污泥掺混改良沙土的水分入渗及再分布规律

为探究城市生活污水处理厂脱水污泥作为土壤改良剂对风蚀沙土的改良效果,确定合适的污泥沙土掺混比例,试验以污水厂离心脱水污泥与沙漠表层土壤按污泥掺混量为10%,15%,20%,30%,50%充分掺混,以水分入渗能力、土壤饱和含水率和土壤保水能力为指标,研究了不同掺混比例"泥—沙"复合土壤中水分入渗规律和土壤保水性能,用以确定最佳污泥掺混比例和最佳保水层。结果表明:污泥与沙土的掺混比例对水分入渗湿润锋影响较大。掺混比为10%的"泥—沙"复合土壤入渗时间最短,速率最大,30%,50%的入渗时间长,速率较慢;不同污泥与沙土掺混比例,土壤水分累积入渗量的大小依次为:10%(54.15 cm)15%(47.12 cm)20%(40.80 cm)沙土(34.97 cm)30%(23.10 cm)50%(12.68 cm),累积入渗量与时间关系符合Kostiakov土壤水分入渗模型;在污泥与沙土不同掺混比对各土层含水率及水分再分布试验中,污泥与沙土掺混比为20%的复合土壤为最佳选择,保水性最好的土层是40—60 cm。     

不同改良措施对银川平原盐碱地土壤性质及酶活性的影响

研究了秸杆、有机肥、烟气脱硫废弃物、盐碱地改良剂对银川平原盐碱地进行改良后土壤理化性质及土壤酶活性的变化。结果表明:4种改良措施对土壤pH值、全盐含量、土壤容重均有不同程度的降低,脱硫废弃物和改良剂处理降低土壤pH值和全盐含量效果显著,改良剂和有机肥处理降低土壤容重、增加土壤孔隙度的效果显著。盐碱地改良后土壤转化酶活性、脲酶活性和碱性磷酸酶活性增加的幅度分别为0.02%～85.0%,2.7%～53.3%,17.9%～49.7%,各改良措施对过氧化氢酶活性的影响不显著。土壤pH值、全盐含量和土壤容重之间互成显著正相关关系(p<0.05),与土壤孔隙度呈显著负相关关系(p<0.05);土壤容重与土壤孔隙度、过氧化氢酶、脲酶活性之间达到显著负相关关系(p<0.05),土壤碱性磷酸酶、转化酶、土壤过氧化氢酶和脲酶之间互成显著正相关关系(p<0.05)。     

砒砂岩与沙复配成土过程中沙的调控作用

研究不同含沙量下砒砂岩与沙复配土壤的物理性质,为研究其成土机理及砒砂岩与沙复配成土技术大规模应用于毛乌素沙地土地整治、发展农业种植提供科学依据。通过监测分析不同含沙量复配土的土壤质地、毛管孔隙度、导水性、团聚体等指标,分析沙在复配土成土过程中的作用。结果表明:含沙50%(质量分数)时,黏粒含量最高(8.24%),且随含沙量的上升,毛管孔隙度呈显著的线性负相关,饱和导水率则随含沙量的增加呈指数增长。维持作物良好生长的水稳定性大团聚体含量随含沙量变化呈极显著差异(P0.01),而随耕作次数变化差异不显著(P0.05)。本研究结果说明沙土在砒砂岩与沙复配成土可改良土壤质地、增加土壤导水性、透气性等作用,利用砒砂岩与沙复配成土技术有望实现沙漠绿化造田,从而控制砒砂岩水土流失和沙土沙漠化问题。     

污泥改良沙土中重金属及营养元素的迁移转化

为探究城市污水厂离心脱水污泥改良沙土对重金属及营养成分迁移转化的影响,利用掺混量为15%的污泥改良沙土作为0—20 cm土层土壤,通过饱和淋洗的方式分析了重金属及营养成分在土层中含量及形态转化,揭示了土层中重金属及营养成分迁移转化规律。结果表明:从重金属总量来看,试验淋洗10次后,土壤表层Cu,Pb,Zn,Cr滞留率较高,分别为78.57%,78.72%,86.35%,76.61%,Ni滞留率较低,为40.37%。但随着淋融次数的增加,重金属都存在一定淋失或向下层土壤迁移的风险;从重金属形态来看,各重金属Ni,Zn,Cr,Cu,Pb活性系数（MF）分别为1.657,0.531,0.265,0.113,0,由此可以得出,Ni,Zn在土壤环境中性质不稳定,Cr,Cu性质较为稳定,Pb最为稳定;改良沙土中氮磷营养元素在淋洗后含量下降,氮的流失率为39.36%,磷的流失率为18.67%,氮素较磷素易发生流失,下层沙土氮提升量高于磷。     

免耕对不同麦玉轮作农田土壤碳组分及理化性质的影响

为探讨耕作及轮作方式对农田土壤理化性质和碳组分的影响,设置免耕、传统耕作2种耕作方式,以及小麦-玉米轮作、小麦/玉米间作、小麦-冬油菜-玉米轮作3种种植模式,共形成6个处理,研究结果表明:与传统耕作相比,免耕增加了0~5 cm、5~20 cm土层全氮、全磷、速效磷和含水量,而降低了的土壤pH和土壤容重。免耕小麦/玉米间作(NT.W1/NT.WM.1)处理的土壤容重、含水量、全氮、全磷含量高于NT.WRM3和NT.WM5处理,在不同土层间,土壤全氮、全磷和速效磷含量随着土层深度的增加而降低。土壤碳组分含量总体表现为免耕处理高于传统耕作处理,免耕处理0~5 cm土层土壤有机碳、颗粒有机碳、可溶性有机碳、微生物量碳含量较相应传统耕作分别增加了1.31%~36.57%、2.07%~35.22%、2.38%~4.78%、2.08%~11.68%,在5~20 cm土层,免耕处理土壤有机碳和微生物量碳含量高于传统耕作。在不同免耕处理下,土壤有机碳,颗粒有机碳和微生物量碳含量在0~5 cm、5~20 cm土层总体表现为NT.WM5高于其他免耕处理,相关性分析表明,有机碳、微生物量碳和速效磷呈极显著正相关,容重和有机碳呈极显著负相关。综上所述,免耕小麦/玉米间作利于改善土壤理化性质,小麦-玉米轮作有利于提高土壤有机碳,颗粒有机碳和微生物量碳含量。     

我国北方半干旱地区土壤的沙漠化演变过程与机制

土地沙漠化是我国北方干旱半干旱地区土地退化最严重的类型之一。但迄今为止,人们对这一地区土地沙漠化过程中土壤沙化过程和机制的了解还不够透彻。2002-2003年,我们在科尔沁沙地选择具有明显沙漠化梯度的一个区域,调查和研究了土壤沙漠化演变过程和机制。结果表明,在科尔沁沙地,不同粒径土壤颗粒的理化特性具有较大差异,其中土壤粘粉粒和粗沙相比,具有较低的土壤容重和较高的土壤结持力、起沙风速、毛管持水力和养分含量。从土壤粘粉粒到粗沙,容重增加了10.32%,结持力、毛管持水量、有机碳、全氮分别下降了99.15%,51.23%,83.73%和80.24%。沙漠化过程中,土壤的理化性质随着土地沙漠化程度的增强而明显恶化。和非沙漠化土地相比,严重沙漠化土地的土壤粗沙含量、非毛管孔隙度和容重分别增加了35.04%,117.50%和21.7%,细沙含量、粘粉粒含量、总孔隙度、毛管孔隙度、田间持水量、毛管持水量、土壤有机碳、全氮、全磷、有效氮和有效磷分别下降了77.78%,70.00%,15.38%,27.49%,54.34%,37.54%,64.15%,70.77%,65.90%,66.32%和50.59%。相关分析结果表明,沙漠化过程中,土壤有机碳、全氮、全磷、土壤含水量和土壤结持力的变化与土壤粘粉粒的减少呈明显正相关,与土壤粗沙含量的增加呈明显负相关。这说明,沙漠化过程中,由于风蚀而导致的富含养分和具有较高持水能力的土壤细颗粒的损失,是沙漠化过程中土壤退化的主要机制。     

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。     

天山南坡台兰河上游草地土壤理化性质与海拔的关系研究

通过野外调查、土样采集及室内分析,对托木尔峰自然保护区台兰河上游河谷不同海拔草地表层土壤理化性质进行研究。结果表明:(1)研究区样地土壤含水量、饱和含水率、容重、非毛管孔隙度、毛管孔隙度、总孔隙度的范围分别为9.04%~44.7%,41.39%~114.9%,1.02~1.44 g cm~(-3),4.03%~7.45%,47.48%~58.53%,51.51%~65.85%,土壤含水量、饱和含水率、非毛管孔隙度、毛管孔隙度、总孔隙度随海拔上升而呈增加趋势;土壤容重则随海拔高度的增加而呈降低趋势。(2)草地表层土壤平均有机质含量、全N含量、全P含量、C/N、土壤p H的范围分别在3.64%~9.22%、0.23%~0.53%、0.13%~0.15%、9.00~14.10、7.91~8.20之间有机质含量、全N含量的最大值分别约为最小值的2.5倍和2.3倍;有机质含量、全N含量、全P含量、C/N的大小均随海拔高度增加而趋于增大;土壤p H则随海拔上升不断降低。台兰河上游河谷草地表层土壤理化性质受海拔高度这一重要环境因子的影响深远且规律性显著。     

粉煤灰对沙质土壤物理特性的影响

为探讨粉煤灰作为沙质土壤改良剂对沙土物理特性的改良效果.通过室内模拟试验比较了粉煤灰不同施用率(0%,10%,20%,30%,40%)对沙质土壤物理性质和结构的影响.结果表明,施用粉煤灰能增大沙土容重,降低了孔隙度;施用粉煤灰显著减弱了土壤沙性,4种处理砂粒含量比对照减少11%～18%.粉粒含量增大3倍以上;粉煤灰的施用改善了沙土水分性状,土壤有效水含量增加49%～138%;粉煤灰高施用率增加土壤强度.研究表明,施用粉煤灰能有效的改善沙质土壤物理特性,增强沙土水分利用效率.     

基于耕作指数评价耕作措施对东北风沙土耕层土壤质量的影响

为准确评价构建风沙土合理耕层的土壤质量特征,采用聚类分析方法建立了东北风沙土耕层质量诊断最小数据集(MDS),利用最小数据集的耕作指数(TI-MDS)定量评价了耕作措施对东北风沙土农田耕层土壤质量的影响,旨在为科学选择风沙土区耕作措施提供依据。试验始于2017年,在黑龙江省杜尔伯特蒙古族自治县第一粮种场,设化肥、秸秆还田和有机肥3种施肥模式,常规、旋耕、翻耕、深翻和超深翻5种耕作方式,共15个处理。测定了玉米收获期0～20 cm耕层土壤pH值、有机质、碱解氮、有效磷、速效钾、全氮、全磷、全钾、阳离子交换量(CEC)、团聚体平均重量直径(MWD)、容重、硬度、含水量、田间持水量、孔隙度和渗透速率16项评价指标。结果表明,全量耕作指数(TI-TDS)与TI-MDS的相关系数r为0.928,Nash有效系数Ef为0.761,偏差系数Er为0.079,TI-MDS取值范围为0.26～0.85,与玉米产量呈显著正相关(r=0.767),故TI-MDS可作为定量评价土壤质量的指标。施有机肥处理土壤耕作指数达到Ⅱ级水平;秸秆还田耕作指数达到Ⅲ级水平;施化肥耕作指数达到Ⅲ级水平,这表明风沙土区施用有机肥是构建合理耕层有效培肥方式,秸秆还田对合理耕层构建效果不明显。翻耕施用有机肥耕作指数最大,为0.85,达到I级;深翻+秸秆还田和超深翻+化肥措施土壤质量严重下降,降为Ⅳ级。在风沙土区应用翻耕+有机肥措施是构建合理耕层的有效措施。     

Bodengefüge gegen Verdichtungen schützen – Lösungsansätze für den Schutz landwirtschaftlich genutzter Böden

Protecting soil structure against compaction—proposed solutions to safeguard agricultural soils To safeguard the ecological soil functions and the functions linked to human activities, measures against harmful changes to the soil are required, in line with the precautionary principle. The German Federal Soil Protection Act sets obligations for precaution in agricultural land use and, if harmful changes to the soil are foreseeable, measures for averting a danger. The results of a research project of the Federal Environmental Agency show that it is possible to describe an impairment of the soil structure, using methods of soil analysis. But this as a sole information would not qualify for the identification of harmful changes to the soil in the context of the Soil Protection Act, which requires an assessment of the severity of disruption of soil functions and the respective subject of protection. This would make additional soil investigations on site mandatory. Approaches in agricultural engineering and soil physics have introduced procedures to preserve the soil structure, in accordance with the precautionary principle. But these procedures have different goals and different ranges of application and hence offer partial solutions to safeguard against soil compaction. The assessment model of “trafficability by measuring the rut depth” provides information about the compaction status of the soil under applied conditions for farming gear, without providing detailed information about affected soil layers. The soil‐physical model of classifying soils into “risk classes for harmful soil compaction” focuses on the relationship between topsoil compaction and crop yields. The soil‐physical models “precompression stress” and “loading ratio” provide information for the assessment of subsoil compaction and a prognosis of a possible impairment of the soil structure at the water content of field capacity. It is necessary to validate the individual models with additional regional data about soil structure before a final assessment of the prognoses is made.     

Soil health – What should the doctor order?

The concept of soil health has been extensively reviewed in the scientific literature, but there is only patchy and inconsistent information available to farmers and growers who are concerned about the declining condition of their soils and are looking for appropriate test methods and management interventions to help reverse it. Although there are well‐established laboratory methods for soil chemical analysis, and a range of laboratory and field methods for measuring soil physical properties, only now are methods starting to emerge for soil biological analysis. This study provides an overview of the methods that are currently available commercially (or are close to commercialization) for farmers and growers in the UK. We examine the science underpinning the methods, the value of the information provided and how farmers and advisors can use results from such assessments for informed decision‐making in relation to soil management.     

Soil Erodibility and Physicochemical Properties of Collapsing Gully Alluvial Fans in Southern China

In southern China, collapsing gully erosion produces massive deposits of sediment on the plough layer of alluvial fan farmland, leading to reduced nutrients, increased erodibility, and even desertification. The aim of this study was to investigate soil erodibility (the factor K in the universal Soil Loss Equation, USLE) and physicochemical properties of the alluvial fans of the most severe collapsing gully erosion areas (Hubei, Jiangxi, Fujian, and Guangdong provinces) in southern China. The soils of the collapsing gully alluvial fans had a higher bulk density, but a lower total porosity, saturated water content, and silt and clay fractions than the control (CK) soils from the farmland without desertification. Soil quality gradually decreased from fan edge to fanhead. Significant decreases were found in soil pH, organic matter, cation exchange capacity, and total potassium, nitrogen, and phosphorus, as well as available nitrogen, phosphorus, and potassium, resulting in a gradual decrease in soil nutrients from the fanedge to the fanhead. Soil erodibility was greatest in the fanhead, and soil erodibility K values of the alluvial fans were 53.71%, 66.28%, 67.53%, and 71.68 % greater than that in those of the CK soils of Hubei, Jiangxi, Fujian, and Guangdong, respectively, indicating a significant correlation between the soil erodibility K values and physicochemical properties, particularly sand fraction and organic matter content. The results provide new insights into the relationship between soil physicochemical properties and erodibility of alluvial fans, and suggest that improving soil structure might increase soil fertility in the collapsing gully alluvial fan farmland.     

土壤孔隙结构与土壤微环境和有机碳周转关系的研究进展

土壤结构是土壤功能的基础,不仅影响土壤养分的供应、水分的保持及渗透、气体的交换等过程,还为土壤微生物提供了物理生境,并调控土壤有机碳的周转这一关键过程。土壤的孔隙特征能够直接、真实地反映土壤结构的好坏;用土壤的孔隙特征作为试验指标能更好地反映土壤结构对这些过程的调节作用。在此基础上,将高度异质性的土壤孔隙结构同土壤微环境的变化和土壤有机碳的周转过程进行定量分析,对深入了解土壤结构在土壤生态系统中的功能至关重要。因此,着重从土壤孔隙结构对土壤微环境的影响及其与有机碳的关系两方面展开,剖析土壤孔隙结构调控作用下的土壤微环境响应过程,阐述土壤孔隙结构对土壤有机碳周转产生的直接、间接影响,强调土壤孔隙结构在调节土壤有机碳周转进程中的重要作用,并对土壤孔隙结构在调节土壤有机碳周转、植物残体分解及其与微生物协调作用机制等方面研究提出展望。     

土壤因子研究综述

介绍了国内外土壤因子的研究方法及研究成果,指出我国目前土壤因子研究中存在的问题,并结合我国土壤因子研究现状,认为继续土壤水蚀机理的研究是今后土壤因子研究的内容之一,同时,随着GIS和RS技术发展,应用GIS和RS技术研究区域土壤因子也将成为潮流。     

土壤润湿性受土壤特性及土地使用的影响

Depth distribution of soil wettability and its correlations with vegetation type, soil texture, and pH were investigated under various land use (cropland, grassland, and forestland) and soil management systems. Wettability was evaluated by contact angle with the Wilhelmy plate method. Water repellency was likely to be present under permanently vegetated land, but less common on tilled agricultural land. It was mostly prevalent in the topsoil, especially in coarse-textured soils, and decreased in the subsoil. However, the depth dependency of wettability could not be derived from the investigated wide range of soils. The correlation and multiple regression analysis revealed that the wettability in repellent soils was affected more by soil organic carbon (SOC) than by soil texture and pH, whereas in wettable soils, soil texture and pH were more effective than SOC. Furthermore, the quality of SOC seemed to be more important in determining wettability than its quantity, as proofed by stronger hydrophobicity under coniferous than under deciduous forestland. Soil management had a minor effect on wettability if conventional and conservation tillage or different grazing intensities were considered.     

设施栽培下原状土与扰动土水分特性的试验研究

以四川省双流县设施栽培土壤为研究对象,对其原状土与扰动土的土壤水分特征曲线、水分物理性质和比水容量等项目进行了研究。结果表明,扰动土水分特征曲线总体变化趋势与原状土较为一致。在低吸力阶段,相同吸力条件下扰动土含水量高于原状土,在高吸力阶段两者差异较小。扰动土毛管孔隙度、总孔度和凋萎含水量在剖面上的总体变化趋势与原状土较为一致。扰动土不同土层田间持水量和有效水含量差异较小,原状土的田间持水量和有效水含量均随土层加深而减少。在低吸力阶段,相同吸力条件下扰动土比水容量远高于原状土,但随土壤水吸力增加,扰动土比水容量变化趋势逐渐与原状土一致。     

植物苗期根系抗侵蚀特性试验研究——以构树和顶坛花椒为例

植物的固土抗蚀作用大小与其根系密切相关,而根系特征决定了根的固土抗蚀作用的发挥,本文以相同基质下构树和顶坛花椒不同特征的根系为研究对象.通过研究根系特征与土壤抗冲性、抗蚀性、抗拉性、紧实度的关系,结果表明,苗期根系能强化土壤抗冲性,构树苗、顶坛花椒苗根系强化值大小分别为78.01>77.71;根系可提高土壤抗蚀性,其抗蚀性强弱为.构树苗>顶坛花椒苗>对照,构树、顶坛花椒、对照试验的土壤水稳性指数分别为4.36,3.16,1.67;不同树种根系对土壤的固结能力不同,构树苗生长下的土壤抗拉能力为214.92 N,明显大于顶坛花椒苗生长下的土壤154.87 N;土壤紧实度大小为构树苗>顶坛花椒苗.并采用加权综合指数法综合评价了苗期不同特征植物根系的固土能力强弱,得出构树苗综合指数为1.058.而顶坛花椒苗为0.902.即构树苗的固土能力强于顶坛花椒,以期为今后的水土保持工作提供一定的理论依据.     

金沙江干热峡谷中退化的土壤生态系统生物学特征初探

Distribution characteristics of soil animals,microorganisms and enzymatic activity were studied in the dry red soil and Vertisol ecosystems with different degradation degrees in the Yuanmou dry hot valley of the Jinsha River,China.Results showed that Hymenoptera,Araneae and Collembola were the dominant groups of soil animals in the polts studied.The numbers of groups and individuals and density of soil animals in the dry red soil series were higher than those in the Vertisol series,and the numbers of individuals and density of soil animals decreased with the degree of soil degradation.Bacteria dominated microbiococnosis not only in the dry red soils but also in the Vertisols.Microbial numbers of the dry red soil series were higher than those of Vertisol series,and decreased with the degree of soil degradation.The activities of catalase,invertase,urease and alkaline phosphatase declined with the degradation degree and showed a significant decline with depth in the profiles of both the dry red soils and the Vertisols,but activities of polyphenol oxidase and acid and neutral phosphatase showed the same tendencies only in the Vertisols.It was concluded that the characteristics of soil animals,microorganisms and enzymatic activity could be used as the bio-indicators to show the degradation degree of the dry red soils and Vertisols.Correlation among these soil bio-indicators was highly significant.