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《土壤通报》2015,(5):1272-1280
古土壤蕴含着其形成时期的表生环境特征,是研究过去环境变化的重要地质记录。受长期埋藏与成岩作用影响,深时古土壤形态特征与现代土壤存在差别,但仍保留明显区别于相邻岩层的土壤发生学特征。土壤发生层、根系痕迹、新生体、微形态等特征有助于辨识古土壤,而古土壤元素地球化学、成壤碳酸盐C、O同位素等是判断古土壤发育强度和重建古环境与古气候的重要方法。深时古土壤记录了前寒武纪大气组成与生物演变、泥盆纪乔木出现、二叠纪末的气候突变、白垩纪大气CO2波动、早始新世的高热气候及晚新生代高原隆升等重要环境与气候变化事件,在地球表层系统的"深时研究计划"中发挥着重要作用。目前古土壤学在埋藏与成岩作用影响、环境替代指标、古环境重建模型、时间分辨率等方面有待深入研究。 相似文献
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白垩纪钙质古土壤的发生学特征及古环境意义 总被引:5,自引:0,他引:5
古土壤形成于过去环境,是揭示环境变化历史的重要材料。新近纪(23.03 M a)以前形成的古土壤,年代久远、埋藏深、受成岩作用改造强烈,其发生学特征研究是古环境重建的基础。本文通过对白垩纪时期不同地点的钙质古土壤的发生学研究,拟恢复研究区域古环境。研究表明,古土壤剖面中的A层和B层形态分别产生变化,但层次差异依然明显,且表层土壤有机质含量一般高于表下层,钙积层(Bk)普遍发生并富含碳酸盐结核。可以观察到古土壤中方解石沿根孔淀积特征以及具滑擦面。钙质古土壤质地偏粗,为壤质砂土和砂质壤土。古土壤Bk层中的Ca、Mn、Sr相对富集,其余常量元素与Ba、Sc、Nb、Th、U、Cr、V、Co、N i等元素降低;δCe和δEu负异常以及相对富集重稀土元素。分别按照中国土壤分类系统和美国土壤系统分类两种分类体系进行了古土壤分类。由古土壤类型和特征可以推断白垩纪不同时期,在四川盆地梓潼—巴中地区、辽宁金岭寺—羊山盆地和松辽盆地出现过半湿润至半干旱的气候环境。 相似文献
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从古土壤看北京环境变迁 总被引:6,自引:1,他引:5
古土壤是在古自然环境条件下形的土壤,西胡林黄土剖面位于北京低山丘陵区,埋藏有七层古土壤,根据形态和微形态特征,可以划分出碳酸盐型古土壤、普通褐土型古土壤,淋溶褐土型古土壤和棕壤型古土壤。其地球化学特征和土壤学特性的研究表明,各古土壤类型之间和发生层之间存在着显著差异,通过古城磁测年和地层对比,确定古土壤的年龄。在研究古土壤性状的基础上,配合孢粉分析,可以勾画出北京低山丘陵区的环境变迁,北京地区自50万年前至1万前,交替经历了14次温湿、冷干的气候变化。 相似文献
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古土壤微形态分析是获取古人类活动信息的重要手段,通过研究文化遗址区古土壤微形态特征反映古人类活动和古环境日益成为国内外研究的热点。总结近年来国内外文化遗址区古土壤微形态分析在考古应用方面的研究进展,结果表明土壤微形态分析能够有效地反映古人类活动和古环境信息。提出了应系统建立文化遗址区古土壤微形态特征的诊断指标体系,进一步加强土壤学与考古学的结合,在此基础上建立文化遗址区不同古人类活动区对应的土壤微形态特征数字图像库,丰富文化遗址区古土壤研究方法,提高土壤微形态分析在考古学领域的研究精度和准确度。 相似文献
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通过对形态特征、矿质元素含量变化及分布特征、元素的淋溶(或聚积)状况、土壤发育指标等进行分析,探讨了辽宁朝阳凤凰山剖面古土壤序列的土壤发育特征和发育程度。研究结果表明,在凤凰山古土壤剖面中,自地表向下至19.85 m范围内,除现代土壤层S0(0~108 cm)外,还可划分出9个土壤地层,包括5层黄土(L1~L5)和4层古红土(S1~S4)。所有这些土壤地层都是发育在风积粉尘母质上的古土壤,形成时间介于71~423 ka B.P.之间。古土壤的发生与成土母质(粉尘)的沉积同步进行,发育成红色还是黄色的古土壤决定于不同的成土环境条件和粉尘沉积速率的相对大小。在凤凰山古土壤序列中,各层古红土比各层黄土质古土壤经受了更强的风化和淋溶作用,古红土发育程度明显强于黄土质古土壤。5层黄土质古土壤比较,土壤发育程度最弱的是L1层,最强的是L5层;比较4层古红土的发育程度,最弱的是S2层。纵观凤凰山古土壤序列,各个发育不同程度的古土壤交错排列,说明当地成土环境(气候)在423~71 ka B.P.间经过多次波动变化。 相似文献
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黄土-古土壤的化学风化特征对于理解亚洲内陆干旱化、东亚季风演化以及全球碳循环等具有重要意义。然而,对于亚洲内陆干旱化东进进程最前缘的哈尔滨黄土-古土壤的化学风化特征一无所知。本文对哈尔滨荒山岩芯的黄土-古土壤进行元素地球化学、磁化率和重矿物分析。哈尔滨古土壤的颜色为灰褐色-灰黑色,不同于其他地区的棕红色。黄土-古土壤的CIA(Chemical Index of Alteration)值为68~74(平均值为72),表明了中等程度的化学风化。然而,古土壤表现出与黄土相近甚至更低的化学风化程度。磁化率和重矿物结果显示,古土壤的磁化率明显低于黄土,铁磁性矿物含量明显低于黄土。因此本文认为尽管哈尔滨古土壤是间冰期气候的产物,但其成壤过程中的气候条件冷湿,导致古土壤层的化学风化甚至低于黄土层。冷湿的成壤环境也使得古土壤层的磁铁矿还原分解,导致古土壤层相对于黄土层具有更低的磁化率。哈尔滨古土壤的形成环境和现在的黑龙江黑土相似,可称之为古黑土。 相似文献
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文化遗址区古土壤特性及古环境研究进展 总被引:6,自引:0,他引:6
分析古土壤性质是获取古环境信息的重要手段,通过研究文化遗址区古土壤性质来反映古环境和古人类活动日益成为国内外研究的热点。系统地总结了近年来国内外文化遗址区古土壤的土壤粒度、土壤微形态、土壤元素、土壤磁化率、多环芳烃、动植物遗存等在考古应用方面的研究进展,结果表明上述研究方法有效地反映古环境信息和古人类活动。提出了应借鉴相关研究指标,进一步加强土壤学与考古学的结合,在此基础上丰富文化遗址区古土壤研究方法,加强对文化遗址区土壤的分类研究,逐步建立考古土壤学这一新的学科分支。 相似文献
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中国西北地区 ,从中新世以来就有持续不断的风尘沉积。这种风尘沉积作用即使在气候较为湿热的古土壤发育时期也未中断。黄土上土壤发生的独特性在于成土过程与风尘沉积的同步性。这种独特的成土过程使得土壤剖面深厚而均匀 ,常呈复合性状。古土壤与下伏黄土 ,不再是土壤与母质的关系 ;古土壤的真正母质应是成土过程中不断添加的风尘物质。古土壤中并不存在埋藏A层 ,对古土壤进行A、B、C等发生学层次的划分值得商榷。由于富含碳酸钙风尘物质的不断添入 ,成土作用强度受到不断削弱 ,绝大多数古土壤的成土作用强度未达到棕壤的发育强度。 相似文献
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Physical and chemical properties, macro‐ and micromorphology, clay mineralogy, and stable‐isotope compositions of paleosols within a pedostratigraphic column (PSC) of early to late Pleistocene age, interstratified paleosols, and loess (NW Caucasus, S Russia) were examined to better understand the evolution of the pedogenic environment over this time period, separating the effects of postpedogenic diagenesis. The column includes eight paleosols and six intercalated loessic horizons. Most of paleosols represent Vertisols or vertic intergrades. Vertic features increase in the middle of the PSC, where the paleosols are more clayey in texture and reddish in color. The morphology of carbonate nodules and soft masses, morphology‐ and depth(age)‐related changes in stable C and O isotope compositions, soil color, redoximorphic features, clay mineralogy, and illuviated clay indicate periods of wetter pedoenvironment in the past and suggest the Pleistocene paleosols are polygenetic and were formed with several wet/dry stages under a climate generally similar to the modern environment in the N Caucasus (mean annual temperature approx. 9°C–12°C). Interpretation of the time sequence of climate/environmental change requires careful separation of pedogenic mineral phases from phases altered by later diagenesis. The early Pleistocene period of paleosol formation appeared to be wetter or more humid, resulting in more significant development of vertic features. The terrestrial ecosystem remained dominated by C3 vegetation throughout the formation of the PSC, with four small periods of change towards a greater proportion of C4 plants or increased moisture stress. 相似文献
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The changes in the material composition of the buried soils and loesses in relation to the dynamics of the climate and sediment accumulation were studied for revealing the pedogenetic features and assessing the natural conditions in the steppe zone of the southern Russian Plain. A comparative analysis of the chemical compositions of the different-aged Pleistocene loess-soil complexes (the Otkaznoe, Port-Katon, and Shabel’skoe profiles) on the Terek-Kuma Plain and the Azov-Kuban’ Lowland was performed. An increase in the concentrations of Fe and Mn, which are intensively involved in the biological cycle, and Rb, which is accumulated due to the activation of weathering processes, was observed in the paleosols that developed in interglacial periods of activation of pedogenesis. Increased coefficients of weathering (chemical index of alteration (CIA)) = [Al/(Al + Ca + Na + K)] 100, Al/(Al + Ca + Na + Mg), Rb/Sr, and Mn/Sr), leaching (Ba/Sr), and biological activity and bioproductivity (Mn/Fe, Mn/Al) were also noted for the paleosol horizons as compared with the loess horizons. It is argued that geochemical coefficients can be used as an efficient tool in the soil and paleogeographic studies aimed at the reconstruction and refinement of the schemes of changes in the bioclimatic conditions during the Pleistocene. 相似文献
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Profile development indices of Harden [Harden, J.W., 1982. A quantitative index of soil development from field: examples from a chronosequence in Central California. Geoderma 285, 1–98] and Ferrari and Magaldi [Ferrari, G., Magaldi, D., 1983. Significato ed applicazioni della paleopedologia nella stratigrafia del Quaternario. Boll. Mus. Civ. St. Nat. Verona 10, 315–340] have shown their utility for comparative dating of some paleosols during geomorphological and geological surveys. In Italy and other countries, pedostratigraphic methods have been commonly applied to soil profiles formed in continental formations. Unfortunately, buried and relict paleosols are very scarce or badly preserved in some areas of Italy due to past and recent tectonic activity and to strong human impact dating back to prehistoric times.In order to use relict paleosols for correct chronostratigraphic interpretation of relict paleosols and in order to correlate them with old landscape forms for the reconstruction of Quaternary sequences, a new micromorphological index (MISODI) for assessing soil development and degree of weathering was devised. The index was tested in the extensional tectonic basin of L'Aquila-Scoppito (Abruzzi, Central Italy) where some chronostratigraphic information is available.Results demonstrate that there is a good relationship between presumed relative age of paleosols and degree of weathering and pedogenesis in B and B/C horizons as assessed by this index. The index has the potential to be adapted for application to other paleosol types in other countries. 相似文献
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P. G. Panin 《Eurasian Soil Science》2007,40(2):126-139
Paleosol studies were conducted on the Moskva-Oka interfluve in the center of the East European Plain. Three paleosol complexes were distinguished in the sequence of soil-loess deposits: the Mezin complex of the Late Pleistocene age and the Kamensk and Inzhavin complexes of the Middle Pleistocene. Each of them consisted of the paleosols of two phases: the earlier interglacial phase and the later interstadial phase. In some cases, the paleosols of these two phases were separated by a thin layer of sediments with distinct features of cryoturbation. Paleosols of the interstadial phases are represented by the dark-colored humus-rich meadowchernozemic and chernozem-like prairie soils. During the interglacial periods in the Middle and Late Pleistocene, the soils with pronounced eluvial-illuvial differentiation of their profiles were developed under forest cenoses. Data on the morphology of paleosols; their physical, chemical, and physicochemical properties (particle-size distribution, pH, humus, carbonates, amorphous and crystallized iron oxides, etc.); and their micro-morphological features studied in thin sections prepared from undisturbed soil monoliths make it possible to judge the character of the pedogenesis during different epochs. 相似文献
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Surface and buried Andosols and buried Luvisols of the Nevado de Toluca Late Quaternary tephra-paleosol sequence (Central Mexico) were studied to show whether these soils present an evolutionary sequence and to determine the pedogenic mechanisms and environmental factors involved in the evolutionary process. Micromorphological observations and mineralogical composition of fine sand and clay fractions were used to detect type and succession of soil-forming process. Some of the buried Andosols, defined as “intergrade” Andosols, have a predominantly blocky structure, humus-depleted areas, redoximorphic features and thin clay coatings in Ah horizons. Clay fractions of buried Andosols contain halloysite besides amorphous components, whereas in modern Andosols, allophane is dominant. Luvisols have micro-areas with granular structure and abundant phytoliths in the groundmass of Bt horizons assumed to be the relict Andosol features. Luvisol clay fractions are dominated by halloysite and kaolinite. Primary minerals show micromorphological weathering features in all studied soils being stronger in Luvisols; however, even in Luvisols, sand fractions consist mostly of unstable volcanic silicates. We hypothesise that the studied profiles form an evolutionary sequence: Andosols–“intergrade” Andosols–Luvisols; the soil transformation is supposed to be linked to progressive crystallisation of 1:1 clay minerals. Comparing the Nevado de Toluca paleosol properties with the existing data on volcanic soil climo- and chronesequences and assessing the regional paleopedological and lacustrine records of Quaternary paleoclimates, we concluded that wet/dry climatic oscillations took place during the formation of the studied paleosols. Rapid crystallisation of 1:1 minerals occurred during dry phases, which speeded up the Andosol to Luvisol transformation and made it independent from the primary mineral weathering status. The Andosol to Luvisol transformation accelerated by climatic fluctuations is thought to be a common soil evolutionary pathway in the subtropical and tropical regions of recent volcanism, which suffered contrasting precipitation oscillations in the Quaternary. 相似文献
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O. E. Marfenina D. S. Sakharov A. E. Ivanova A. V. Rusakov 《Eurasian Soil Science》2009,42(4):432-439
Fragments of buried Late Pleistocene (30000-year-old) and Early Holocene (10000-year-old) paleosols contained viable complexes of microscopic fungi. The mycobiota of these paleosols represents a pool of fungal spores that is lower in number and species diversity as compared to that in the recent humus horizons and higher than that in the inclosing layers. The central part of the paleosol profiles is greatly enriched in microscopic fungi. In the intact humus horizons of the Late Holocene (1000–1200 years) paleosols, actively functioning fungal complexes are present. These horizons are characterized by their higher level of CO2 emission. The buried horizons, as compared to the recent mineral ones, contain a greater fungal biomass (by several times) and have a higher species diversity of microscopic fungi (including fungi that are not isolated from the recent horizons). Nonsporulating forms are also present there as sterile mycelium. The seasonal dynamics of the species composition and biomass of the fungal complexes were more prominent and differed from those inherent to the surface soil horizons. In the buried humus horizons, the dynamics of the fungal biomass were mainly due to the changes in the content of spores. The data on the composition of the fungal complexes in the buried soils confirm (due to the presence of stenotopic species) the results of paleobotanic analyses of the past phytocenoses or do not contradict them. 相似文献
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The results of the study of paleosols preserved in the Upper Permian deposits in the central part of the Russian plate are
presented. The paleosol profiles consist of the medium loamy dark brown BMg,ca horizon and the hard cemented calcareous Mm,ca
and Mca horizons. The imprints of plant roots in the Mm,ca horizon and in the upper part of the Mca horizon serve as a vivid
diagnostic feature of these paleosols. Two paleosol morphotypes are distinguished according to the development of the structural-metamorphic
BMg,ca horizon and the micromorphological features. These paleosols were developed from highly calcareous lacustrine deposits
that were initially loose and then subjected to cementation. The processes of leaching and redistribution of carbonates, as
well as the development of the soil structure, vertic properties, eluvialgley processes, lessivage, and soil creep, can be
identified in the studied paleosols. They bear the record of the geomorphic conditions on a flat plain with recurrently drying
inland water reservoirs in a semiarid paleoclimate with well-pronounced seasons. 相似文献
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A vertical sequence of seven buried paleosols composing the Klimovsk pedocomplex was studied in the basin of the Sukhona River
(Vologda oblast). These paleosols were formed according to the accumulative model of pedogenesis (pedosedimentation model).
They had monogenetic profiles with eluvial-gley, structural, and carbonate-illuvial types of differentiation. The set of elementary
pedogenic processes responsible for the development of these soils included gleyzation in the surface horizon and around the
roots, the inter- and intrahorizon translocation and segregation of iron, structuring, humification, weathering, lessivage,
the migration and segregation of carbonates, and the synthesis of palygorskite and analcime. The studied paleosol profiles
make it possible to reconstruct seven pedogenetic stages; each of them lasted for about n × 102–103 years. The paleosols were formed on a flat lacustrine-alluvial plain with drying lakes and temporary streams. The stages
of inundation and water stagnation on the surface alternated with the stages of drying of the territory. The climate was warm,
with well-pronounced wet and dry seasons. Against this general climatic background, arid climatic epochs marked by the development
of calcic paleosols alternated with humid climatic epochs marked by the development of noncalcareous paleosols. 相似文献