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1.
Primary particle size distribution of eroded material affected by degree of aggregate slaking and seal development 总被引:1,自引:0,他引:1
D. N. Warrington A. I. Mamedov A. K. Bhardwaj & G. J. Levy 《European Journal of Soil Science》2009,60(1):84-93
Primary particle size distribution (PSD) of eroded sediment can be used to estimate potential nutrient losses from soil and pollution hazards to the environment. We studied eroded sediment PSDs from three saturated soils, packed in trays (20 × 40 × 4 cm), that had undergone either minimal aggregate slaking (MAS) or severe aggregate slaking (SAS) prior to a 60 mm simulated rainstorm (kinetic energy, 15.9 kJ m−3 ; droplet diameter, 2.97 mm) and collected runoff at regular intervals. The degree of aggregate slaking was controlled by the rate at which soils were wetted to saturation. The PSDs of eroded materials and of parent soils were determined using a laser particle size analyser. For each soil, PSD frequency curves of eroded sediments and parent soils were generally of a similar shape but most eroded sediments had larger clay contents than their parent soils. In the SAS treatment, cumulative clay enrichment in the eroded materials was inversely related to the parent soil clay content, these being 28.5, 26.6 and 22.8% richer in clay than their parent soils for the loam, sandy clay and clay, respectively. Generally, total clay loss was greater from soils with SAS than from those with MAS because of erosion rates; however, clay enrichment of sediments, compared with parent soil clay contents, was mostly greater in samples with MAS. Greater clay enrichment took place during the early seal development stage in the loam, but could not readily be associated with specific stages of seal development for the clay. In the sandy clay, the relation between seal development and clay enrichment in the eroded material depended on the initial degree of aggregate slaking. The observed large preferential loss of clay by erosion in cultivated soils re-emphasizes the need to employ erosion control measures. 相似文献
2.
For this study thin sections have been prepared of natural and artificial sands mixed with 20% and 40% clay. These and other samples had already been examined using soil physical and soil mineralogical methods for loose samples. Initial thin section studies, with the help of the light microscope alone, have been enlarged upon in this investigation using backscattered electron scanning images and an image analyzer (Quantimet 720). This allowed quantitative information to be obtained on the development of different types of soil porosity patterns using various clay admixtures. Information was also obtained on the influence the form of mineral grains had on the shape of pores in the mixtures of sand and clay. It was also possible to obtain quantitative information on the amount of clays and larger mineral grains in the thin sections. Much of the present data cannot be obtained automatically but must be manually controlled by using the image editor of the Quantimet. This type of work, however, may provide basic data which can subsequently be used to help explain various processes which occur in soils. 相似文献
3.
The amounts of clay visible in four thin sections from paleosol horizons (clay contents 9–32%) were measured by point counting. These sections were used as references for visual estimates, without point counting, of the amounts of clay in 14 further sections. The measurements and estimates were recorded on pore-free and gravel-free bases so they could be related to gravimetric analyses. Amounts of clay measured and estimated by area in these thin sections were between 1.6 and 3.1 times those determined gravimetrically. The reasons for these differences are discussed. Firstly, clay in soil thin sections contains much pore space beyond the resolution of the optical microscope and has an apparent density dependent on the amount of submicroscopic pore space. An edge effect also causes over-estimation of clay in soil thin sections and under-estimation of visible pore space. Components (clay, mineral grains, pores) are usually sloped at their borders with each other within the standard 25–30 μm (three-dimensional) thin sections. Clay, for instance, may overcap a pore at its border, hiding some pore space. The need for true two-dimensional images of soil pore patterns in image analysis is indicated. A nomogram has been constructed, using apparent density, to allow estimation of clay in thin sections of soils with any clay content. Coarse/fine ratios can be determined more accurately and estimates of clay can also be recalculated to provide illuvial to total clay ratios that are more meaningful. It is recommended that the micromorphological identification criterion for the argillic horizon be reassessed and that 4% illuvial to total clay in a soil thin section be adopted as the diagnostic cut-off. 相似文献
4.
湖北省土壤的地理分布有明显的南北过渡的特点。长期以来,由于土壤调查手段的限制和分类诊断指标不齐全,迄今不仅对土壤分类命名有争议,而且对土壤分布界线也无定论[1-3]。随着全国、全省土壤普查成果资料汇总工作的需要,急待研究与确定我省境內的土壤类型及其分布界线。遥感图象具有宏观性、多时间性、多波段性、综合性等特点,为客观地解译土壤类型和分布界线提供了科学手段。近年来国内已开展这方面的工作[4-7]。本研究旨在应用卫片的宏观性,解译我省境内红壤、黄棕壤、黄褐土的地理分布,并提出核查验证的土壤分类诊断指标。 相似文献
5.
罗浮山土壤发生特性与系统分类研究 总被引:1,自引:1,他引:0
为了解我国南亚热带山地土壤的发生特性及其在中国土壤系统分类中的归属,以罗浮山不同海拔高度的10个代表性剖面为研究对象,分析土壤发生特性,确定诊断层和诊断特性,对土壤进行系统分类,并在高级分类单元级别上进行了中国土壤系统分类、美国土壤系统分类和世界土壤资源参比基础之间的参比研究。研究表明:土壤干态色调主要为10YR,质地属壤土大类,粉黏比为0.42 ~ 2.62,多数剖面土壤粉黏比小于1.0;土壤酸性强(水浸提pH 3.69 ~ 4.94),CEC为4.43 ~ 25.68 cmol (+) kg?1,盐基饱和度(2.27% ~ 16.25%)低,交换性酸(1.35 ~ 6.41 cmol (+) kg?1)以交换性Al3+为主,多数土层铝饱和度超过了80%;土壤矿质元素以Si、Al、Fe为主,黏粒硅铝率(Sa)、黏粒硅铁铝率(Saf)均小于2.0,各剖面B层Al、Fe、P、Ti在黏粒中富集明显,Fe富集率稍大于Al;在土壤垂直带谱上,湿润富铁土一般分布于800 m以下,常湿富铁土介于800 ~ 1200 m,常湿雏形土在1200 m以上。罗浮山土壤具有明显的脱硅富铁铝化特性,具有有机碳累积明显、酸性强、盐基饱和度低、铝饱和度高等特点;归属为2个土纲、3个亚纲、4个土类和6个亚类。 相似文献
6.
M.F. O'SULLIVAN D.J. CAMPBELL D.R.P. HETTIARATCHI 《European Journal of Soil Science》1994,45(3):249-256
Critical state parameters were determined in constant cell volume triaxial tests on three remoulded agricultural topsoils, a sandy loam, a clay loam and a clay. Tests were made at a range of water contents. The normal consolidation lines tended to be linear on a semi-logarithmic plot up to a degree of saturation of c. 0.85, above which the soil was incompressible but highly deformable. The slopes of the projected critical state lines were slightly greater than the slopes of the normal consolidation lines for all three soils. For each soil, both lines pivoted about a point as water content increased and, for the two lighter-textured soils, the increases in compactibility tended to be greatest near the plastic limit. For all three soils, strength remained fairly constant with increasing water content until the soil was at around 70-85% of the cone penetrometer plastic limit. Strength then decreased with increasing water content, with the smallest decrease in the sandy loam. 相似文献
7.
Tania Khandakar Chris Guppy Matthew Tighe Sheikh M. F. Rabbi Heiko Daniel 《Communications in Soil Science and Plant Analysis》2017,48(15):1772-1780
The concept of carbon (C) saturation implies that soils have a finite capacity to store C in a stable form, depending on their silt + clay content. We hypothesized that the stabilization of added organic C would be low in C saturated soil. We tested experimentally the influence of C saturation deficit on stabilization of added grass residue. We incubated 12 highly weathered, oxic soil samples collected from three contrasting land uses (i.e. cropping, improved pasture, and forest) with grass residue for 8 months. Carbon saturation deficit of the forest soils was lower than pasture and cropping soils. After incubation, we found increases in silt + clay associated C in grass residue treatment positively correlated with C saturation deficit of soils. Our results suggest that stabilization of added C was high in soil with low C saturation level and hence higher C saturation deficit. 相似文献
8.
本文研究了皖南山地主要土壤的特征和分类。结果表明,本区土壤风化和淋溶作用强,富铝化特征明显,且随海拔高度的增加,土壤特征有差异。海拔600-700m以下的土壤,B层颜色以红棕色和亮红棕色(5YR5/6-5/8)为主,粉砂/粘粒值小于1.00,风化淋溶系数小于0.35,盐基饱和度小于35%,粘粒SiO2/Al2O3多小于2.4。粘粒矿物以高岭石为主。氧化铁的活化度和络合度低,表层HA/FA小于0.35。该类土壤定为黄红壤(红壤土类中的一个亚类)。海拔600-700m以上的土壤,B层颜色以黄色(2.5Y8/6)和亮黄棕色(10YR6/6-6/8)为主,粉砂/粘粒值大于1.00,风化淋溶系数大于0.35,盐基饱和度小于35%,粘粒SiO2/Al2O3一般大于2.3。粘粒矿物以蛭石和高岭石为主,并有较多的三水铝石出现。氧化铁的活化度和络合度高,表层HA/FA值0.35-0.75。该类土壤定为黄壤。从粘粒矿物组成和SiO2/Al2O3,判断,皖南山地上部不存在山地黄棕壤和山地棕壤。土壤垂直带谱主要由黄红壤和黄壤构成。 相似文献
9.
The relation between soil suction, degree of saturation, and the air and water permeabilities is experimentally investigated for two clay soils. Marked hysteresis can exist between saturation and permeability, but does not follow a unique trend. Thus permeability can be greater on a wetting or drying cycle depending on the structure of the clay soil. This behaviour is considered in terms of the cluster concept of soil structure, and it is concluded that any general theory of hysteresis must recognize both the macrostructure and microstructure of a soil. 相似文献
10.
Texture is one of the major criterions in soil classification, probably because it has a decisive influence on soil properties. This is particularly true for volcanic ash soils. Most ashes are largely composed of sand and silt particles with little clay (11, 15). The ash weathers very rapidly (1), and clay site particles less than 2 microns in diameter occur even within a few months, as shown by Ishii at the authors' laboratory. Those clay size particles produced in the early stage of weathering are slightly weathered ones (2), and are still subject to rapid weathering, losing bases and silica under humid and well drained conditions. In consequence the clay fraction of volcanic ash soils is composed of particles which vary in degree of weathering from slightly altered glass and feldspar to true clay mineraloids and minerals. The clay fraction of younger soils as a whole is less and that of older ones is more weathered. Weathering brings a remarkable change in the properties of volcanic ash soils; for example, an inerease in soil acidity, lowering of base saturation and bulk density, or accumlation of organic matter. These changes must exert a great influence on soil fertility directly or indirectly. 相似文献
11.
The effect of three microbial dextrans of defined molecular weight, on shrinkage and porosity inside clods has been studied on two Italian clay soils, a Fluvisol and a Vertisol. Shrinkage was determined on dried soil samples using an electro-optical apparatus. The same apparatus was also used to measure porosity and pore size distribution inside the clods. For this purpose large thin sections were prepared from cracked soil samples after shrinkage measurements. Dextrans influenced shrinkage and the size distribution of clods and cracks in the two soils. The major effect was found in the Fluvisol where the arrangement of cracks was changed visibly. The dextrans caused a marked increase in total porosity in the Fluvisol but had only a small effect in the Vertisol. In both soils the pore size distribution was changed resulting in a greater number of larger pores in the dextran treated samples. 相似文献
12.
《Communications in Soil Science and Plant Analysis》2012,43(3):279-293
Abstract Testing three imperfectly drained forest soils (Alfisols and Ultisol) by nine methods showed that cation exchange capacities were highly pH dependent. Adding lime increased CEC values obtained by buffered and unbuffered methods but decreased CEC values when total bases were added to total acidity or salt replaceable acidity. No method tested completely explained the change in CEC caused by liming. Fractionation of the whole soil CEC Indicated an appreciable masked charge caused by an apparent complexing of amorphous metal oxides with clay or organic matter. In both buffered and unbuffered solutions, calcium saturation usually gave higher CEC values than monovalent ion saturation. 相似文献
13.
《Communications in Soil Science and Plant Analysis》2012,43(15):2046-2057
In this study, four soil extraction methods (Olsen, Soltanpour, Mehlich 3, and water saturation) were used to identify optimal concentrations of phosphorus (P) required for plant growth. Olsen soil extraction for P was the most appropriate method for soil types of this study as the greatest correlation coefficient for soil-test P and with plant factors was achieved. The optimal amount of soil features (pH, organic carbon, lime, gypsum, and clay) determined by using response surface methodology (a new optimization method) were 7.49, 0.66, 41.82, 4.21, and 31.34, respectively. More soil P was extracted when the soil had optimal amounts of these features, showing each feature had a significant effect on extracted soil P. Furthermore, the graphical method of Cate–Nelson determined the optimal amounts of P using Olsen, Soltanpour, Mehlich 3, and saturation extract methods for wheat as 15, 6.5, 35, and 1.5 mg kg?1 soil in nongypsic soils and 17, 3.5, 45, and 2.5 mg kg?1 soil in gypsic soils. 相似文献
14.
One of the significant features of loess-derived soils in Kansas is the occurrence of clay-rich subsurface horizons above a layer enriched with pedogenic carbonates. In order to examine the extent of clay increase and pedogenic carbonate enrichment in a precipitation gradient, ten soil profiles from three different precipitation regions were studied using micromorphological and mineralogical techniques. The precipitation gradient was divided into three groups: 400–550 mm, 550–750 mm, and 750–1100 mm regions. The objectives were to (1) understand the cause of clay orientation in clay-rich horizons (2) investigate the reasons for the clay increase, and (3) observe the interaction of clay and pedogenic carbonate accumulation features along a precipitation gradient in Kansas. Although clay films were identified in the field for soils in the 400–550 mm regions, illuvial clay films were not observed in thin section analysis. The clay accumulations mostly occurred as grain coatings. The rest of the clay accumulations observed were very thin, striated, and mostly associated with voids. The argillic horizons had a granostriated b-fabric, which indicates stress orientation of micromass caused by high shrink–swell activity. Thick and continuous illuvial coatings were observed in the buried horizons of paleosols. In the other two regions where precipitation exceeds 550 mm, illuvial clay coatings with strong orientation were observed along with thin and striated stress-oriented clay. Both types of clay orientations exceeded 1% of the cross-sectional area for the thin section. Although illuvial clay features and pedogenic carbonates were observed in all soils at approximately the same depth, complete obliteration of clay coatings was not observed in these horizons. In-situ weathering of biotite was one of the reasons for the clay increase in all soil profiles. In all soils studied, the clay increase and cause of clay orientation cannot be attributed to a single genetic process or event. Both illuviation and shrink–swell activity were involved in the orientation of clay. Although orientation of clay and pedogenic carbonates were observed in all soils at approximately the same depth, the decomposition of clay coatings was not observed in these horizons. 相似文献
15.
再生水盐分在亚热带不同土壤中的迁移特性及其差异 总被引:5,自引:3,他引:2
为了合理评价再生水灌溉盐分对土壤环境的影响,分析盐溶液淋溶亚热带土壤流出液盐分变化规律及其对土壤化学性质的影响差异,该文采用定水头入渗法,模拟不同浓度钠盐溶液淋溶黏性潮土、沙性潮土、红壤、紫色土、水稻土等5种亚热带地区土壤,并观测土壤流出液电导率(EC)和pH值的差异。试验结果表明:1)高浓度盐溶液对黏粒含量较高的红壤、紫色土、黏性潮土的穿透能力弱于黏粒含量较低的水稻土和沙性潮土。同等浓度水平处理达到相同的穿透程度,酸性土壤(红壤、紫色土、水稻土)能承受更多的低质水量。2)盐分在土壤中的迁移速度主要由土壤理化性质决定,土壤黏粒含量、交换性铝含量会显著减缓盐分在土壤中的迁移能力,而土壤粉粒含量、EC、pH值以及交换性钙、镁含量会促进盐分在土壤中的迁移。盐分更容易穿透碱性土壤(黏性潮土和沙性潮土)而流出,碱性土壤流出液相对EC最大变化速率比酸性土壤高36%。基于Boltzmann函数拟合表明,入渗水盐浓度及土壤理化性质对模型参数有显著影响(P<0.05)。3)土壤化学性质受入渗液盐分浓度的影响程度不仅与土壤本身的化学性质有关,也与土壤质地中的粉粒、黏粒含量有极显著的关系(P<0.01)。各浓度盐溶液对碱性土壤的pH值影响不明显,对酸性土壤的pH值影响较大,其流出液pH值减少1.6~2.6个单位,其中红壤的pH值变化最大,其次为紫色土。入渗液EC高于4.77 dS/m的处理对土壤流出液的稳定pH值影响增幅不明显。因此,利用低质水灌溉时要依据土壤理化性质合理限定水中盐浓度。 相似文献
16.
Low soil organic carbon (SOC) levels in dry areas can affect soil functions and may thus indicate soil degradation. This study assesses the significance of SOC content in Mediterranean arable soils based on the analysis of a broad data set of 2613 soils sampled from Mediterranean grasslands and agricultural land. The distribution in values of SOC, pH, clay and carbonates was analysed according to different climatic areas (semi‐arid, Mediterranean temperate, Mediterranean continental and Atlantic) and with respect to six different land uses (grassland, cereal crops, olives and nuts, vineyards, fruit trees and vegetable gardens). The general trend was for low SOC in arable land and decreased with aridity. In wet areas (Atlantic and Mediterranean continental), acidic soils had a higher SOC content than did calcareous soils, whereas in the Mediterranean temperate area SOC had little relationship to soil pH. In low SOC arable soils, the SOC content was related to clay content. In calcareous arable soils of the Mediterranean temperate zone, SOC content was more closely related to carbonates than to clay. In contrast to the Atlantic area, Mediterranean grassland soils had much lower amounts of SOC than forest soils. Mediterranean calcareous and temperate acidic soils under grassland had SOC‐to‐clay ratios similar to or only slightly greater than that under a crop regime. In contrast, Mediterranean continental acidic soils under grassland had a much higher SOC‐to‐clay ratio than arable soils. This suggests a low resilience of the Mediterranean temperate and calcareous arable soils in terms of SOC recovery after the secession of ploughing, which may be a result of intensive use of these soils over many centuries. Consequently, we hypothesize that the Mediterranean calcareous soils have undergone significant changes that are not readily reversed after ploughing ceases. Such changes may be related to alterations in soil aggregation and porosity which, in turn, are associated with soil carbonate dynamics. Decarbonation processes (the depletion of active carbonates) may therefore be relevant to the reclamation of highly calcareous arable soils through fostering soil re‐aggregation. The article concludes by discussing the suitability of zero tillage, manuring or the introduction of woody species to increase SOC in calcareous arable soils that are highly depleted of organic matter. 相似文献
17.
利用X射线衍射法估算了福建省221个土壤样品中粘粒云母含量并讨论了与粘粒云母含量变化有关的因素。结果表明母质是影响粘粒云母含量的主要因素。海积物、河积物及页岩上发育的土壤粘粒云母含量一般较高;基性岩上发育的土壤粘粒云母含量一般较低。风化度较高的赤红壤、红壤、黄红壤和黄壤等土类的粘粒云母含量一般较低。风化度较低的C层的粘粒云母含量一般较B层和A层高,但异源母质的堆积可以使A层粘粒云母含量高于B层和C层。 相似文献
18.
Physical resilience of soil to field compaction and the interactions with plant growth and microbial community structure 总被引:1,自引:0,他引:1
A. S. Gregory C. W. Watts W. R. Whalley H. L. Kuan B. S. Griffiths P. D. Hallett & A. P. Whitmore 《European Journal of Soil Science》2007,58(6):1221-1232
Soil compaction has deleterious effects on soil physical properties, which can affect plant growth, but some soils are inherently resilient, whereby they may recover following removal of the stress. We explored aspects of soil physical resilience in a field‐based experiment. We subjected three soils of different texture, sown with winter wheat or remaining fallow, to a compaction event. We then monitored soil strength, as a key soil physical property, over the following 16 months. We were also interested in the associated interactions with crop growth and the microbial community. Compaction had a considerable and sustained effect in a sandy loam and a sandy clay loam soil, resulting in an increase in strength and decreased crop yields. By contrast compaction had little effect on a clay soil, perhaps due initially to the buoyancy effect of pore water pressure. Fallow clay soil did have a legacy of the compaction event at depth, however, suggesting that it was the actions of the crop, and rooting in particular, that maintained smaller strengths in the cropped clay soil rather than other physical processes. Compaction generally did not affect microbial communities, presumably because they occupy pores smaller than those affected by compaction. That the clay soil was able to supply the growing crop with sufficient water whilst remaining weak enough for root penetration was a key finding. The clay soil was therefore deemed to be much more resilient to the compaction stress than the sandy loam and sandy clay loam soils. 相似文献
19.
The anisotropy of the soil pores in texturally differentiated soils is an important soil-genetic index. The morphological
study of thin soil sections with vertical and horizontal orientation showed that the pore space of a texturally differentiated
light gray forest soil at the aggregate level of organization has isotropic, anisotropic, and partially anisotropic structures
in the different horizons. In the horizons with a platy structure, the anisotropy of the pore space is largely determined
by the anisometry of the structural units. In the horizons with a massive structure not separated into aggregates, the anisotropic
indices can be related to the structural features of the recent and relic biogenic pores. To reveal the total anisotropy of
the soil pore space, the most informative and genetically determined indices should be studied: the shape, area, and orientation
of the pores. In the soil studied, the variation of the pore sizes in the vertical thin sections was higher than in the horizontal
thin sections, which agreed with the concept of the anisotropy of the entire soil profile. The fixed vertical and horizontal
orientation of the soil thin sections allowed the obtained results to be integrated into the full-profile anisotropy of the
soil properties. The vertical thin sections were found to be of greater information value for the profile-genetic analysis
of the structure and variability of the soil pore space than their horizontal analogues. 相似文献
20.
A new soil thin sectioning technique which gives thin cross-sections (called sliver sections) of thin sections, is described. Optical analysis of soil thin sections and soil sliver sections, using plain, crossed polarized and circularly polarized light provides three-dimensional information on the micromorphology of clay coatings. This new technique is applied to a common type of clay plug and shows that these features consist of a stack of bowl-shaped clay coatings. 相似文献