Effect of soil organic matter, electrical conductivity and sodium adsorption ratio on tensile strength of aggregates

The properties of soils affected by salinity and processes involving degradation of soil structure have been partly recognized. However, the effects of saline and sodic conditions on mechanical and physical properties of soils have been studied to a lesser extent. In this research, the effects of electrical conductivity (EC) and sodium adsorption ratio (SAR) on soils possessing various amounts of organic matter were assessed under laboratory conditions. The soils contained a uniform clay type, predominantly Illite. The major difference of the soils was their amount of organic matter content. The treatments consisted of solutions with definite EC and SAR (two levels of EC: 0.5 and 4 dS/m and three levels of SAR: 0, 5 and 15). The amount of tensile strength was dependent on organic matter, EC, and SAR in a way that with the increase of SAR, the tensile strength decreased. In similar SAR, treatments with higher EC exhibited greater tensile strength. Also, the soils with higher organic matter showed greater tensile strength. The analysis of variance showed the significant difference (at 1%) between the mean of parameters analyzed (soil type, sampling depth, EC, and SAR). The order of averages of tensile strength were: permanent pasture (Agropyron elengatum)Festuca arusdinaceae)相似文献   

中南地区典型地带性土壤团聚体抗张强度的变化及影响因素

团聚体的力稳性是决定土壤抗侵蚀能力的关键因素。为探究地带性土壤团聚体抗张强度的变化规律及其影响因素,自北向南选取我国中南部地区6种典型地带性土壤(褐土、黄褐土、棕红壤、红壤、赤红壤和砖红壤)的不同粒径(1~2,2~3,3~5,5~10mm)团聚体作为研究对象,通过测定团聚体的抗张强度(TS),探究其与土壤基本理化性质的关系,揭示该区域团聚体抗张强度的变化特点和稳定机制。结果表明:(1)供试土壤皆为黏性土壤,自北向南,随着水热条件的增加,土壤的pH值逐渐降低,高岭石含量和游离氧化物(Fe_d、Al_d)呈现明显的增加趋势;有机质含量随土壤深度的增加而降低。(2)同种土壤团聚体的抗张强度随着粒径的增大而逐步减小,从北至南,相同粒径团聚体的抗张强度整体呈现减小的趋势。(3)TS与pH、粉粒含量、蛭石含量呈极显著正相关(r0.63,p0.01),TS与黏粒含量、1.4nm过渡矿物含量、高岭石含量、游离氧化铁、铝(Fe_d、Al_d)呈显著负相关(r-0.53,p0.05)。(4)逐步回归分析表明,Fe_d和CEC可以较好的预测和评价3~5mm团聚体的抗张强度(R~2=0.80,p0.01)。总体而言,黏土矿物类型及其含量是影响地带性土壤团聚体力稳性的重要因素。研究结果可为该区域土壤侵蚀预测提供一定的理论依据。     

应用Le Bissonnais法测定富铁土中团聚体的稳定性及其意义

土壤团聚体的数量和稳定性是衡量土壤抗蚀性和土壤质量的重要指标,应用LeBissonnais法对富铁土团聚体的稳定性和物理学机制进行了研究。结果表明,LeBissonnais法测定的团聚体平均重量直径(MWD)与常规湿筛法测定的>0.25mm团聚体含量、MWD和>2mm团聚体破坏率(PAD)呈极显著正相关。富铁土中5～2,2～1,1～0.5mm团聚体经快速湿润(FW)、慢速湿润(SW)和预湿后扰动(WS)处理后,稳定性团聚体的粒级分布随处理方式和初始团聚体大小的不同而不同;经FW处理后,大多数团聚体崩解;团聚体崩解产物的MWD表现为FW相似文献   

长期施肥对红壤性水稻土团聚体稳定性及固碳特征的影响

施用有机肥是提高土壤有机碳(SOC)含量、促进土壤团聚体形成和改善土壤结构的重要措施。本研究旨在探讨长期作物残留和投入有机物料对水稻土团聚体分布及稳定性的影响,分析不同粒级团聚体的固碳特征及其与团聚体形成的相关性,以及土壤和不同粒级团聚体对累积碳投入的响应。长期定位施肥试验始于1986年,设不施肥(CK)、单施化肥(CF)、秸秆化肥混施(RS)、低量粪肥配施化肥(M1)和高量粪肥配施化肥(M2)5个处理。2009年采集0~10 cm土壤样品,测定总土以及大团聚体(LM,2 mm)、较大团聚体(SM,0.25~2 mm)、微团聚体(MA,0.25~0.053 mm)和黏粉粒(SC,0.053 mm)的质量比例及其SOC浓度,并分析闭蓄于SM内部的颗粒有机物(POM)、微团聚体(MA-SM)和黏粉粒(SC-SM)的质量含量和SOC浓度。结果表明,与CK和CF比较,有机肥混施化肥处理(RS、M1和M2)均显著提高了LM和SM的质量比例和平均当量直径(MWD),降低了SC质量含量;两个粪肥配施化肥处理(M1和M2)的效果优于秸秆化肥混施(RS),但是M1和M2间差异不显著;单施化肥则降低了稳定性团聚体的比例。团聚体的SOC浓度没有随粒级增大而增加,各处理均为LM和SM结合的SOC浓度最高,其次为SC,最小为MA。与CK比较,有机肥混施化肥处理均显著提高了各粒级团聚体的SOC浓度。总土SOC的增加主要取决于SM的SOC含量,而MA-SM组分决定了SM固持SOC的能力。总土、LM和SM的SOC含量以及从SM分离出的POM、MA-SM和SC-SM的SOC含量均与累积碳投入量呈显著正相关,但总土分离出的MA和SC的SOC含量对累积碳投入量反应不敏感,表现出碳饱和迹象。因此,尽管长期大量施用有机物料促进了红壤性水稻土大团聚体的形成和团聚体稳定性,增加了其SOC的固持,但有机质可能不是该土壤水稳性团聚体形成的最主要黏结剂。     

Effects of organic matter and calcium on soil structural stability

The cationic bridging effect of the calcium ion (Ca²⁺) and the flocculating ability of clay and organic matter are crucial in the formation and stability of soil aggregates. They are therefore likely to influence the soil's saturated hydraulic conductivity ( K _s). We tested the individual effects of these factors on aggregate stability and related hydraulic properties, and studied the influence of clay mineralogy also. Samples from the surface (0–10 cm) of three contrasting soils in Trinidad were used. The soils were treated with three levels of Ca²⁺ and three levels of organic matter in a 3 × 3 × 3 factorial design and incubated for 14 days. Both aggregate stability and saturated hydraulic conductivity were influenced by all factor combinations. Interactions between soil type and Ca²⁺ revealed the importance of polyvalent cations in aggregate stability of soils with low activity minerals. The influence of organic matter varied with quantity; the more there was, the more stable the soil became, particularly in the soil containing little clay. Clay dispersion and slaking of expanding minerals occurred even with large additions of Ca²⁺ and organic matter, emphasizing the overall influence of mineralogy in determining the response of soils to stability treatments.     

浙南易蚀土壤的团聚体稳定性及其稳定机理

土壤团聚体的数量和稳定性是衡量土壤质量和可蚀性的重要指标。应用常规湿筛法和Le Bissonnais法测定了紫砂岩母质发育的柑橘园土壤团聚体稳定性,分析了土壤团聚体稳定性与胶结物质组成的关系。结果表明,供试土壤团聚体稳定性差异较大,湿筛法测定的水稳性团聚体MWD在0.75～3.49mm,MWD干筛-湿筛为0.15～2.89mm;Le Bissonnais法测定的水稳性团聚体平均MWD为1.57～3.12mm,其平均MWD与湿筛法测定的0.25mm团聚体含量、MWD、5～2mm团聚体破坏率和MWD干筛-湿筛呈极显著相关,表明两种方法测定的结果具有可比性;5～2mm土壤团聚体经快速湿润(FW)、慢速湿润(SW)和预湿后扰动(WS)3种处理后,团聚体崩解产物的MWD表现为FWSWWS,团聚体崩解产物的粒级分布随处理方式不同而不同,经快速湿润处理后,大多数团聚体崩解,崩解成较小粒径的水稳性团聚体,表明崩解的主要机制是由于团聚体内部的闭塞空气产生的压力引起的;土壤团聚体的稳定性指标与黏粒和游离氧化铁含量呈显著正相关,而有机质主要影响水稳定性团聚体的数量,它与土壤中MWD呈极显著正相关。     

不同土地利用方式对岷江流域土壤团聚体稳定性及有机碳的影响

采用湿筛法测量了岷江流域不同土地利用方式下不同土层（0—10,10—20,20—30 cm）土壤大团聚体（> 2 mm）、中间团聚体（0.25~2 mm）、微团聚体（53 μm~0.25 mm）以及粉+黏团聚体（<53 μm）的质量分数及各粒径团聚体中的有机碳含量,并探讨了各粒径土壤团聚体的有机碳储量。结果表明,土地利用方式对土壤团聚体稳定性及其有机碳具有重要影响;土壤养分均呈现出一致性规律,大致表现为撂荒地 > 次生林 > 人工林 > 灌草丛 > 坡耕地,土壤全磷差异并不显著（p>0.05）;林地的开垦行为会导致大团聚体的破碎化,灌草丛及坡耕地>0.25 mm的大团聚体含量较林地低,土壤结构趋于恶化;而坡耕地闲置为撂荒地后,则会促使粉+黏团聚体向粒径大的微团聚体及中间团聚体转化,使土壤结构趋于改善,在0—30 cm土层内,灌草丛及坡耕地土壤颗粒的MWD（平均质量直径）和GMD（几何平均直径）值均显著低于林地和撂荒地（p<0.05）,坡耕地撂荒后,MWD和GMD值均显著升高（p<0.05）,表明林地开垦为坡耕地导致土壤团聚体的稳定性降低,而坡耕地弃耕撂荒会增强团聚体的稳定性,提高土壤抵抗外力破坏的能力。不同土地利用方式下各粒径土壤团聚体有机碳含量均随土层深度的增加而降低。在0—30 cm土层深度内,不同土地利用方式下各粒径土壤团聚体有机碳储量表现为:大团聚体有机碳储量为林地 > 撂荒地 > 灌草丛 > 坡耕地,中间团聚体有机碳储量为撂荒地 > 林地 > 灌草丛 > 坡耕地,微团聚体有机碳储量为撂荒地 > 林地 > 灌草丛 > 坡耕地;粉+黏团聚体有机碳储量为撂荒地 > 林地 > 灌草丛 > 坡耕地。各粒径土壤团聚体内有机碳储量均为林地和撂荒地高于果园和坡耕地,表明将林地开垦为坡耕地后,将导致各团聚体组分内有机碳的损失,而坡耕地撂荒则有助于土壤有机碳的恢复和截存;林地和撂荒地土壤有机碳主要蓄积在中间团聚体内,而坡耕地则主要蓄积在粉+黏团聚体内,表明在土地利用变化过程中,粒径较大的团聚体有机碳不稳定,更容易发生变化。     

The influence of organic matter on aggregate stability in some British soils

The stability of aggregates from 26 soils selected from agricultural areas was measured by wet-sieving and the results correlated with sand, silt, clay, nitrogen, organic matter and iron contents and with cation exchange capacity. Highly significant correlations were obtained for the relationships between aggregate stability and organic matter and some properties associated with it. No other soil constituent investigated had a significant relationship with aggregate stability, indicating that organic matter is mainly responsible for the stabilization of aggregates in these soils. The relationships between aggregate stability, and organic matter content plus some of its component fractions were examined in more detail using 120 soils. Total organic matter, total carbohydrate and humic material extracted by various reagents each gave highly or very highly significant correlations with aggregate stability. However, whilst it was not possible to distinguish whether any one organic component was more important than another, the results indicate that soil organic matter levels can be used diagnostically to identify soils which may show problems of structural instability.     

苎麻对红壤旱地土壤团聚体及其特性的影响

采用干、湿筛法研究了种植苎麻和花生对红壤旱地土壤团聚体及其特性的影响,并比较分析了土壤团聚体及土壤理化性质与地表径流和土壤侵蚀量的关系。结果表明:(1)与花生地相比,苎麻地有机质、田间持水量、总孔隙度、沙粒分别升高了28.44%,10.06%,5.65%和53.13%,土壤容重、粉粒和黏粒则分别降低了7.20%,14.85%和34.95%,均达显著性差异水平(p0.05)。(2)团聚体平均重量直径(MWD)、稳定性指数(ASI)显著升高(p0.01),苎麻地土壤团聚体稳定性优于花生地;(3)两处理均以0.25~1mm粒径团聚体保存几率最大,抗水蚀能力最强。(4)地表径流量和土壤侵蚀量与土壤有机质、沙粒含量、1mm的干团聚体、0.5mm的水稳性团聚体、MWD以及ASI呈极显著负相关关系(p0.01),而与粉粒、黏粒、0.25mm干团聚体、0.053mm的水稳性团聚体、呈极显著正相关关系(p0.01)。     

Aggregation and carbon storage in silty soil using physical fractionation techniques

Soil texture and degree of aggregation affect the stabilization of organic matter. We studied their influences in silty soils using samples from two field experiments with contrasting long‐term use (cropped versus bare fallow). The cropped soil had a larger organic C content than the bare fallow, and allowed us to compare a soil with pools of organic C differing in turnover time with a soil dominated by the passive organic C pool. Increasingly dispersive treatments applied to the soils yielded aggregates of various sizes, stabilities, and organic matter contents. We found an intimate interaction between soil structure and organic matter by demonstrating that aggregation is hierarchical and that active pools of organic matter are responsible for this hierarchy. Microaggregates were found to consist of a constant ratio of clay to silt particle‐size fractions. We propose that such a property be used to estimate true microaggregation and aggregate stability by estimating the amount of soil material dispersed by a given treatment. Organic matter associated with clay is confirmed as an important sink of long‐term stabilized C, and it appears to have been increasingly preserved when in increasingly larger aggregates. However, most of the soil mass and associated organic C is in smaller aggregates. We hypothesize that the physical protection within macroaggregates does not directly control long‐term stabilization of organic C in the soil, but rather contributes indirectly through the time and local conditions it offers for organic matter to gain chemical or physico‐chemical protection by interacting with the soil environment.     

Effects of iron and organic matter on the porosity and structural stability of soil aggregates

Knowledge of the soil components controlling aggregate formation and stability is fundamental to the conservation of soil structure. In this work, the effects of Fe and organic matter (OM) on the porosity and structural stability of aggregates <4 mm of two cropped soils from Galicia (NW Spain) were determined. Porosity was estimated directly, by mercury intrusion porosimetry, and indirectly, from moisture characteristic and shrinkage curves. The three porosities obtained were similar and indicated that Soil 1, with the highest Fe and OM contents, had lower total porosity and a wider pore-size distribution than Soil 2. As regards structural stability, Hénin and Monnier's test, simulated rainfall and dispersion experiments, and determination of textural tensile strength all indicated Soil 1 to be the more stable soil. Oxidation of OM and selective extraction of Fe, which were most concentrated in the clay and silt fractions, indicated both these components to be important soil aggregants. It is suggested that the higher content of Soil 1 in Fe and OM is responsible for its greater stability.     

盐化和有机质对土壤结构稳定性及阿特伯格极限的影响

对甘肃景电灌区盐化和有机质对土壤团聚体的稳定性、黏粒的分散性及阿特伯格极限进行了调查研究。研究结果表明该灌区盐化土壤中水溶性盐以钠盐为主,土壤具有钠质现象。随含盐量和交换性钠离子百分率（ESP）的增加土壤团聚体的稳定性显著降低,黏粒的分散性显著增加,阿特伯格极限具有降低的趋势,明确地说明盐化和伴随着的钠质化是土壤结构性能退化的主要原因。随有机质含量的增加,土壤团聚体的稳定性显著增加,黏粒的分散性显著降低,阿特伯格极限显著增加,说明增加有机质含量可以显著改善盐化土壤的结构性能。可以根据如下公式利用有机质含量（OM）和ESP预测团聚体的稳定性:WSAR=19.4 0.98OM-1.43 ESP（R2=0.5741,n=67）。团聚体稳定性、黏粒分散性、流限和塑限互相之间显著相关,说明流限和塑限可以作为反映盐化土壤结构状况的指标。     

Role of soil organic matter in stabilization of water-stable aggregates in Soils under different types of land use

Three Andosols (used as grassland, upland field, and paddy field) and two Gray Lowland soils (used as upland field and paddy field) were examined to study the role of organic matter in the stabilization of soil aggregates. It was found that prolonged use of Andosols as grassland or as upland field enabled to maintain a higher level of soil organic carbon than use as paddy field. However, paddy soil exhibited a greater aggregate stability (determined by wet-sieving procedure) than soil under upland field or grassland management. Comparison between two Gray Lowland soils also showed that aggregates in the paddy soil were more stable than in the upland field soil. Among organic constituents examined (such as sodium pyrophosphate (SPP)-extractable organic matter and carbohydrates), only the contents of hot water (HW)-extractable carbohydrates of the soils were significantly correlated with aggregate stability. Paddy soils which showed a greater aggregate stability contained a larger amount of HW -extractable carbohydrates in the soils, and a larger amount of HW -extractable carbohydrates regardless of the size of their aggregates compared with other soils. These findings suggest that HW -extractable carbohydrates which represents easily decomposable organic materials may be of special importance for the stabilization of aggregates in the soils.     

Aggregate Stability and Its Relationship with Some ChemicalProperties of Red Soils in Subtropical China

The stability of aggregates in the surface soil is crucial to soil erosion and runoff generation. Thus, to understand the stability and the breakdown mechanisms of soil aggregates as well as the relationship between aggregate stability and selected soil chemical properties, such as different forms of Fe and A1 oxides, organic matter, CEC and clay content, the aggregates of slightly and severely eroded red soils derived from Quaternary red clay in subtropical China were analyzed using the routine wet sieving and the Le Bissonnais methods. The results indicated that the aggregates of the severely eroded soils were more stable than those of the slightly eroded soils. Different aggregate breakdown mechanisms resulted in different particle size distribution. The slaking from entrapped air in aggregates severely destroyed the soil aggregates,especially in the slightly eroded soils. Meanwhile, mechanical breakdown and microcracking had little effect on the aggregates compared to slaking. The fragments resulting from slaking were mainly microaggregates that increased in size with increasing clay content. The main fragment size of the slightly eroded soils was 1.0-0.2 mm, while for the severely eroded soils it was 5.0-2.0 mm and 1.0-0.5 mm. Overall, more than 20% of the fragments were smaller than 0.2 mm.In addition, aggregate stability was positively and often significantly correlated with Fed, Ald, Feo and clay content, but significantly and negatively correlated to SOC.     

Aggregate strength and mechanical behaviour of a sandy loam soil under long-term fertilization treatments

Current concern for soil quality has stimulated research on soil biological and chemical properties. In contrast, the mechanical behaviour of soil is somewhat neglected. We have examined the effects on soil mechanical properties of more than 100 years of contrasting fertilization employing three treatments from the Askov long‐term experiment: UNF (unfertilized), NPK (mineral fertilized) and AM (animal manured). We have measured tensile strength of aggregates when air‐dry and when adjusted to ?10, ?30 and ?100 kPa pressure potential. Four aggregate size classes were investigated (1–2, 2–4, 4–8 and 8–16 mm diameter). Soil fragmentation was characterized in the field using a drop‐shatter test. Bulk soil strength was determined in the field using a shear vane and a torsional shear box. Soil texture, pH, cation exchange capacity and microbial biomass were measured. The unfertilized soil has little soil organic matter and microbial biomass and is dense. Its aggregates were strong when dry and weak when wet. In contrast, the manured soil had strong aggregates when wet and rather weak ones when dry. The NPK soil generally had intermediate properties. The differences between the soils when dry seem to be related to differences in dispersible clay content, whereas the differences when wet are related to differences in the amount of organic binding and bonding material. The optimal water content for tillage as well as the tolerable range in water content was largest in the manured soil and smallest in the unfertilized soil. Our results indicate that soil mechanical properties should be measured over a range of water regimes to determine the effects of various long‐term fertilization treatments.     

湘东地区典型土壤团聚体稳定性的影响因素

[目的]揭示湘东地区土壤团聚体的分布规律及其影响稳定性因素,为研究南方土壤团聚体胶结机制提供一定的理论依据。[方法]在湘东地区选择3种常见成土母质(第四纪红土、花岗岩风化物、板岩风化物)上发育的典型自然林地、水田与旱地,采集表层土壤(0—20cm)与底层土壤(40—60cm),利用湿筛法测定土壤水稳性团聚体组成。[结果]土地利用方式、母质类型及土层部位显著影响土壤团聚体的组成及稳定性,且它们的交互作用也非常明显。不同利用方式下土壤团聚体稳定性总体表现为:水田林地旱地;但利用方式对团聚体稳定性的影响仅局限于表层土壤,同时在花岗岩风化物发育质地较砂的土壤上表现不明显。不同母质间土壤团聚体稳定性呈现出如下规律:第四纪红土板岩风化物花岗岩风化物,但表层土壤或旱地、林地利用下该规律不甚明显。同时,表层土壤团聚体稳定性一般要显著高于底层土壤,但对于第四纪红土发育质地较为黏重的土壤或水田利用方式下并非如此。[结论]成土母质、利用方式、土层部位通过对土壤质地、有机质、氧化物等的影响间接影响着湘东地区土壤团聚体的分布。     

中国亚热带红壤团聚体稳定性与土壤化学性质的关系

The stability of aggregates in the surface soil is crucial to soil erosion and runoff generation. Thus, to understand the stability and the breakdown mechanisms of soil aggregates as well as the relationship between aggregate stability and selected soil chemical properties, such as different forms of Fe and Al oxides, organic matter, CEC and clay content, the aggregates of slightly and severely eroded red soils derived from Quaternary red clay in subtropical China were analyzed using the routine wet sieving and the Le Bissonnais methods. The results indicated that the aggregates of the severely eroded soils were more stable than those of the slightly eroded soils. Different aggregate breakdown mechanisms resulted in different particle size distribution. The slaking from entrapped air in aggregates severely destroyed the soil aggregates, especially in the slightly eroded soils. Meanwhile, mechanical breakdown and microcracking had little effect on the aggregates compared to slaking. The fragments resulting from slaking were mainly microaggregates that increased in size with increasing clay content. The main fragment size of the slightly eroded soils was 1.0-0.2 mm, while for the severely eroded soils it was 5.0-2.0 mm and 1.0-0.5 mm. Overall, more than 20% of the fragments were smaller than 0.2 mm. In addition, aggregate stability was positively and often significantly correlated with Fe_d, Al_d, Fe_o and clay content, but significantly and negatively correlated to SOC.     

施用秸秆对土壤有机碳组成和结构稳定性的影响

在室内条件下培养 6个月时随秸秆添加量的增加 ,土壤中总有机碳 (TOC)、焦磷酸钠提取有机碳 (SPPC)、水解碳水化合物 (HDC)、热水提取碳水化合物 (HWC)的含量和水稳性团聚体含量极显著增加 ,粘粒分散率除一个盐土土样外其余 3个土样显著降低。虽然玉米秆和小麦秆分别对TOC、SPPC、水稳性团聚体和粘粒分散性的影响之间没有显著差异 ,但是有小麦秆处理比玉米秆处理HDC和HWC含量高的趋势。TOC、SPPC、HDC和HWC分别与水稳性团聚体显著正相关 ,与粘粒分散率显著负相关 ,但总体而言 ,HWC与团聚体的稳定性更相关 ,HDC和粘粒的分散性更相关。     

Soil structure and microbial activity dynamics in 20‐month field‐incubated organic‐amended soils

Soil structure formation is essential to all soil ecosystem functions and services. This study aims to quantify changes in soil structure and microbial activity during and after field incubation and examine the effect of carbon, organic amendment and clay on aggregate characteristics. Five soils dominated by illites, one kaolinitic soil and one smectitic soil were sieved to 2 mm, and each soil was divided into two parts and one part amended with ground rape shoots (7.5 t ha^?1) as an organic amendment. Samples were incubated in the field for 20 months with periodic sampling to measure water‐dispersible clay (WDC) and fluorescein diacetate activity (FDA). After incubation, WDC and FDA were measured on air‐dried 1–2‐mm aggregates. Tensile strength was measured on four aggregate classes (1–2, 1–4, 4–8 and 8–16 mm) and results used to assess soil friability and workability. Intact cores were also sampled to determine compressive strength. During incubation, the amount of WDC depended on soil carbon content while the trends correlated with moisture content. Organic amendment only yielded modest decreases (mean of 14% across all sampling times and soils) in WDC, but it was sufficient to stimulate the microbial community (65–100% increase in FDA). Incubation led to significant macroaggregate formation (>2 mm) for all soils. Friability and strength of newly‐formed aggregates were negatively correlated with clay content and carbon content, respectively. Soil workability was best for the kaolinite‐rich soil and poorest for the smectite‐rich soil; for illitic soils, workability increased with increasing organic carbon content. Organic amendment decreased the compression susceptibility of intact, incubated samples at smaller stress values (<200 kPa).     

土壤原始颗粒对不同破碎机制下团聚体稳定性的影响

土壤团聚体是土壤结构的基本单元,其稳定性是描述土壤抵抗外力破坏作用的重要指标。目前常用的团聚体测定方法很少考虑到土壤原始颗粒对其不同破碎机制下稳定性的影响。以两种不同质地团聚体特征差异明显的壤质砂土和砂质黏壤土为研究对象,对土壤全样进行快速湿润(FW)、预湿润后震荡(WS)以及慢速湿润(SW)三种处理方式预处理以研究团聚体不同破碎机制,同时考虑将各粒级团聚体中的土壤原始颗粒剥离出来,消除土壤原始颗粒对各粒级团聚体含量结果的影响,研究土壤原始颗粒对不同破碎机制下团聚体稳定性的影响。结果表明:两种土壤在不同处理方式下,各粒级土壤含量存在较大差异,砂质黏壤土在三种处理模式下平均质量直径(MWD)均显著大于壤质砂土,两种土壤MWD均呈现MWD_(fw)MWD_(ws)MWD_(sw)的大小顺序,两种土壤团聚体破坏均是团聚体快速湿润时孔隙内部封闭的空气压力作用为主,其次是机械扰动作用,黏粒膨胀作用影响最小。土壤原始颗粒对各粒级团聚体的影响程度受到土壤类型和破碎机制影响,土壤原始颗粒对壤质砂土影响较大,对砂质黏壤土的影响相对较小。分散前的团聚体(0.05 mm)占总土壤的百分比(AR)值难以正确反映土壤团聚体稳定性,消除土壤原始颗粒影响后,AR能够较好体现土壤团聚体稳定性。消除土壤原始颗粒影响前后的AR比值表明土壤原始颗粒对壤质砂土的影响远远大于对砂质黏壤土的影响。