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1.
海南岛北部玄武岩上土壤发育过程的定量研究 总被引:12,自引:2,他引:12
随着土壤的发育,土壤形态亦会出现相应的变化。对海南岛北部玄武岩上发育的不同成土年龄土壤系列的研究表明,土壤形态特征及其定量化指数,如红化率指数、剖面相对发育指数、土层指数、剖面发育指数等能够较好地反映土壤发育程度和土壤发育的相对年龄,其中剖面发育指数的批示效果最好。 相似文献
2.
水盐动态与土地利用变化相互作用的分析 总被引:12,自引:0,他引:12
利用1987年和1998年两期土地利用现状图,1988~1998年水文资料和2000年、2001年地下水和土壤水、盐含量的监测资料,分析三工河流域水盐的时空动态变化对流域土地利用的影响。1988~1998年三条河流年出山口总径流量10年间无显著变化,但上游老绿洲耕地面积逐步扩大,引水量逐年增加,可以占到出山口径流总量的90%以上。1998年相对于1988年,上游绿洲地下水位有所下降,而所有下游观测点的地下水位均有所升高,盐渍化问题加剧。通过2000年和2001年三工河流域下游的新垦绿洲地下水、土壤的连续观测表明,从绿洲、过渡带到沙漠中,土壤盐分含量的变化梯度不大,差异不显著,而水分则有显著的下降趋势。但是在过渡带由于受绿洲灌溉过程的影响,地下水位较浅,土壤含水量较高,植被较为稳定,因此绿洲边界始终没有变化。因此水分的减少是绿洲过渡带动态稳定的关键限制因子。绿洲内的撂荒地和靠近绿洲的荒漠草地受绿洲内部灌溉过程的影响,地下水位升高,超过了地下水的临界深度,同时又因为缺少灌溉的反复淋洗,在强烈的蒸发作用下,盐分的表聚现象十分明显,而且整个剖面内盐分的含量都较高,土壤的盐渍化现象非常严重。 相似文献
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土壤水分和蒸发量是水文循环和能量交换过程中一项重要因素.本文根据非饱和土壤水流运动的基本理论,考虑到在地下水位较高的湿润地区,蒸发层中土壤湿度可以得到地下水的补给,作者提出蒸发量与土壤湿度和地下水通量关系的模式.模式中为单一土壤吸力函数,在实际计算中十分简便. 相似文献
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Glen G. Fredlund 《自然地理学》2013,34(5):446-464
Mapping of late Quaternary geomorphic surfaces, and analysis of the soils and sediments buried within them, provides evidence for the history of a small study area within the Red Valley physiographic zone, Black Hills, South Dakota. Geomorphic thresholds for this grassland system are correlated with periods of major climatic change. Well-developed soils dating to the late Pleistocene and early Holocene (14,000 to 9000 yr B.P.) suggest more mesic conditions and geomorphic stability. A mid-Holocene Altithermal (ca. 8000 to 4500 yr B.P.) denudation almost completely stripped the landscape of earlier Holocene sediments and soils. A prolonged, mid-Holocene (ca. 4500 to 3600 yr B.P.) mesic period of landscape stability and soil development followed, but was abruptly terminated around 3600 yr BP. Late Holocene conditions approached stability about 1200 yr BP. After this time, alluvial terrace surfaces remained stable, while alluvial fans experienced periods of stability punctuated by midslope aggradation. 相似文献
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本文从孢粉组成及石英砂表面形态角度研究了滇东南几种土壤的沉积环境及其演变,并研究了土壤粘粒矿物特性及化学组成特点。结果表明,土壤除受着目前成土因子作用外,沉积古环境及其演变对土壤发育特性及矿物学化学组成也有深刻的影响。 相似文献
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湖南主要土壤酸沉降敏感性初步研究 总被引:2,自引:0,他引:2
通过对湖南省主要土壤类型在模拟酸雨条件的敏感性大小进行研究,根据酸害阈值、酸害变化率等敏感性指标,对土壤敏感性进行比较发现,在酸雨pH值大于4.5时,处于土壤酸雨缓冲范围,而当酸雨pH值低于3.5或3时,土壤的pH值变化相当明显。不同土壤母质对酸雨的敏感性表现为:第四纪红土红壤>砂岩红壤>花岗岩红壤>紫色砂页岩红壤;由于垂直地域分异作用,山地红壤的敏感生较大,其次为山地黄棕壤,山地黄壤为不敏感土壤;另外不同土层的敏感差异不明显,受耕作过的土壤酸缓冲性能明显增强。 相似文献
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小区域水平土壤有机质动态变化的评价与分析 总被引:29,自引:4,他引:29
采用动态比较的方法,分析评价了中国科学院千烟洲试验站站区范围内开垦利用后土壤有机质含量的总体变化情况及不同利用方式下变异特点。结果表明,具有我国南方低丘红壤区典型特点的千烟洲试验站在人为利用后,站区土壤有机质含量总体呈上升趋势,11年间土壤有机质平均含量由原来14.78g/kg上升到目前的15.13g/kg。不同土壤之间,原土有机质含量较低的砂红壤、水稳土、潮土有机质含量分别增加了1.41g/kb 相似文献
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塔里木河下游间歇性输水对土壤水化学的影响 总被引:3,自引:1,他引:2
根据塔里木河下游2000-2006 年11 次间歇性输水影响下沿输水河道两侧地下水埋深、地下水化学组分变化的资料, 结合有关输水的基本资料和土壤盐分含量变化的适时监测数据, 分析了地下水化学特征的变化及影响其变化的各相关因子,结果表明:地下水化学特征的变化呈现明显的阶段性规律, 地下水化学组分的变化与距离输水河道的远近、地下水埋深、河道径流量以及土壤盐分含量之间具有较高的相关性; 地下水埋深在5 m 及5 m 以下时, 地下水化学组分含量较低, 水质较好。而埋深在5 m 时的水位条件能够满足该区域建群种植物的生存, 为输水条件下的理想水位;地下水化学特征变化的阶段性特点和土壤剖面盐分含量的分布规律及其相互关系说明,在当前输水模式下配合面上输水将能更好地促进生态恢复。 相似文献
9.
《Geomorphology》2007,83(1-2):14-28
The southern part of the Pakua tableland in Taiwan comprises a series of wide, unpaired river terraces that have as many as six altitude levels, from PK-1 (highest) to PK-6 (lowest). The terrace surfaces are covered with lateritic soils. This study described, sampled and analyzed the soils from each terrace. Soil taxonomies are Oxisol, Ultisol and Inceptisol. Soil morphological characteristics were quantified as a profile development index (PDI) to determine the degree of soil development. The chemical analyses included cation exchange capacity (CEC) and selected extraction of Fe in soils. Based on the degree of soil development, surface deposits on terrace flights form the post-incisive soil chronosequence, supporting the hypothesis of terrace formation by fluvial processes. Soil ages were estimated based on iron crystallinity (Fed–Feo)/Fet. Analytical results indicate that river terraces in the Pakua tableland are aged 40–400 ka. The long-term uplift rate of the tableland can be estimated using terrace ages and folding geometry. The variation of uplift rates demonstrates that the landscape underwent increased shortening of frontal thrusting by the Changhua Fault running beneath the tableland. 相似文献
10.
Jonathan D. Phillips 《自然地理学》2013,34(6):566-580
Nonlinear dynamical systems (NDS) models of soil systems suggest that soil evolution may be potentially chaotic, and thus sensitive to initial conditions and to small perturbations. Chaos implies that the diversity of the soil cover should increase over time. This hypothesis was tested by comparing the diversity of soil types on either side of the Suffolk Scarp on the lower coastal plain of North Carolina. While parent material and other soil-forming factors at the two sites are similar, the Pamlico Terrace east of the scarp is late Pleistocene and the Talbot Terrace west of the scarp is middle to late Pleistocene and at least twice as old. A soil system model based on vertical clay distribution and textural differentiation is introduced to account for the major factors that lead to differentiation of soil series in the study area. The model is unstable and potentially chaotic and, like more general models, predicts that even where all other soil-forming factors are similar, the diversity and spatial variability of soils should be greater on older soil landscapes. Soil series were identified along 0.5 km transects on either side of the Suffolk Scarp in Craven County. Only one soil series was identified on the Pamlico site, while the Talbot transect included at least seven distinct soil series. The dramatically higher variability of the soil cover on the older landscape is predicted by the model and provides field evidence for chaotic pedogenesis. [Key words: chaos theory, soils, Pleistocene, North Carolina]. 相似文献
11.
Soil profiles, colluvial stratigraphy, and detailed hillslope morphology are key elements used for geomorphic interpretations of the form and long-term evolution of triangular facets on a 1200 m high, tectonically active mountain front. The facets are developed on Precambrian gneisses and Tertiary volcanic and plutonic rocks along a complexly segmented, active normal-fault zone in the Rio Grande rift of northern New Mexico. The detailed morphologies of 20− to 350 m high facets are defined by statistical and time-series analyses of 40 field transects that were keyed to observations of colluvium, bedrock, microtopography, and vegetation. The undissected parts of most facets are transport-limited hillslopes mantled with varying thicknesses (0.1 to > 1 m thick) of sand and gravel colluvium between generally sparse (≤10–30%) bedrock outcrops. Facet soils range from (a) thin (≤ 0.2 m) weakly developed soils with cumulic silty A or transitional A/B epipedons above Cox horizons in bedrock or colluvium, to (b) deep (≥0.5–1 m) moderately to strongly developed profiles containing thick cambic (Bw) and/or argillic (Bt) horizons that commonly extend into highly weathered saprolitic bedrock. The presence of strongly weathered profiles and thick colluvium suggests that rates of colluvial transport and hillslope erosion are less than or equal to rates of soil development over at least a large part of the Holocene.The catenary variation of soils and colluvium on selected facet transects indicate that the degree of soil development generally increases and the thickness of colluvium decreases upslope on most facets. This overall pattern is commonly disrupted on large facet hillslopes by irregular secondary soil variations linked to intermediate-scale (20–60 + m long) concave slope elements. These features are interpreted to reflect discontinuous transport and erosion of colluvium down-slope below bedrock outcrops. The degree of weathering in subsurface bedrock commonly increases more systematically upslope on most facets than colluvial soils. This pattern is consistent with an increase in age with height on these fault-generated facet hillslopes.The characteristic range of internal variation in soils and colluvial deposits on a given facet also varies greatly among facets with differing overall morphologies and external environments. Deep cumulic soils and thick colluvium occur consistently on steep (≥ 30°), high, and relatively undissected facets above the narrow central sections of fault segments. Much thinner and less weathered colluvium and soils overlie saprolitic bedrock at shallow depths on low, highly dissected, gently sloping (≤ 20°) facets above complex fault segment boundaries. Parametric and nonparametric analyses of variance indicate that these large-scale contrasts in facet morphology correlate primarily with a few facet subgroups related, in decreasing importance, to variations in range-front faulting, bedrock lithology, and piedmont dissection or aggradation. These factors are related to facet morphology, drainage evolution, and hillslope-soil stratigraphy in a general geomorphic model for fault-generated facets. In this model, segmentation-related changes in the geometry and/or rates of faulting most strongly affect facet size, slope gradient, the thickness of colluvium and soil development, and drainage patterns. Facets of varying heights have similar hillslope forms at the same position on the range front; these characteristic morphologies are established under prevailing tectonic and nontectonic conditions on facets as bedrock is initially exposed from beneath alluvial-covered fault scarps above a height threshold of 15–35 m. 相似文献
12.
Carlos E. Cordova 《自然地理学》2013,34(6):538-567
Soils and alluvial sediments in two wadi systems provide preliminary evidence of intense prehistoric soil erosion in the Plateau of Central Jordan. Magnetic susceptibility, color, secondary carbonate morphology, and soil structure suggest that, at the end of the Pleistocene, red Mediterranean soils (terra rossa soils) extended into areas that today are dry steppes on desert fringes. The chronological correlation between alluvial depositional events and cultural phases in the context of climatic change in the Levant suggests that climatic fluctuations at the end of the Pleistocene, which were characterized by gradual drying and warming, triggered several consecutive cycles of soil erosion. There is also evidence to suggest that the advent of early farming in the early Holocene played an important role in the continuation of soil erosion processes. The results of this preliminary research suggest that studies of ancient soil erosion in this region, red Mediterranean soils are a useful chronological and pedological datum to be correlated with alluvial and colluvial deposits. [Key words: soil erosion, alluvial sequences, red Mediterranean soils, Levant, Jordan, Middle East, soil properties.] 相似文献
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The evolution of landforms and soils from the Jaldi and Maiskhali anticlines and adjoining areas in a part of the coastal region of the north–south trending fold belt of Bangladesh during the Late Quaternary Period has been investigated. Based on the degree of soil development and luminescence dating, eight soil geomorphic units have been deciphered and grouped into four members (I–IV) of a morphostratigraphic sequence for the study area. Various soil geomorphic units included in different member/sub-members are: Member I—river floodplains and active tidal flats (< 500 years); Member II—distal Piedmont Plains and old tidal flats (0.5–2 ka); Member III—proximal Piedmont Plains (6–10 ka); and Member IV—Mainland Higher and Lower Hillocks and Island Hillocks (> 15 ka). Member IV is further subdivided into Sub-member IVa—Island Hillocks (15–18 ka); Sub-member IVb—Mainland Lower Hillocks (23–25 ka); and Sub-member IVc—Mainland Higher Hillocks (30–35 ka).The youngest and poorly developed soils of Member I show features related to hydromorphism. Moderately developed soils of Members II and III show a fersiallitisation stage of pedogenesis. Member IV includes ‘strongly developed soils’ with a ferrugination stage of pedogenesis. These soils also exhibit degradation and poor birefringence of argillans and ferriargillans, indicating a significant change in conditions of pedogenesis, probably related to a paleoclimatic change from a subhumid to semiarid phase (40 ka to about 16 ka) to a hot humid to subhumid phase (16 ka–present). Parent material composition and physiography also have affected the pedogenesis in the area.Based on ages and heights above the mean sea level for the five terraces recognized in the study area, the overall base-level rise rates calculated are about 3.6 mm/year (18 ka–present) for the Maiskhali Island and 2.86 mm/year (35 ka–present) for the mainland (Jaldi anticline). These base level changes represent combined effects of eustatic sea level and tectonic uplift due to folding. 相似文献
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The establishment and succession of vegetation on migrating, low-profile barrier islands is greatly affected by the physical hydrogeomorphological processes that regulate island topography, saline and fresh groundwater table surfaces. Apart from the physical destruction of plants by overwash processes, fluctuations in water table elevations and variations in groundwater salinity, both spatially and temporally, also appear to have significant impact on the nature and distribution of vegetation on these islands. Species composition, community structure and biodiversity on the Virginia barrier islands are controlled by the same processes that give rise to landforms and maintain their form. These processes include marine water inundations, groundwater salinity variations and changes in depth to the fresh-water table. Land surface elevation, landform morphology and position on the barrier island determine exposure to high tides, storm surges, sand burial, and the extent of the fresh-water reserves.In this article, the underpinnings of a Long-term Ecological Research Program in which 25 geologists, geomorphologists, climatologists, and ecologists have a common research plan is presented and several examples of the product of this research partnership dealing with geomorphological and hydrologic controls on vegetation dynamics are detailed. Among the aspects of ecological dynamics examined in terms of geomorphological processes are vegetation zonation, succession, disturbance, and ecosystem state change. 相似文献
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In arid mountain areas, the dating and correlation of alluvial depositional surfaces is often uncertain. Especially in regions where the geomorphology is not well known, surface modification by the development of soil and desert pavement may allow the correlation of geomorphic surfaces and estimation of at least their relative ages. Pleistocene wadi terraces and associated alluvial fans occur in Wadi Al-Bih, U.A.E. and Oman, for which correlations and age relationships are not known. Three age-related groups of fans and terraces have been identified and mapped on the basis of their morphostratigraphic relationships. Deposition of the oldest terrace sediments and associated fans followed a long period of sustained incision after Miocene uplift of the region. The younger two groups of terraces and fans are inset within the older group. To identify the gross effects of pavement development, comparisons have been made between terrace surface and subsurface particle-size distributions. The older terraces have finer surface sediments and a greater contrast between finer surface and subsurface sediments than the younger terraces. This reflects the degree of pavement development. Particle size on the fan surfaces is comparable with that on the equivalent terrace surfaces. Criteria for the classification of pavements were developed based on clast fracturing and angularity, size, sorting, packing, and surface texture, from which a simple index of pavement development has been derived. Other properties, rock varnish and weathering characteristics, were also recorded; but these proved to be less discriminatory than pavement characteristics. The pavement data have been augmented by observations on soils. Detailed studies of pavements on terraces (8 sites, 12 samples covering the three age groups) and fans (5 sites, 10 samples covering the three age groups) allow differentiation between age-groups. The three terraces show three different age-related pavement types, expressed by differences in the pavement development index. Weakly-developed pavements (little fracturing, sub-rounded clasts, some modification of the depositional fabric, incipient soil development, stage I CaCO3 accumulation) occur on the youngest terrace and fan surfaces. Moderately-developed pavements (clast fracturing, sub-angular clasts, moderate sorting and packing, deeper soil development, stage II CaCO3 accumulation) occur on the middle terrace and fan surfaces. Well-developed pavements (complete clast fracturing into small angular fragments, mature sorting and packing of the pavement surface, deep soil development with strong horizonation, stage III CaCO3 accumulation) occur on the highest terrace and oldest fan surfaces. There are minor differences between the youngest pavements on terraces and fans, which reflect initial sedimentological differences. These differences become less as the pavements develop. On the basis of comparative studies, the oldest terrace is estimated to date from sometime prior to ca. 100 ka BP, the second terrace and the most extensive fan surface from the Late Pleistocene, and the youngest terrace and fan phase from the Latest Pleistocene or Early Holocene. 相似文献
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Several Prosopis species have been introduced into South Africa in the last century and many of them have become invasive. This study investigates the water relations, effects of clearing, and the seasonal dynamics of groundwater use by invasive Prosopis trees. The trees were growing on deep sandy soils in the floodplain of an episodic river in the arid Northern Cape Province of South Africa. Data were collected on tree water uptake, evapotranspiration and water table depth over different seasons. Effects of tree clearing on groundwater were quantified by comparing data from a Prosopis invaded and an adjacent cleared area. Transpiration rates were less than 1.0 mm/d throughout the year and the trees showed structural and physiological adaptations to the combined low rainfall and low water holding capacity of the soils by developing very narrow sapwood areas and by closing their stomata. The trees abstracted groundwater as evidenced by the decline in borehole water levels in the Prosopis stand before the rainy season. Groundwater savings of up to 70 m3/month could be achieved in spring for each hectare of Prosopis cleared. The study suggests that clearing of invasive Prosopis would conserve groundwater in the arid parts of South Africa. 相似文献