会、经济的发展和理智的生态决策是流域土地利用变化的主要原因;林地、未利用地转变为耕地后,土壤有机质、全氮、全磷含量大幅度降低,土壤pH明显升高,全钾、速效钾含量增加;短时间的退耕还林,土壤性质变化不明显;耕地转变为园地后,土壤性质得到明显的改善;而耕地转变为石漠化土地后,土壤性质发生显著变化,土壤有机质、全氮、全磷、碱解氮、速效磷含量大幅度降低,土壤pH明显升高;同时,研究表明土地利用变化对碳酸盐岩地层中发育的土壤性质的影响强度明显大于砂页岩地层中发育的土壤,表明碳酸盐岩地层中发育的土壤十分脆弱。     

临泽绿洲农田土壤肥力质量时空变化特征

干旱区荒漠绿洲农田土壤肥力质量的研究是绿洲功能和生产力评价的一个重要方面。通过1982年和2008年临泽绿洲农田287个样点耕层土壤（0~20 cm）有机质、全氮、碱解氮、速效磷和速效钾数据,利用地理信息系统和地统计学分析手段,研究了26 a来土壤肥力质量的变化特征。结果表明,研究区土壤有机质、全氮、碱解氮、速效磷和速效钾的含量为13.8 g·kg-1、0.81 g·kg-1、64.4 mg·kg-1、32.3 mg·kg-1、199 mg·kg-1,较1982年分别提高了13.5%、7.8％、9.3%、225.6％和26.8％;土壤肥力指标的变异性较大,变异系数均大于25%;模糊数学综合评价方法适合研究区土壤肥力质量评价,土壤肥力质量综合值由1982年的强度空间变异发展为中等空间变异;根据全国农业地力等级划分标准,研究区土壤属于4、5、6、7级,较1982年的土壤肥力呈上升趋势。土壤肥力综合值分布图可以为该区域土壤资源的合理利用提供理论依据。     

典型岩溶农业区地下水质与土地利用变化分析--以云南小江流域为例

以云南省泸西县小江典型岩溶农业流域为研究单元,利用1982和2004的地下水质数据及1982的航片和2004年的TM影像,在GIS支持下,研究其20年来的地下水质的时空变化及原因。结果表明：20年来流域地下水质在时间、空间分布上均发生较大的变化;流域耕地扩张和大量化肥、农药使用带来的非点源污染,造成地下水中的NH₄⁺、SO₄^2-、NO₃^-、NO₂^-、Cl^- 离子含量及pH值、总硬度、总碱度明显升高并超标,而林地减少或林地质量的下降,土地发生石漠化时,地下水中的Ca²⁺、HCO₃^- 浓度明显降低,同时,地下水各指标的空间变化与土地利用空间格局的变化表现出动态一致性。     

城乡交错带土地利用变化对土壤养分的影响--以北京市大兴区为例

以北京市大兴区为城乡交错带的分析样区,对1982年、2000年土地利用方式变化和两期不同土地利用方式的土壤养分变化情况进行分析。结果表明:与1982年相比,2000年土壤有机质含量在不同土地利用方式下增加的顺序为:果园>水浇地>稻田>菜地>林地>旱地; 土壤全氮含量增加的顺序为:稻田>菜地>水浇地>果园>旱地>林地;土壤碱解效氮含量增加的顺序为稻田>水浇地>菜地>果园>旱地>林地;土壤速效磷含量增加的顺序为果园>水浇地>稻田>旱地>菜地>林地;土壤速效钾含量在不同土地利用方式下变化规律为, 在果园和稻田中略有增加,在其他利用方式中有不同程度降低。水稻田转变为水浇地、菜地、果园后,土壤有机质、全氮、碱解氮含量增加幅度顺序为旱地>果园>水浇地>菜地;速效磷含量增加的顺序为果园>水浇地>菜地>旱地。旱地转变为果园、水浇地后,除速效钾含量降低外,其他养分含量都有不同程度的提高。沙荒地转变为旱地、水浇地、菜地、果园、林地后,除速效钾含量降低外,其他养分含量都有不同程度的增加。     

准噶尔盆地西北缘新垦绿洲土地利用对土壤养分变化的影响

 通过对准噶尔盆地西北缘新垦绿洲克拉玛依农业综合开发区0—30 cm土层土壤理化性状的统计分析,可知该区土壤主要化学特性指标不仅变异明显,而且变异程度也有很大差异。该区土壤总体有机质含量低,养分不高,缺磷少氮,含盐量较高。从实地监测资料可知,土地利用对该区新垦荒地土壤化学特性有影响,其中土地利用年限对土壤化学特性产生明显的影响,除全磷外,新垦荒地土壤有机质、全氮、速效氮、速效钾的含量均随土地利用年限的增加而增加;同时灌溉量和灌溉方式均能对表层土壤中水溶性盐含量、pH值产生影响;种植苏丹草可以明显降低土壤盐分含量,其中SO2-4下降幅度最大,其次是K+和Na+含量,HCO-3、CO2-3和Cl-量也略有下降,但降幅不大;根据研究结果,针对研究区土地的基本肥力状况,提出了克拉玛依农业研究区土地可持续利用中应注意的几个问题。     

土地利用方式对西藏东部河谷山地土壤肥力性质的影响

通过现场调查取样和室内理化分析,研究了西藏东部主要河谷地区不同土地利用方式下土壤肥力性质及其随土地利用方式变化的机制。结果表明:不同土地利用方式下土壤理化性质有明显的差异,耕地和裸地土壤砂粒含量高于其他利用方式,本区域土壤砂质特征明显;受有机质积累影响,乔木林地、灌丛地土壤具有相对较高N素养分;受施肥等因素影响,农耕地土壤具有相对较高P、K养分;在所有利用方式中,裸地土壤尽管具有相对较高的粉粒含量,但所有养分指标均最低,显著低于林地土壤。总之,对于西藏脆弱生境而言,耕作使得有机质更易于消耗。由于有机质与植被之间存在明显互相促进的作用,因此维持土壤有机质平衡对于恢复植被、保护青藏高原东缘生态屏障具有重要的意义。     

草地改良对陆地生态系统养分的影响--以福建省建瓯市牛坑龙草地生态系统试验站为例

Both land use/land cover change (LUCC) and the effects of nutrients cycles on terrestrial ecosystems and biodiversity are key environmental problems in the 21st century (Yang etal., 2002; Li, 1996; Bai and Bai, 1998). Land cover change is the accumulated result of land use, which includes three types, i.e., deterioration, transition and amelioration of land cover (Cai, 2001). The nutrient cycle is the main functional process to maintain stability and production of an ecosystem. Land cover …     

Effects of grassland amelioration on terrestrial ecosystem nutrients:a case study in Jianou Niukenglong Grassland Ecosystem Experimental Station, Fujian Province

This paper studies the effects of land cover changes on distributions and circulations of nutrients in a terrestrial ecosystem, taking Jianou Niukenglong Grassland Ecosystem Experimental Station as a case study. During a two year experiment from 1994 to 1996, the land cover types were changed from desert slopeland to grasslands, in particular, Chamaecrista rotundifolia(pers) green + Pasalum thunbergii and Glycine max var. + Pasalum thunbergii. In order to study land cover change effects on nutrients in the terrestrial ecosystem, we selected organic materials (OMs), nitrogen (N), phosphorus (P), potassium (K) and aluminum (Al) to study their changes in total soil nutrient concentrations, nutrient reserves in soil, distributions and reservations of nutrients in distinct grassland communities and overall nutrient contents reserved in terrestrial ecosystem, and their circulation with land cover change. The experimental results indicate that with the increase of vegetation coverage, the total concentrations of N, P and K grow rapidly in the soil, but that of Al decreases markedly. The increases of the total concentrations of N, P and K were mainly the consequences of changes of the factors that affect soil evolution, e.g., soil moisture, and changes of soil evolution processes, e.g., weathering rate and the decrease of soil erosion. These changes were caused by land coverage growth from desert slopeland to grassland. With the change of the land cover types and the increase of land coverage, the activity of Al accelerated as well, and the vertical penetration and lateral penetration of Al have been increased. Therefore, the loss of Al within the experimental terrestrial ecosystem was inevitable, and the total concentration and reserve of Al in soil have become smaller and smaller, in spite of the growth of grass absorbing some amounts of Al. The Al reserve has increased in vegetation, but it has declined in total terrestrial ecosystem. Land cover change also affects the circulations of nutrients in the terrestrial ecosystem and for the purpose of study on nutrient circulations, we choose to study plant absorption, litter and reservation of nutrients to establish an index to indicate the situations of nutrient circulations within terrestrial ecosystems. The results indicate that in the two land cover types (two grassland ecosystems), the sequence of nutrient circulation indices are N > K > P > Al in Chamaecrista rotundifolia(pers) green + Pasalum thunbergii and P > N > K > Al in Glycine max var. + Pasalum thunbergii. On the basis of the study, we can conclude that land cover change affects both distributions and circulations in the terrestrial ecosystem, and that different changes have distinct influences on distributions and circulations. Some nutrients were affected differently in some contents.     

杭州湾南岸滨海平原土地利用变化对土壤发生层次质量演化的影响

Land use change plays an important part in the studies of global environmental change and regional sustainable development. The change of soil quality can particularly reflect the impacts of human socio-economic activities on environment. Taking the coastal plain of south Hangzhou Bay as a study case, we analyzed the effects of land use changes on organic matter （OM）, total nitrogen （TN）, total phosphorus （TP）, available phosphorus （AP）, available potassium （AK）, total salinity （TS）, pH value in soil genetic layers, and assessed soil quality change related to different land use types from 1982 to 2003. The results show that： （1） The general change tendency of soil quality in the coastal plain of south Hangzhou Bay declined obviously in A layer and slightly rise in B （or P） layer and C （or W） layer. The contents of TP decreased generally in all soil genetic layers, but the variety difference of other soil quality indices was relatively great. （2） The change of soil quality in the areas where land use changed is far more remarkable than that with land use unchanged. The value of quality variety is A layer 〉B （or P） layer 〉C （or W） layer. （3） The changes of soil tillage, cultivation, fertilization, irrigation and drainage activities related to land use may make some soil-forming processes disappeared and bring in other new processes which will affect the soil quality and soil genetic layers directly.