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1.
A numerical index of soil development, the POD Index, was developed and applied to 723 pedons of United States soils that either exhibit, or are developing, Podzol (Spodosol) morphology. The index is determined solely from morphologic (field) criteria, and provides the first soil development index for Podzol and Podzol-like soils that does not use chemical data. The index assumes that pedogenesis and profile development in these soils produces the following morphologic changes; (1) the E (eluvial) horizon becomes “whiter,” (2) the B (illuvial) horizon becomes “redder” and “darker,” and (3) the number of B subhorizons increases. Results indicated that the index was useful for differentiating between non-Podzols and Podzols, and between Entic and Typic subgroups of Spodosols. A comparison of POD Indices for Spodosols of differing drainage revealed that maximum development occurred in wet soils (somewhat poorly drained), with minimal development on the driest sites. This finding is consistent with current theory on the effects of drainage/water table relations on Podzol development. Additionally, the index has usefulness in chrono-sequences of Podzol soil development [Key words: soils, Podzol, Spodosol.] 相似文献
2.
To study the soil-geomorphology relationships and the effect of past and present climate on soil formation, 10 representative pedons on different landforms, including rock pediment, mantled pediment, piedmont plain, playa margin and playa, were studied. Non-saline clay flat, saline clay flat with and without puffy grounds, wet zone, and salt crust were among the geomorphic surfaces observed in Sirjan playa. Soil moisture varies from mesic (on rock and mantled pediments) to aridic regimes (on piedmont plain, playa margins, playa and mantled pediment). Soil temperature regime in the area is mesic except on playa surfaces and mantled pediment which are thermic. Results of the study showed that soil salinity increased from the rock pediment to playa surfaces. The maximum EC of 314 dS/m was observed in the puffy ground clay flat. Kaolinite, illite, smectite, chlorite and palygorskite clay minerals were identified using XRD analysis. Coatings and infillings of CaCO3 were observed in pediment and gypsum lenticels and interlocked plates were found on piedmont plain and playa. Clay coatings and infillings in the piedmont plain suggest the presence of a more humid paleoclimate in the history of the area. 相似文献
3.
应用土壤系统分类的原理和方法,研究了元谋干热河谷主要土壤的土壤铁铝特性、弱腐殖质化(层)特性、变性特征、岩性特征等诊断特性。据此提出了当地高级分类单元的土壤系统分类(草案)。分析了主要土壤的剖面特征和理化性状,并对亚类以下分类问题提出了看法。 相似文献
4.
Long-term temperature data on a soil layer 3.2 m in thickness have been used in the differentiation of a topographically highly complicated permafrost on the territory of Transbaikalia. It was found that the geographical ranges are most clearly identified from mean annual temperature values. The schematic map displays the areas with the temperatures –4 to–1°C,–1 to 1°C and 1 to 4°C which are in good agreement with the permafrost distribution pattern (continuous and discontinuous permafrost, and permafrost islands). A classification of the thermal conditions of soils is carried out according to the highest mean monthly temperature at all depths. We identified four types which are characterized by the qualitative assessment as warm, moderately warm, cold and very cold. A relevant cartographic model shows the distribution of the thermal regime of soils for a warm season. The dot method was used to provide a clear display of available information on soil temperature, and it was possible to show the existence of small areas of the types of thermal regime and their fragmentation. Current changes in soil temperature were determined for August, which are in good agreement with regional changes in ground air temperature. In either case, we observed positive linear trends. Assessments of thermal resources of the soil layer and their geographical patterns belonging to the widespread depression-valley and valley natural systems as well as to the relatively planate surfaces of Transbaikalia can be used for scientific and practical purposes. 相似文献
5.
Contrasting soils and landscapes of the Piedmont and Coastal Plain, eastern United States 总被引:4,自引:0,他引:4
The Piedmont and Coastal Plain physiographic provinces comprise 80 percent of the Atlantic Coastal states from New Jersey to Georgia. The provinces are climatically similar. The soil moisture regime is udic. The soil temperature regime is typically thermic from Virginia through Georgia, although it is mesic at altitudes above 400 m in Georgia and above 320 m in Virginia. The soil temperature regime is mesic for the Piedmont and Coastal Plain from Maryland through New Jersey. The tightly folded, structurally complex crystalline rocks of the Piedmont and the gently dipping “layer-cake” clastic sedimentary rocks and sediments of the Coastal Plain respond differently to weathering, pedogenesis, and erosion. The different responses result in two physiographically contrasting terrains; each has distinctive near-surface hydrology, regolith, drainage morphology, and morphometry.The Piedmont is predominantly an erosional terrain. Interfluves are as narrow as 0.5 to 2 km, and are convex upward. Valleys are as narrow as 0.1 to 0.5 km and generally V-shaped in cross section. Alluvial terraces are rare and discontinuous. Soils in the Piedmont are typically less than 1 m thick, have less sand and more clay than Coastal Plain soils, and generally have not developed sandy epipedons. Infiltration rates for Piedmont soils are low at 6–15 cm/h. The soil/saprolite, soil/rock, and saprolite/rock boundaries are distinct (can be placed within 10 cm) and are characterized by ponding and/or lateral movement of water. Water movement through soil into saprolite, and from saprolite into rock, is along joints, foliation, bedding planes and faults. Soils and isotopic data indicate residence times consistent with a Pleistocene age for most Piedmont soils.The Coastal Plain is both an erosional and a constructional terrain. Interfluves commonly are broader than 2 km and are flat. Valleys are commonly as wide as 1 km to greater than 10 km, and contain numerous alluvial and estuarine terrace sequences that can be correlated along valleys for tens of kilometers. Coastal Plain soils are typically as thick as 2 to 8 m, have high sand content throughout, and have sandy epipedons. These epipedons consist of both A and E horizons and are 1 to 4 m thick. In Coastal Plain soils, the boundaries are transitional between the solum and the underlying parent material and between weathered and unweathered parent material. Infiltration rates for Coastal Plain soils are typically higher at 13–28 cm/h, than are those for Piedmont soils. Indeed, for unconsolidated quartz sand, rates may exceed 50 cm/h. Water moves directly from the soil into the parent material through intergranularpores with only minor channelization along macropores, joints, and fractures. The comparatively high infiltration capacity results in relatively low surface runoff, and correspondingly less erosion than on the Piedmont uplands.Due to differences in Piedmont and Coastal Plain erosion rates, topographic inversion is common along the Fall Zone; surfaces on Cenozoic sedimentary deposits of the Coastal Plain are higher than erosional surfaces on regolith weathered from late Precambrian to early Paleozoic crystalline rocks of the Piedmont. Isotopic, paleontologic, and soil data indicate that Coastal Plain surficial deposits are post-middle Miocene to Holocene in age, but most are from 5 to 2 Ma. Thus, the relatively uneroded surfaces comprise a Pliocene landscape. In the eastern third of the Coastal Plain, deposits that are less than 3.5 Ma include alluvial terraces, marine terraces and barrier/back-barrier complexes as morphostratigraphic units that cover thousands of square kilometers. Isotopic and soil data indicate that eastern Piedmont soils range from late Pliocene to Pleistocene in age, but are predominantly less than 2 Ma old. Thus, the eroded uplands of the Piedmont “peneplain” comprise a Pleistocene landscape. 相似文献
6.
1951—2010年中国土壤温度时空变化特征及其影响因素 总被引:1,自引:0,他引:1
土壤温度状况对于研究气候变迁、地球物质能量循环以及土壤性质演变具有重要意义,但目前对国家尺度上土壤温度状况的长期序列和空间变化缺少研究。因此,本文基于土壤温度内插法和地理加权回归(GWR)模型,使用1951—2010年中国880个气象站点的观测数据,研究了中国土壤温度状况时空变化特征及其影响因素。结果表明:① 中国60年来土壤温度变化整体趋势为东北地区升温,西南地区少部分地区降温;② 中国土壤温度状况可划分为冷性土壤温度状况(东北地区、青藏高原地区和内蒙古东部)、温性土壤温度状况(新疆南部、内蒙古和山西南部以及山东)和热性土壤温度状况(华中、华东、华南以及西南的云南、贵州和四川);③ 经纬度和气温与土壤温度具有良好的响应关系,其中气温是最重要的影响因素;④ 中国60年来整体呈现温性土壤向北迁移(约46.5 km)、冷性土壤向南迁移(约43.4 km)的趋势。研究结果可为地理学、土壤学等相关领域深入研究提供一定参考,并为土壤系统分类研究提供理论依据。 相似文献
7.
Long-term data from meteorological stations have been used in assessing the thermal state of the soil layer in large depressions
of the Prebaikalia and Northern Transbaikalia. We examine the characteristics of temperature distribution in depth over an
annual cycle for seasonally frozen and permafrost soils. For the Baikalian type depressions we carried out a spatial differentiation
of the lowest and highest (having regard to the temperature lag) mean monthly soil temperatures. It is concluded that within
a single depression the thermal regime of the soil fluctuates over a very broad range. On the other hand, an identical situation
with the temperature regime can occur in different depressions. 相似文献
8.
Soil physical and chemical properties, plus foliar elemental concentrations, are reported for surface (5–10 cm) and subsurface (35–40 cm) soil and foliar tissue samples from 20 sand pine (Pinus clausa) populations, 9 from the Choctawhatchee variety on the Florida panhandle and 11 from the Ocala variety on the Florida peninsula. Sand pine occurred exclusively on sandy soils, with mean sand content >97%. Soils generally were low in organic carbon and soil elemental concentrations. Both K and P were below analytic detection limits, whereas Ca and Mg were present at only modest levels. Only soil Al and Fe were relatively abundant. Foliar elemental concentrations indicated pronounced bioconcentration of nutrients by sand pine. Macronutrients (Ca, K, Mg, and P) approached or exceeded levels typical of other southern pine species. Some contrasts in edaphic and foliar tissue properties were apparent between varieties, but contrasts were more pronounced between groups of populations based on both soil color (yellow-sand group) and variety (Choctawhatchee white-sand and Ocala white-sand groups). The yellow-sand group, dominated by inland Choctawhatchee sites on sediments of mixed marine/fluvial origin, possessed less well sorted sand grains, higher clay content, lower pH, and higher levels of soil Al and Fe. The Choctawhatchee white-sand group consisted primarily of coastal dune sites, with well-sorted sands that reflect an eolian substrate. The Ocala white-sand group ranged primarily along the interior sand ridges of central Florida and was intermediate in sedimentological character. Foliar elemental concentrations did not reflect soil elemental patterns. Whereas Ocala samples were significantly higher in P and Mg, Choctawhatchee samples were higher in K, and there were no signficant varietal differences in foliar Ca. [Key words: sand pine, soil elemental concentrations, foliar elemental concentrations, Florida.] 相似文献
9.
Extensive deposits of eolian sand occur deep (>50 km) within the interior of east-central lower Michigan. These dunes are most common in the Saginaw lowland where they are parabolic, with limbs oriented northwesterly. Their presence on densely forested landscapes indicates that paleoenvironmental conditions differed sufficiently for dune formation to have occurred. In a previous study, Arbogast et al. (1997) illustrated that surface soils in the northwestern part of the Saginaw dune field were morphologically similar, consisting of weakly developed Spodosols (A/E/Bs/C horizonation). Thus, these dunes must have stabilized concurrently following regional mobilization of eolian sand. In this study, we present soils data from dunes in the southeastern part of the Saginaw dune field. Surface soils were analyzed at 19 sites in the Deford State Game Area in Tuscola County. Morphologically, the soils within the Deford area are similar (A/E/Bs/C horizonation), indicating that Deford dunes stabilized concurrently. Statistical (ANOVA, KW, factor analysis) comparison of Deford soils and soils to the northwest, however, reveals that significant developmental differences exist between the two areas, with Deford soils being better developed. Given that variables (climate, soil texture, pH) are more conducive for Spodosol development to the northwest, we conclude that Deford soils are older. Thus, Deford dunes must have stabilized prior to their counterparts to the northwest. [Key words: eolian processes, sand dunes, soils, Spodosols, Michigan.] 相似文献
10.
在对湿地土壤分类研究进展分析的基础上,按照湿地土壤的独特规律,参考中国第二次土壤普查的分类标准、美国土壤分类标准和中国最新的土壤系统分类的标准,对中国湿地土壤类型进行了重新划分。根据成土过程、人类活动、有机物的含量、土壤化学物质含量、地貌条件等因素,将中国湿地土壤划分为土纲、亚纲、土类、亚类、土族、土系6个级别。对中国湿地土壤分类的研究,有利于湿地科学研究中对土壤的认识有统一的标准,同时对土壤分类学也具有重要意义。 相似文献
11.
基于Hyperion高光谱数据的土地退化制图研究--以陕西省横山县为例 总被引:3,自引:0,他引:3
以陕西省横山县境内的Hyperion数据为数据源,提出一种针对土地退化的制图方法:土地退化指数法(LDI: Land Degradation Index)。在影像分类的基础上,利用在分类过程中提取的训练样本进行线性波谱分离,得到各个端元的分离影像和RMS误差影像,再通过设置新的端元和反复运行线性波谱分离算法得到最终的训练样本,然后利用神经网络法对影像进行二次分类,最后在掩膜处理的基础之上把土地分为:轻度退化,中度退化和高度退化三种类型(Kappa=0.90)。文中分别采用了三种分类方法:监督分类与非监督分类相结合的混合分类方法、光谱角制图(SAM)方法、混合调制匹配滤波(MTMF)方法。结果显示混合分类方法(Kappa=0.71)具有比光谱角制图方法(Kappa=0.54)和混合调制匹配滤波方法(Kappa=0.60)更高的分类精度,所以选择在混合分类的基础上进行土地退化指数LDI的分析。 相似文献
12.
The Southern Alps lie along the convergent Pacific-Indian plate boundary. Geomorphically distinct eastern, axial and western regions reflect the east-west gradient in tectonic uplift (1 to 10 mm a−1) and precipitation (600 to 10,000 mm a−1). The eastern region is divided into front-ange and basin-and-range subregions. Soil-sequence studies on terraces established temporal contrasts in pedogenesis within and between eastern and western regions encompassing Entisols, Inceptisols and Spodosols. On Late Pleistocene and early Holocene terraces Dystrochrepts are persistent soils in the eastern region and Aquods in the western region. These soil sequences are used in the interpretation of relative soil age, stratigraphy and erosion history in hill and mountain drainage basins of the eastern and western regions. In the subhumid to humid eastern front-range subregion, simple soil forms occur as catenary sequences, and there is little evidence of erosion following the destruction of forests in the last millenium. Mollisols are dominant in the subhumid, and Dystrochrepts in humid areas, respectively. Soil-debris mantle regoliths date from the early Holocene and are still developing on slopes. The soil pattern on mountain slopes in the humid, eastern basin-and-range subregion is a complex array of simple, eroded, composite and compound soils. This pattern has resulted from erosion following forest destruction within the last millenium. The oldest surface or buried forest soils are Dystrochrepts dating from the Late Pleistocene to early Holocene. Wind erosion of these low-fertility soils contributes to the loessial sediments in which younger soils have formed. In the western region, soil patterns and soil stratigraphy indicate continous instability with a complex pattern of highly leached, shallow Orthents and bedrock outcrops on slopes. The soils are eroded from slopes within 2 ka. These contrasts in soil development and erosion periodicity in the eastern and western regions of the Southern Alps parallel the east-west contrasts in erosion rates of ca. 1–10 mm a−1. 相似文献
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14.
我国南方山区土壤退化成因主要是土壤及生态系统的脆弱性、人地系统矛盾尖锐、土壤侵蚀的动力作用、盲目开发和工矿建设的影响.应从建设本区稳定平衡的生态系统、调整农业结构、建立持续发展的农业优化模式和政策上采取防治土壤退化的措施. 相似文献
15.
Alan F. Arbogast 《The Professional geographer》2000,52(4):594-606
The Nodaway dune field is perched along Lake Superior in Upper Michigan. This study uses absolute and relative‐age dating methods to test the hypothesis that the dune field finally stabilized after the Nipissing high stand, about 4,000 years ago. Surface soils on snouts of all dunes are moderately developed Spodosols, indicating that dunes stabilized within a few hundred years of each other. One thermoluminescence date provided an age of 8 ka from soil parent material, but is probably overestimated due to residual thermoluminescence. Subsequent optical stimulated luminescence and accelerator mass spectrometry age estimates indicate that the most recent accumulation of sand occurred between ?3.7 and 3.0 ka. This interval suggests one of three possibilities: 1) that the dune field was reactivated during the Algoma high stand and then stabilized; 2) that the dune field stabilized gradually, probably as sand supply diminished after the Nipissing high stand; and 3) that a combination of these two processes occurred. 相似文献
16.
福建山地土壤的系统分类及其分布规律 总被引:15,自引:2,他引:15
福建山地土壤在我国亚热特山地土壤中具有一定代表性。本研究根据武夷山、梅花山、鼓山等山地的19个土壤剖面野外调查和室内分析数据,鉴定了福建山地丘陵主要土壤的诊断层和诊断特性,进行发生学分类、中国土壤系统分类(CST)、美国土壤系统分类(USST)以及世界土壤资源参比基础(WRB)之间的分类参比,同时阐明基于土壤系统分类制的福建主要山地土壤的分布规律,为中国土壤系统分类在亚热带山地丘陵区的应用提供范例。 相似文献
17.
《Geography and Natural Resources》2008,29(4):381-386
A quantitative assessment of the cryosolic-thermal regime of soils and earth materials in the Angara region was made to identify its type, and several subtypes. The processes of seasonal freezing and thawing were used as the classification attribute of the type. Procedural techniques are suggested for analyzing the structure of the time series of temperature of soils and earth materials, and its response to current climate change is assessed. The cartographic model has been constructed on the basis of the characteristics obtained for the long-term temperature dynamics, the directedness, and for the magnitude of trends. 相似文献
18.
Understanding the temperature and moisture sensitivity of soil organic matter (SOM) mineralization variations with changes in land cover is critical for assessing soil carbon (C) storage under global change scenarios. We determined the differences in the amount of SOM mineralization and the temperature and moisture sensitivity of soils collected from six land-cover types, including an orchard, a cropland, and four forests, in subtropical southeastern China. The responses of SOM mineralization to temperature (5, 10, 15, 20, and 25°C) and moisture (30%, 60%, and 90% of water-holding capacity [WHC]) were investigated by placing soil samples in incubators. Soil C mineralization rate and cumulative C mineralization were higher in orchard and cropland soils than in other forest soils. With increasing temperature, soil C mineralization rates and cumulative C mineralization increased with the rise of WHC. The temperature sensitivity of soil C mineralization was not affected by land-cover type and incubation moisture. All soil temperature treatments showed a similar response to moisture. Cropland soil was more responsive to soil moisture than other soils. Our findings indicate that cropland and orchard soils have a higher ability to emit CO2 than forest soils in subtropical southeastern China. 相似文献
19.
20.
Christopher S. Moses William T. Anderson Colin Saunders Fred Sklar 《Journal of Paleolimnology》2013,49(1):5-14
Precipitation and temperature in Florida responds to climate teleconnections from both the Pacific and Atlantic regions. In this region south of Lake Okeechobee, encompassing NWS Climate Divisions 5, 6, and 7, modern movement of surface waters are managed by the South Florida Water Management District and the US Army Corps of Engineers for flood control, water supply, and Everglades restoration within the constraints of the climatic variability of precipitation and evaporation. Despite relatively narrow, low-relief, but multi-purposed land separating the Atlantic Ocean from the Gulf of Mexico, South Florida has patterns of precipitation and temperature that vary substantially on spatial scales of 101–102 km. Here we explore statistically significant linkages to precipitation and temperature that vary seasonally and over small spatial scales with El Niño-Southern Oscillation (ENSO), the Atlantic Multidecadal Oscillation (AMO), and the Pacific Decadal Oscillation (PDO). Over the period from 1952 to 2005, ENSO teleconnections exhibited the strongest influence on seasonal precipitation. The Multivariate ENSO Index was positively correlated with winter (dry season) precipitation and explained up to 34 % of dry season precipitation variability along the southwest Florida coast. The AMO was the most influential of these teleconnections during the summer (wet season), with significant positive correlations to South Florida precipitation. These relationships with modern climate parameters have implications for paleoclimatological and paleoecological reconstructions, and future climate predictions from the Greater Everglades system. 相似文献