土壤分散力、降雨特性和坡度对土壤侵蚀的影响

本试验在保持径流相同的情况下,研究了土壤分散力、降雨特性和坡度对土壤侵蚀的影响。结果表明:土壤流失随土壤中可交换钠百分数的增加而增加。土壤侵蚀与降雨特性和水质的关系为:DW降雨>TW降雨=低能量(雾状)的DW降雨>TW雾状降雨。DW的两种降雨(高击溅能和雾状降雨)都产生细沟侵蚀。细沟侵蚀随土壤中可交换钠百分数的增加而增加。TW降雨没有产生细沟。在具备土壤分散力条件下(含钠土壤和去离子水),径流足以产生细沟,土壤流失量随坡度增加而急剧增加。     

特定pH条件下Ca2+/Cu2+引发胡敏酸胶体凝聚的比较研究

土壤腐殖质颗粒与金属离子间的相互作用深刻地影响着土壤中的微观过程和宏观现象的发生。而胡敏酸是土壤腐殖质的主要组成物质,本文利用光散射技术研究了不同浓度的Ca(NO3)2和Cu(NO3)2溶液中胡敏酸胶体颗粒的凝聚过程和形成凝聚体的结构,并在此基础上进行比较分析。结果表明:由于Ca2+和Cu2+在带电胶体表面的吸附方式不同而对胡敏酸胶体的凝聚的影响表现出很大差异。(1)散射光强的稳定与否可以反映体系的稳定性,Ca(NO3)2体系中散射光强可以在较宽的电解质浓度范围从0 mmol L-1至20 mmol L-1内保持稳定,而Cu(NO3)2体系中光强稳定的电解质浓度范围较窄,只有0 mmol L-1至3 mmol L-1。(2)随电解质浓度的提高,两种电解质体系中凝聚体的有效粒径随时间先呈线性增长再呈幂函数增长,但胡敏酸胶体凝聚过程对Cu(NO3)2体系浓度变化的敏感性远大于Ca(NO3)2体系,并且1 mmol L-1Cu2+吸附下胡敏酸胶体的凝聚速率为69.55 nm min-1,近乎是7.5 mmol L-1Ca2+吸附下凝聚速率23.94 nm min-1的3倍,可见Cu2+作用下颗粒的平均凝聚速率远远高于Ca2+作用的情况。(3)Ca(NO3)2体系中,电解质浓度越高形成凝聚体的结构越开放,但放置50 d后分形维数变小,结构变得更加疏松,说明该凝聚过程具有可逆性;而Cu2+作用下形成的凝聚体初期结构开放度较高,在放置50 d后分形维数变大,结构更加致密紧实,说明该凝聚过程具有不可逆性。这些信息为研究腐殖质超分子聚合物的形成机制提供了新思路。     

土粒表面电场对土壤团聚体破碎及溅蚀的影响

团聚体是土壤结构的基本单元,其稳定性是评估土壤抗侵蚀能力的重要指标。土壤团聚体破碎是降雨溅蚀发生的关键一步。土粒表面电场对团聚体稳定性具有重要影响,必然也会深刻影响降雨溅蚀过程。该文以黄土母质发育的黄绵土和塿土为研究对象,采用不同浓度的电解质溶液定量调控土粒表面电场,研究不同电场强度对团聚体破碎及溅蚀的影响。结果发现:1)随电解质浓度的降低,土粒表面电位升高,表面电场增大,黄绵土和塿土团聚体平均重量直径减小,团聚体稳定性降低,降雨溅蚀量增大。2)电解质浓度小于10-2 mol/L,黄绵土和塿土表面电位绝对值分别高于202.0和231.6 mV,此时团聚体稳定性和溅蚀量变化不明显,表明表面电位202.0和231.6 mV分别是影响黄绵土和塿土团聚体稳定性及溅蚀的关键电位。3)随着土粒表面电场的减弱,团聚体破碎后释放的<0.15 mm微团聚体含量减小,>0.25 mm大团聚体含量增加,团聚体倾向于破碎为更大粒级的团聚体。4)电场作用下团聚体的破碎特征对降雨溅蚀具有重要的影响,溅蚀量与团聚体破碎释放的<0.15 mm微团聚体含量呈显著正相关,与>0.25 mm大团聚体含量呈显著负相关。上述结果表明,当降雨进入土壤后,对于干燥的土壤而言,土壤溶液电解质浓度被迅速稀释,土粒表面产生强大的电场,该电场通过影响团聚体破碎程度进而影响降雨溅蚀。该研究有助于加深对降雨溅蚀的科学认识,同时也为土壤团聚体稳定性及降雨溅蚀的人为调控提供了一定的理论依据。     

土壤电场与有机大分子的耦合对土壤团聚体稳定性的影响

团聚体稳定性是土壤中一个重要的物理性质.土壤有机大分子可提高团聚体的稳定性,而土壤电场则降低其稳定性.因此,本文研究了土壤电场与有机大分子(聚丙烯酰胺和腐殖质)的耦合作用对团聚体稳定性的影响,采用不同浓度的KNO3和Ca(NO3)2调节土壤电场,通过不同含量腐殖质和聚丙烯酰胺(PAM)来调节土粒间分子引力,以团聚体破坏后释放的＜10 μm、＜5μm和＜2 μm微团聚体和单粒的数量来表征团聚体的水稳定性.结果表明:(1)土壤电场在团聚体破坏中起关键作用,在高的电场条件下不论有无有机大分子,团聚体均可以发生猛烈的破裂;(2)在相同土壤电场条件下,向士壤中加入有机大分子,团聚体遇水破裂强度显著降低,且降低程度最高可达到60％以上;(3)电场与腐殖质以及电场与PAM的耦合程度不同,团聚体的破坏强度存在差异;(4)电场可使团聚体发生爆裂式破碎,随着加入有机大分子量的增加,团聚体发生爆裂式破碎的临界电位相应地减小.     

模拟降雨下初始含水量对砂黄土硝态氮迁移特征的影响

利用室内人工模拟降雨,研究了不同初始含水量砂黄土在降雨条件下入渗-径流、土壤侵蚀,以及NO3--N随径流流失和土壤深层淋溶特征。结果表明,初始含水量对产流时刻影响在相对含水量为49.4%和76.9%之间存在一个转折点,高初始含水量较低含水量产流提前大约15 min;土壤侵蚀量随着土壤初始含水量的增加而增加,相对含水量为97.1%时,侵蚀泥沙量分别是相对含水量22.9%的2.8倍,49.4%的2.3倍,76.9%的1.5倍。初始含水量高的处理径流初始NO3--N浓度高,随后各处理均衰减很快,10 min左右NO3--N含量趋于雨水本底值;土壤初始含水量越低,NO3--N被淋洗的程度越严重,土壤剖面中NO3--N的浓度峰越深。对于黄土高原坡地砂黄土NO3--N迁移特征来看,按照NO3--N迁移数量,随径流和泥沙流失量比向土壤深层迁移的数量小。说明在降雨条件下,NO3--N主要通过土壤深层淋溶损失,且土壤初始含水量越低其损失越严重。针对黄土高原降水量小,分布集中的特点,采取措施增加入渗,蓄积水分,在一定含水量下施肥,以提高氮肥利用率,降低NO3--N的淋溶。     

恒电荷土壤及可变电荷土壤与离子间相互作用的研究 Ⅰ.共存离子对NO3-吸附的影响

研究了我国典型3种可变电荷土壤和4种恒电荷土壤在陪伴阳离子分别为K+、Na+、Ca2+时和1mmolL-1KCl、K2SO4支持电解质中NO-3的吸附.结果表明,NO-3吸附量随pH的增加而减小.在添加相同浓度NO-3时,3种可变电荷土壤对NO-3的吸附量顺序为Ca(NO3)2＞KNO3＞NaNO3＞KNO3+KCl＞KNO3+K2SO4;在初始NO-3浓度0.5～5mmolL-1的范围内,吸附量随浓度变化的关系符合Langmuir等温吸附式.由此求出与NO-3吸附结合能有关的常数(K)在不同共存离子存在下数值较小且差异不大,因此认为不同陪伴阳离子和不同伴随阴离子对NO-3吸附的电性机理影响不大,只是改变了土壤表面的正电荷数量从而使吸附量发生变化.4种恒电荷土壤对NO-3的吸附量通常很小,其中在Ca(NO3)2介质中较在其他介质中稍大,最大吸附量仅为1.5mmolkg-1左右,约为可变电荷土壤的1/10,且在浓度较低时常观察到负吸附.     

冻融侵蚀机理

在温带地区 ,土壤流失量的 5 0 %以上发生在冻土层解冻时期。这是由于土壤表层水分含量过多所致 ,而土壤中存在一不透水的心土层则是导致土壤表层水分含量高的主要原因。研究具有不透水层土壤的侵蚀机理 :1)冻融交替对于土壤粘聚力的影响。 2 )降水条件下 ,不透水层对土壤分散力的影响。从绘制的摩尔图可以看出每种处理下土壤的粘聚力。在冻融交替进行初期 ,土壤含水量分别为 15 %和 2 5 %。首先在 - 12℃冷冻处理 90min ,解冻 30min ,然后立即测定土壤的抗剪强度和分散力。小于 5 0kg/m2 的土壤粘聚力不受非冷冻处理或冷冻处理时水分含量的影响。降雨对于具有不透水层土壤的分散力影响很大。据研究在一滴水作用下 ,具有不透水层的黄土与不具有不透水心土层的黄土相比土壤分散力从 0 0 16± 0 0 0 6 5g升高到 0 0 5 4± 0 0 2 6 5g ;而具有不透水性层的冰碛土与不具有不透水心土层的冰碛土相比土壤分散力从 0 0 36± 0 0 0 71g升高到 0 145± 0 0 6 35g;具有不透水层的土壤基质势趋近于 0Pa ,因此造成土壤粘聚力减小 ,土壤分散力变大 ,从而引起强烈的土壤侵蚀。     

模拟降雨对堆肥和土壤覆盖物中养分流失量的影响

模拟降雨条件下,美国科学家研究了土壤表层的不同堆肥和不同覆盖物对地表径流、土壤侵蚀和养分流失的影响。试验布置11个处理:3种不同质量的家禽堆肥、3种不同粒度的木屑覆盖物及废弃粮食堆肥、秸秆堆肥、建筑废物堆肥、农家院堆肥、裸露土壤(对照)。试验结果表明:除腐熟的堆肥外,其它处理在地表径流过程中均减少土壤固相的流失。堆肥处理养分流失较裸露的土壤和覆盖处理多。呼吸速率和NO3-N浓度低的处理,土壤侵蚀和固相流失相对较少。NO3-N、Na、K、可溶性盐浓度,呼吸速率是衡量NH4-N和P流失的重要参数。     

雨滴能量和土壤改良对渗透及侵蚀的影响

降雨或喷灌水滴的击溅能量可使土壤表面结皮。这是干旱半干旱地区耕地存在的一个严重问题。在土壤表面施入土壤改良剂和补充一定量的电解质可防止土壤形成结皮。作者应用箱式滴水型模拟降雨器,对雨滴击溅能和水质对入渗及侵蚀的影响进行了试验研究。在所有处理中,入渗率(IR)、累积入渗量(降雨吸收量)随雨滴击溅能增加而减少,土壤侵蚀则随雨滴击溅能增加而增加。在土壤表面施入电解质(或PG或TW)之后,再施入聚丙烯酰胺,与未经化学处理的对照试验相比,稳渗率和累积入渗量都增加了7~8倍,且比单独施入PAM、PG或TW更有效。PAM+电解质处理与对照试验相比,减少侵蚀量1倍以上。     

快速湿润过程中钾和钙离子浓度对土壤团聚体稳定性的影响

为探索土壤团聚体稳定性对电解质的响应情况,该文研究湖北省2种土地利用方式下(林地、耕地)的3种类型土壤(黄褐土、黄棕壤、棕红壤)团聚体,在不同浓度(0、0.005、0.01、0.02、0.05、0.08、0.10、0.20 mol/L)电解质(KNO_3、Ca(NO_3)_2)溶液中快速湿润时的稳定性和破碎过程。结果表明:1)浓度低于0.1 mol/L时,团聚体稳定性随电解质浓度增大而减小;2)团聚体稳定度AS随湿润时间呈双指数衰减,与纯水相比,棕红壤和林地黄褐土的破碎过程受电解质溶液影响尤为显著,黄褐土和耕地黄棕壤在电解质溶液中迅速全部破碎;3)初始阶段团聚体破碎能量与土壤粉粘比和有机质含量呈负相关,与铁铝氧化物含量呈正相关。总之,团聚体稳定性随电解质溶液浓度增大而减小,且相对于纯水,团聚体在电解质溶液中破碎更快。     

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.     

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.     

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.     

长期化肥有机替代对黑土颜色及腐殖物质的影响

基于30年长期定位试验,通过测定黑土光谱反射率和不同腐殖质组分含量,探究了不同施肥对黑土土壤腐殖质含量、土壤颜色及二者之间的关系。试验设置5个处理:(1)休耕(Fallow);(2)不施肥处理(CK);(3)单施化肥(NPK);(4)有机肥部分替代化肥(NPKM);(5)秸秆部分替代化肥处理(NPKS)。结果表明:与NPK处理相比,Fallow、NPKS、NPKM分别显著提高49.7%,74.3%,27.0%的土壤有机碳含量(p<0.05)。NPKM处理中胡敏酸(HA)含量最高为3.9 g/kg,随后依次为CK、NPKS、NPK、Fallow。NPKM、NPKS和Fallow处理中土壤富里酸(FA)含量为2.2~2.3 g/kg,显著高于NPK和CK。NPKM处理中胡敏素(HM)含量为18.6 g/kg,显著高于其他处理(p<0.05)。不同处理间土壤光谱反射率由高到低依次为NPK>Fallow、CK>NPKS>NPKM,与CK处理相比,NPK土壤光谱反射率在平均提高6.5%,NPKS和NPKM则分别降低11.1%和15.1%。根据线性相关分析结果,黑土土壤光谱反射率与土壤HAHM均呈显著负相关关系(p<0.01),相关系数(r)分别为-0.858,-0.681。综合上述结果,长期有机物料投入可以显著提高黑土腐殖物质含量,降低黑土光谱反射率,使黑土颜色加深,而长期化肥施入则使黑土光谱反射率提高,出现"褪色"现象,有机粪肥在黑土中对土壤有机质和腐殖质含量的提升效果优于秸秆。     

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。     

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.     

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.     

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。