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1.
[目的]明确赤山斜坡土体大孔隙特征,为滑坡灾害防御提供参考.[方法]采集湖洲岛赤山斜坡土体,基于水分穿透法研究土体大孔隙特征.[结果]大孔隙尺寸范围为1.99 ~0.80 mm,居于中间尺度范围的大孔隙数量较多,大孔隙特征表现为土体表层和底层的两极分化.深度变化范围内,土体大孔隙特征会有局部突变,但总体上大孔隙数量、大孔隙尺寸、大孔隙度均随深度增加而减小.根系和有机质均是影响大孔隙特征的重要因素,但对大孔隙尺寸的影响程度更高.与有机质相比,根系与土体大孔隙特征相关性更大.[结论]局部变异并不影响大孔隙特征的整体发展规律;根系和有机质对斜坡土体大孔隙特征具有不同程度的影响.  相似文献   
2.
基于林分空间结构分析方法的土壤大孔隙空间结构研究   总被引:3,自引:0,他引:3  
土壤大孔隙的形成和分布具有重要的生态学意义,但尚未有研究者利用生态学方法研究其空间结构。以三峡库区紫色砂岩区的3种典型土地利用类型下的土壤大孔隙为研究对象,将图像处理技术与林分空间结构分析方法相结合,从形态学和生态学角度量化分析土壤大孔隙的空间结构。结果表明:3种土地利用类型的土壤大孔隙形状、空间结构复杂程度高,空间分布格局随土壤深度的增加均呈聚集分布趋势,且深层土壤的大孔隙组成较表层单一,其中草地最明显,大孔隙发育程度均随土壤深度的增加而降低;3种土地利用类型的土壤优先流发育程度由大到小为:草地、果园、农地,同一土地利用类型不同孔径范围的大孔隙所形成的优先路径的连通性、导水性和发育程度由大到小依次为:草地孔径范围[5.0 mm,∞)、[2.5 mm,5.0 mm)、[1.0 mm,2.5 mm)、(0,1.0 mm),农地和果园孔径范围[1.0 mm,2.5 mm)、[2.5 mm,5.0 mm)、(0,1.0 mm)、[5.0 mm,∞);将林分空间结构分析方法与土壤大孔隙位置密度分布、大孔隙变异度和复杂度指标进行对比,并与以往研究土壤大孔隙空间结构的方法进行比较,所得结果相同,证明该方法可以用于土壤大孔隙空间结构的分析和研究。林分空间结构分析方法简单易行,从生态学的角度完善了大孔隙空间结构的分析,弥补了目前基于物理化学方法在大孔隙结构理论分析的不足,进一步揭示了土壤大孔隙空间结构形成和分布的原因。  相似文献   
3.
A key problem facing soil physics and hydropedology at present is some of the standard theories of water flow in soils do not fully reflect the processes at the pore scale, and thus, cannot be adequately used for prediction. As such, examination of soil structure is vital for hydropedologists. Realisation that solutes move preferentially through soil into groundwaters has meant research in this area has increased in importance. This paper describes a multi-scale approach to analyse transport mechanisms using visualisation techniques. Chloride and Brilliant Blue tracers were applied to undisturbed soil cores to examine the physical and morphological properties associated with preferential flow in a range of soil types. Following collection of serial digital images, it was possible to examine and quantify the nature of active water flow mechanisms in terms of both dye-stained pathways and spatial distribution of dye concentration, using image analysis. Preferential flow linked to water potential and soil structural discontinuity was observed in all but the coarsest textured soil which conformed to uniform flow theory. A high level of variability in flow patterns was noted between the soil types. Such information as to how a soil dynamically re-wets is key for hydropedologists involved in applications such as pollution modelling. This is especially significant when considering a wetting mechanism, such as preferential flow, that cannot be adequately described by conventional soil physics.  相似文献   
4.
Studies of earthworm species and their activity, expressed as channels, on cultivated loamy (Humic Cryaquept) and clayey soils (Typic Endoaqualf and Typic Cryaquept) were conducted in southern and central Norway before conversion from conventional to organic cropping systems. At all the three study areas: Landvik (Grimstad), Voll (Ås) and Kvithamar (Stjørdal), the earthworm species Aporrectodea caliginosa, Aporrectodea rosea, Allolobophora chlorotica and Lumbricus rubellus were found. At Landvik, where the deep-burrowing species Aporrectodea longa, A. caliginosa and Lumbricus terrestris dominated, medium (4–6 mm) and coarse (>6 mm) earthworm channels were most numerous below the plough layer. Almost no coarse pores were found at Voll and Kvithamar. The volume of earthworm channels below the plough layer was 0.6–0.8% of total soil volume at Landvik and Voll and 0.3–0.4% at Kvithamar. Earthworm channels >6 mm below the plough layer were useful to identify present and previous activity of deep-burrowing earthworms such as L. terrestris. Below the plough layer, roots were almost entirely restricted to earthworm channels and interaggregate spaces.  相似文献   
5.
Earthworms are known to influence water infiltration in soils, but most of the existing knowledge relates to grasslands and arable systems; little is known on the role of earthworms for water infiltration in forests. We studied earthworm populations and water infiltration rates in woodland flooding sites used for groundwater recharge and the production of drinking water. Intensive flooding may detrimentally affect earthworm populations and simultaneously result in clogging of the topsoil, with the latter being a common problem in groundwater recharge systems. However, clogging does not occur at our study site, the “Lange Erlen” (Basel, Switzerland) and total earthworm numbers and biomass in flooded sites exceeded those of non-flooded sites (+51% and +71%, respectively). Total earthworm numbers (r = 0.85***), numbers of endogeic (r = 0.64*) and epigeic (r = 0.81**) earthworms and numbers of two species (Lumbricus rubellus, r = 0.62* and Allolobophora chlorotica, r = 0.77**) significantly correlated with water infiltration rates. The results suggest that short-term flooding (max. 10 days) interrupted by longer recovery periods favor earthworm populations which likely contribute to the long-term (ca. 100 years) sustainability of the studied forest groundwater recharge system and thereby to effective and cost efficient drinking water production.  相似文献   
6.
In laboratory experiments, earthworms are often observed to burrow through compacted soil layers, leading to the general assumption that these animals play a significant role in regenerating compacted soils in agricultural plots. To demonstrate this role under field conditions, the abundance of earthworm macropores inside compacted zones was estimated on plots under reduced (RT) or conventional tillage (CT). Then, different types of compacted zones typically found in CT (plough pan and compacted clods) and RT plots (compacted volume under wheel tracks) were experimentally simulated in wooden boxes, buried in the field and inoculated with different earthworm species. After 6 weeks of incubation, the number of macropores inside the compacted zones was examined. Field observations showed that approximately 10% and 30% of the compacted zones were colonised by at least one macropore in CT and RT plots, respectively. A significantly greater number of anecics was found in RT plots, but we could not conclude that this ecological type of earthworm plays a more major role in the regeneration process in these plots since there were fewer compacted zones and these covered a smaller area in CT. The semi-field experiment provided evidence that earthworm-mediated regeneration of compacted zones is possible and its nature varies between ecological types of earthworm. Lumbricus terrestris, which makes individual burrows that are vertical and deep, was the main species to cross through the plough pan. The other three earthworm species (Aporrectodea giardi, A. caliginosa and A. rosea) did burrow inside the other types of compacted zones (“wheel tracks” and “compacted clods”). In every case, however, macropore density was far greater in non-compacted zones, illustrating that avoidance of compacted soil by earthworms is important and should be taken into account when extrapolating results from laboratory studies.  相似文献   
7.
Summary Column experiments were carried out to quantify the effect of earthworms on compacted soil. The earthworms (Lumbricus terrestris) were able to burrow into soil which was artificially compacted to a pore volume as low as 40%; they may also penetrate an artificial plough pan deep in the soil. The effect of the burrowing activity of Lumbricus terrestris was quantified by measuring hydraulic conductivities and infiltration rates through the whole soil column (19 cm wide, 40 cm long). Morphological parameters, mainly the vertically projected burrow depth, were correlated with the saturated hydraulic conductivity. The amount of casts deposited by Lumbricus terrestris on the soil surface increased with the degree of soil compaction. The bulk density of casts was always less than that of the original soil.  相似文献   
8.
Using micromorphology to understand the rewetting mechanisms in milled peat   总被引:1,自引:0,他引:1  
S. J. Mooney   《CATENA》2003,54(3):665
Milled peat, an important energy resource in Ireland, is produced by scarifying the surface of a peat bog and allowing the resultant particulate material to air dry prior to storage in large stockpiles on the peat bogs. The storage period can vary from 6 months to several years, during which time the stockpiles are subject to atmospheric precipitation which causes rewetting and a subsequent reduction in calorific and monetary value. A study was undertaken to characterise the pore structure of stockpiles and identify relationships between structure and propensity to rewet. Recent research examining rewetting mechanisms in milled peat stockpiles has focused mainly on macroscale physical data. With respect to the importance of the structure of a porous medium for water movement and storage, a characterisation of the pore and particulate structure of milled peat in stockpile was conducted using micromorphological techniques. Samples with water contents up to 0.6 g g−1 were impregnated in the field. Thin sections produced in days as opposed to months (no period of chemical dehydration was required) were used to quantify macroporous structures using image analysis. Results illustrated that a significant hydraulic discontinuity existed between the surface and subsurface layers of stockpiles, a factor not identified by laboratory physical analysis. This endorsed the current hypothesis in that the milled peats of different genetic origin had different pore architectures which had a significant effect on the active rewetting mechanisms. The visualisation of water flow pathways using dye tracers suggested that in addition to the wetting front water movement, by-pass flow was an active rewetting mechanism.  相似文献   
9.
Ants moderate the supply of critical resources such as water and nutrients in desert environments by changing the physical arrangement of soils during nest construction. We measured water infiltration and soil physical and chemical properties on and off the nests of two ant species (Pogonomyrmex rugosus, Aphaenogaster cockerelli) across five sites at differing landscape positions within a Chihuahuan Desert watershed. Our aim was to test whether the effects of these long-lived ant nests on water infiltration and soil chemistry varied between ant species or across sites within a watershed. Water flow was generally slowest at the site with the highest silt and clay contents, and fastest at the site with sandy soils. Flow was generally greater through ant nest soils than adjacent non-nest soils, and we attribute this to increases in macropores in the nests. However, the effects of both ant nests and species varied among sites. Despite wide variation in soil chemical properties across all sites, ant nests had a consistent effect on soil chemical properties, with higher levels of carbon, nitrogen, sulphur, phosphorus and electrical conductivity on nests compared with non-nest soils. Our results demonstrate that while we can generalise about the effects of ant nests on water flow and nutrient levels, differences in soil type, nest density and ant species across sites are likely to moderate these effects.  相似文献   
10.
The aim of this study was to determine potential cumulative effects of repeated passes with current heavy agricultural machinery on topsoil (0–0.3 m) and subsoil (below 0.3 m) physical properties of a Luvisol as affected by long-term tillage (annual mouldboard ploughing to 0.3 m depth (MP), shallow-mixing conservation tillage to 0.1 m depth (SM) with a wing-bladed rigid tine cultivator). Moreover, sugar beet yield was determined. Wheeling was conducted with a six-row self-propelled sugar beet harvester representing contemporary heavy agricultural machinery (wheel load 7.8–11.7 Mg, average ground contact pressure 100–145 kPa). Wheeling was applied once per year over three consecutive years after harvest of sugar beet, cereal and cereal, and moreover, independent from regular plot management with light experimental machinery. Soil moisture at wheeling (0–0.6 m depth) was around 100% field capacity in most years, which was secured by irrigation before wheeling if necessary.Repeated wheeling negatively affected penetration resistance, macropore volume (equivalent diameter >50 μm) and air permeability of topsoil (0.05–0.1 m, 0.18–0.23 m) and subsoil (0.4–0.45 m) layers, while biopore number and surface water infiltration remained unaffected. SM compared to MP tillage increased penetration resistance while decreasing macropore volume and air permeability in the 0.18–0.23 m layer, whereas reverse effects occurred in 0.4–0.45 m depth. Sugar beet yield was decreased by wheeling and SM tillage compared to the control treatments. No significant interactions between wheeling and tillage occurred in any parameter investigated.Conclusively, SM tillage did not provide better subsoil resistance against compaction compared to MP treatment under wheeling and soil conditions prevalent in our experiment. Repeated wheeling with heavy agricultural harvest machinery is obviously at risk to exceed the bearing capacity of susceptible soils. Although (i) under regular harvest conditions just small parts of arable fields (except headlands) are wheeled with high loads, (ii) harvest is by far not every year conducted under high soil moisture, and (iii) effects in the subsoil were small, such risks have to be taken into account. Reduction of tillage depth to <0.1 m is not recommended for high yielding sugar beet crops grown on loessial soils.  相似文献   
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