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1.
Human activity has been recognized to be an important geomorphic agent, and the resulting changes to landforms and land cover are regarded as a global problem. Although there has been much research into the relationships between geomorphic processes and types of land use such as agriculture, mining, and urbanization, it is important to clarify spatiotemporal human impacts on topography on a regional scale when predicting future changes in land cover.This study examined changes in land use to clarify the distribution and impact of anthropogenic changes to landforms, as well as the influence of geology on the extent of these changes. In a case study from Fukuoka Prefecture, Japan, changes in land use over the last century were analyzed using a geographic information system (GIS). The study area, which covers approximately 4930 km2, has experienced urban development since 1950 and has a current population of over 5 million. Land use data were prepared using paper-based early editions of topographic maps. Subsequently, the distribution of anthropogenic landforms was evaluated by comparing landforms with regional geological data.GIS analysis using our prepared land use data, landform data, and regional geological data has clarified the following characteristics of the study area. (1) Land uses prior to 1950 were constrained by topographic relief. After 1950, land use was characterized by urban sprawl. Urban areas expanded and contained both higher elevations and steeper slopes at their margins. The relationships between land uses and landforms during this urbanization are unclear. (2) The area of urban land increased in the geological regions with Paleogene sedimentary rocks (PSD) and Mesozoic granitic rocks (GR) during the 20th century. The largest coal mining area in Japan was located in the PSD geological regions, and ancient iron working was common in the GR geological regions, particularly during the 7th century. This result indicates that the land use distribution, especially urban areas in sloping terrain, is related to the regional geology. (3) Deforestation related to land use resulted in steeper terrain in forest land in the PSD and GR geological regions. These changes to landforms in forest areas occurred as a result of rapid urban sprawl and have created many new boundaries between forest areas with steeper slopes and urban areas with gentler slopes. This phenomenon may have caused an increase in the frequency of sediment-related disasters.This case study indicates that predictions of anthropogenic changes to landform, which are important for the assessment of global climate change and natural hazards, must clarify the relationships between land uses, landforms, and regional geology. 相似文献
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1:25万《毛乌素风沙地貌图》的编制 总被引:2,自引:1,他引:1
风沙地貌图是认识和研究沙漠(沙地)最基本的图件。毛乌素沙漠沙丘类型复杂多样,对毛乌素沙漠风沙地貌进行详细划分,编制《毛乌素风沙地貌图》对深入研究毛乌素沙漠风沙地貌成因、分布和演化规律具有重要意义。根据编图范围和印刷纸张的要求,将《毛乌素风沙地貌图》的比例尺确定为1∶25万。选用1∶10万地形图作为基础资料,并以1∶5万地形图和1∶20万地质图作为补充资料;专题内容资料以landset-8卫星影像为主,结合Google Earth影像对部分细节内容进行补充。在形态成因相关分析的基础上建立地貌分类体系,将毛乌素沙漠地貌划分为风成地貌、湖成地貌、流水地貌、干燥地貌、黄土地貌和其他等6类,其中风成地貌是本图重点展示的内容。根据毛乌素沙漠的地貌特征,采用图例系统和地貌晕渲相结合的方法表示毛乌素沙漠的具体地貌类型,其中图例系统包括底色、符号、代码和注记等多种表示方法,地貌晕渲的使用增强了地貌的立体感,使地图看起来更加美观。 相似文献
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Permafrost in Svalbard: a review of research history, climatic background and engineering challenges 总被引:3,自引:0,他引:3
This paper reviews permafrost in High Arctic Svalbard, including past and current research, climatic background, how permafrost is affected by climatic change, typical permafrost landforms and how changes in Svalbard permafrost may impact natural and human systems. Information on active layer dynamics, permafrost and ground ice characteristics and selected periglacial features is summarized from the recent literature and from unpublished data by the authors. Permafrost thickness ranges from less than 100 m near the coasts to more than 500 m in the highlands. Ground ice is present as rock glaciers, as ice-cored moraines, buried glacial ice, and in pingos and ice wedges in major valleys. Engineering problems of thaw-settlement and frost-heave are described, and the implications for road design and construction in Svalbard permafrost areas are discussed. 相似文献
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Only a few very young landforms are the result of currently operating geomorphic processes. Because the time scale for landscape evolution is much longer than the time scale for late Cenozoic climate changes, almost all landscapes are palimpsests, written over repeatedly by various combinations of climate-determined processes. Relict glacial and periglacial landforms are widely identified in mid-latitude regions that have been traditionally described as having been shaped by the “normal” processes of fluvial erosion. Less confidently, deeply weathered regolith and associated relict landforms in the middle and high latitudes are attributed to early Tertiary warmth. However, assemblages of geomorphic processes specific to certain climatic regions, like faunal and floral assemblages, cannot be translated across latitude, so in spite of the many books about the geomorphology of specific modern climate regions, there are few sources that discuss former warm high-latitude, or cold low-latitude, low-altitude geomorphic processes that have no modern analogs. Students and teachers alike who attempt to interpret landforms by extrapolating modern climatic conditions to other latitudinal zones will find their outlook broadened, and they become better prepared to consider the geomorphic impacts of global climate change. 相似文献
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James F. Petersen 《Geomorphology》2002,47(2-4)
Quarries and roadcuts are time-honored stopping points on geoscience field trips. Artificial exposures are good field sites for learning because of their accessibility, and the potential range of features they present for first-hand examination. On undergraduate-level field excursions, site discussions typically center on stratigraphic unit identification, correlation, depositional environments, paleontology, facies relationships, lithology, mineralogy, and/or structural features. It is rare (in my experience) for geomorphologic features and relationships to be the focus of attention, or even to receive more than passing mention. Yet, roadcuts and quarries offer much potential for learning about basic landform features, forms, and processes. This paper, with illustrated examples, discusses five general characteristics, present in artificial exposures, that offer opportunities for learning about geomorphology. (1) Roadcuts and quarries expose cross sections, not only of structure, but also of landforms, illustrating relationships between subsurface geology and the surface landscape. (2) The faces of roadcuts and quarries are anthropomorphic landforms of relatively well-known age and original form, two qualities that provide opportunities for discussing erosional modification over time. (3) These sites are generally nodes of intense geomorphic activity, useful for directly observing landform processes and their effects. The intensity of degradational and depositional processes at artificial exposures often produces (4) landform miniatures, and (5) landform analogs, both providing instructional examples or illustrations of geomorphic features. In addition to their utility to other geoscience sub-disciplines, roadcuts and quarries also offer important opportunities for students to learn about basic geomorphologic concepts, processes, and forms. 相似文献
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《Norsk geografisk tidsskrift. Norwegian journal of geography》2012,66(4):253-260
A statistical model for automated mapping of the spatial distribution of permafrost in the area of Corral del Veleta in south-east Spain (3703' N, 322' W; 3398 m a.s.l.) was developed and applied. The model uses a relationship between permafrost occurrence as indicated by BTS measurements, and variables such as altitude, solar radiation and summer snow cover. The model was implemented within a geographical information system (GIS) and determines the spatial distribution of probable permafrost in Corral del Veleta. Validation was achieved by comparing the predicted permafrost distribution with the results of recent fieldwork, such as geomorphic mapping, geophysical soundings and ground temperature logging. 相似文献
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随着人类改造自然能力的增长,人类与环境地貌之间的相互作用加剧,地球表层的地貌系统在自然地域分异的基础上,出现的新的内容和特征。地貌演化不再是纯自然的过程,而且,人工地貌、人工—自然混合地貌占的比重增加了。因此,有必要对人、环境与地貌的作用机制,地貌的环境意义等问题进行研究,于是,环境地貌学应运而生。与传统地貌学不同的是,环境地貌学从人类活动与环境地貌相互作用的角度,运用系统论、综合分析方法,厚今薄古,研究现存地貌特征及后效,做出环境地貌的经济评价,探讨环境地貌的社会文化效应。本文拟对环境地貌学的产生、学科性质、研究内容和方法进行探讨,希望有助于促进环境地貌学的研究。 相似文献
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简析城市地貌环境脆弱带 总被引:5,自引:1,他引:4
论述了城市地貌的脆弱性,分析了其脆弱带的特点,认为环境的变异敏感度高、持续利用性降低和对灾变的承受弹性减小是城市地貌环境脆弱带的重要特征。 相似文献
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Jonathan Nott 《Singapore journal of tropical geography》2010,31(3):283-298
Editors' Note: The following is the eighth in the Singapore Journal of Tropical Geography Lecture Series. It is based on the plenary presentation of 10 July at the 7th International Conference on Geomorphology held in Melbourne in 2009. Geomorphologists have an important role to not just understand and interpret the nature of processes operating within the physical landscape, but also to communicate this information to those who can use it to benefit society. Policy makers and legislators often develop documents relating to the management and use of landforms and landscapes that contain little or no input from geomorphologists, which can and do have undesirable consequences for governments, communities and the natural environment. Examples relating to rivers and coasts from Queensland, Australia highlight inadequacies in policies and legislation because of a lack of input from geomorphologists. In one instance the definition of a stream channel has been reinterpreted by the legal system because of a poorly developed definition within the legislation. The outcome is a legal definition of a stream channel based on the Q3 month flow (3‐month average recurrence interval discharge or flow). In another instance, people and property are being placed at risk from coastal erosion and impact from tropical cyclone generated marine inundations (waves and surge) because a lack of understanding of geomorphic processes operating along the coast has been inscribed into policies and legislation. These are examples from one region but similar situations will exist elsewhere globally. Both politicians and geomorphologists have a role to communicate better with each other about these matters. Geomorphologists in particular need to be more proactive in advising politicians on issues in which they have expertise. 相似文献
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Large debris-flow units commonly occur on the distal sides of subaqueous end moraines deposited by surges of Svalbard tidewater glaciers, but have rarely been described in terrestrial settings. Some researchers have argued that these kinds of debris flows reflect processes unique to the subaqueous environment, such as the extrusion of subglacial deforming layers or extensive failure of oversteepened moraine fronts. In this paper, we describe terrestrial and subaqueous parts of a single late Holocene moraine system deposited by a major surge of the tidewater glacier Paulabreen in west Spitsbergen. The ice-marginal landforms on land closely resemble the corresponding landforms on the seabed as evidenced by geomorphic mapping and geophysical profiles from both environments. Both onland and offshore, extensive areas of hummocky moraine occur on the proximal side of the maximum glacier position, and large mud aprons (interpreted as debris flows) occur on the distal side. We show that the debris-flow sediments were pushed in front of the advancing glacier as a continuously failing, mobile push moraine. We propose that the mud aprons are end members of a proglacial landforms continuum that has thrust-block moraines as the opposite end member. Two clusters of dates (~ 8000 YBP and ~ 700 YBP) have previously been interpreted to indicate two separate surges responsible for the moraine formation. New dates suggest that the early cluster indicates a local extinction of the abounded species Chlamys islandica. Other changes corresponding to the widespread 8.2 ka event within the fjord, may suggest that the extinction of the C. islandica corresponds to that time. 相似文献
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Coal fires occur in underground natural coal seams, in exposed surface seams, and in coal storage or waste piles. The fires ignite through spontaneous combustion or natural or anthropogenic causes. They are reported from China, India, USA, South Africa, Australia, and Russia, as well as many other countries. Coal fires lead to loss of a valuable resource (coal), the emission of greenhouse-relevant and toxic gases, and vegetation deterioration. A dangerous aspect of the fires is the threat to local mines, industries, and settlements through the volume loss underground. Surface collapse in coal fire areas is common. Thus, coal fires are significantly affecting the evolution of the landscape. Based on more than a decade of experience with in situ mapping of coal fire areas worldwide, a general classification system for coal fires is presented. Furthermore, coal seam fire geomorphology is explained in detail. The major landforms associated with, and induced by, these fires are presented. The landforms include manifestations resulting from bedrock surface fracturing, such as fissures, cracks, funnels, vents, and sponges. Further manifestations resulting from surface bedrock subsidence include sinkholes, trenches, depressions, partial surface subsidence, large surface subsidence, and slides. Additional geomorphologic coal fire manifestations include exposed ash layers, pyrometamorphic rocks, and fumarolic minerals. The origin, evolution, and possible future development of these features are explained, and examples from in situ surveys, as well as from high-resolution satellite data analyses, are presented. The geomorphology of coal fires has not been presented in a systematic manner. Knowledge of coal fire geomorphology enables the detection of underground coal fires based on distinct surface manifestations. Furthermore, it allows judgments about the safety of coal fire-affected terrain. Additionally, geomorphologic features are indicators of the burning stage of fires. Finally, coal fire geomorphology helps to explain landscape features whose occurrence would otherwise not be understood. Although coal fire-induced thermal anomalies and gas release are also indications of coal fire activity, as addressed by many investigators, no assessment is complete without sound geomorphologic mapping of the fire-induced geomorphologic features. 相似文献
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Coastal morphodynamics and Chenier-Plain evolution in southwestern Louisiana, USA: A geomorphic model 总被引:1,自引:0,他引:1
Using 28 topographic profiles, air-photo interpretation, and historical shoreline-change data, coastal processes were evaluated along the Chenier Plain to explain the occurrence, distribution, and geomorphic hierarchy of primary landforms, and existing hypotheses regarding Chenier-Plain evolution were reconsidered. The Chenier Plain of SW Louisiana, classified as a low-profile, microtidal, storm-dominated coast, is located west and downdrift of the Mississippi River deltaic plain. This Late-Holocene, marginal-deltaic environment is 200 km long and up to 30 km wide, and is composed primarily of mud deposits capped by marsh interspersed with thin sand- and shell-rich ridges (“cheniers”) that have elevations of up to 4 m.In this study, the term “ridge” is used as a morphologic term for a narrow, linear or curvilinear topographic high that consists of sand and shelly material accumulated by waves and other physical coastal processes. Thus, most ridges in the Chenier Plain represent relict open-Gulf shorelines. On the basis of past movement trends of individual shorelines, ridges may be further classified as transgressive, regressive, or laterally accreted. Geomorphic zones that contain two or more regressive, transgressive, or laterally accreted ridges are termed complexes. Consequently, we further refine the Chenier-Plain definition by Otvos and Price [Otvos, E.G. and Price, W.A., 1979. Problems of chenier genesis and terminology—an overview. Marine Geology, 31: 251–263] and define Chenier Plain as containing at least two or more chenier complexes. Based on these definitions, a geomorphic hierarchy of landforms was refined relative to dominant process for the Louisiana Chenier Plain. The Chenier Plain is defined as a first-order feature (5000 km2) composed of three second-order features (30 to 300 km2): chenier complex, beach-ridge complex, and spit complex. Individual ridges of each complex type were further separated into third-order features: chenier, beach ridge, and spit.To understand the long-term evolution of a coastal depositional system, primary process–response mechanisms and patterns found along the modern Chenier-Plain coast were first identified, especially tidal-inlet processes associated with the Sabine, Calcasieu, and Mermentau Rivers. Tidal prism (Ω) and quantity of littoral transport (Mtotal) are the most important factors controlling inlet stability. Greater discharge and/or tidal prism increase the ability of river and estuarine systems to interrupt longshore sediment transport, maintain and naturally stabilize tidal entrances, and promote updrift deposition. Thus, prior to human modification and stabilization efforts, the Mermentau River entrance would be classified as wave-dominated, Sabine Pass as tide-dominated, and Calcasieu Pass as tide-dominated to occasionally mixed.Hoyt [Hoyt, J.H., 1969. Chenier versus barrier, genetic and stratigraphic distinction. Am. Assoc. Petrol. Geol. Bull., 53: 299–306] presented the first detailed depositional model for chenier genesis and mudflat progradation, which he attributed to changes in Mississippi River flow direction (i.e., delta switching) caused by upstream channel avulsion. However, Hoyt's model oversimplifies Chenier-Plain evolution because it omits ridges created by other means. Thus, the geologic evolution of the Chenier Plain is more complicated than channel avulsions of the Mississippi River, and it involved not only chenier ridges (i.e., transgressive), but also ridges that are genetically tied to regression (beach ridges) and lateral accretion (recurved spits).A six-stage geomorphic process-response model was developed to describe Chenier-Plain evolution primarily as a function of: (i) the balance between sediment supply and energy dissipation associated with Mississippi River channel avulsions, (ii) local sediment reworking and lateral transport, (iii) tidal-entrance dynamics, and (iv) possibly higher-than-present stands of Holocene sea level. Consequently, the geneses of three different ridge types (transgressive, regressive, and laterally accreted) typically occur contemporaneously along the same shoreline at different locations. 相似文献
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《自然地理学》2013,34(2):170-182
The enigmatic DeKalb mounds in north-central Illinois, United States, are oval, inactive hillocks of Wisconsinan age. They have heights up to 5 m, lengths up to 1 km, and are composed either of till and lacustrine sediment with a thin cap of loess, or entirely of outwash. They are underlain by one till member within a large depression that is flanked by higher, elevated, morainic till members. Different origins have been proposed for the DeKalb mound field but the only previous in-depth study identified them as pingo remnants, presumably due to the degradation of significant ground ice and permafrost. However, the investigators who reported this viewed their own hypothesis as problematical. These problems can be resolved by correlating the relict Illinois landforms to relict glacial landforms that show similar morphologies and field relationships in Saskatchewan, Canada, and North Dakota, United States. In this study, the DeKalb mounds are presumed to have developed from an intricate set of glacial dead-ice and mass movement processes. This reinterpretation reflects a range of either discontinuous permafrost or negative permafrost within the paleoenvironment. 相似文献
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T. Vanwalleghem M. Van Den Eeckhaut J. Poesen G. Govers J. Deckers 《Geomorphology》2008,95(3-4):504-517
Although numerous studies have reported on past geomorphic change, it is a common difficulty to identify the relative role of driving human or climatic forces. To that end, the possibilities of rare events logistic regression are explored in a 1300-hectare large, ancient forest in central Belgium. Here, 43 permanent gullies and 71 closed depressions were observed that were probably caused by an anthropogenically induced land use change in the past. This human origin was confirmed for a limited number of case-study areas by recent geomorphic research, with dating and soil profile analysis. The objective of this study is to analyze the factors controlling the position of all gullies and closed depressions in the study area and investigate their mutual relation. This will indicate whether or not the results obtained for the small case-study areas can be extrapolated to the rest of the geomorphic features found in the whole study area.The obtained logistic regression models show that both anthropogenic and physical factors are important in the spatial distribution of both geomorphic features. For the prediction of the occurrence of closed depressions, anthropogenic factors are most important however. The probability of finding a depression is larger close to reported prehistoric and Roman archaeological sites, on well-developed, undisturbed Luvisols and on northeast- to southeast-facing slopes. The local slope gradient of the soil surface is the most important factor in the multivariate model for predicting the presence of the permanent gullies. The occurrence probability of permanent gullies is also larger on northeast- to southeast-facing slopes. The anthropogenic factor expressed by the distance to the closed depressions is significant as a univariate model. This suggests that a critical slope gradient is a prerequisite for gully incision, but gully formation still needs to be triggered by a human-induced land use change. It can therefore be concluded that both the gullies and the closed depressions in the Meerdaal Forest are related to past human activity, either directly, through mining of loess or indirectly, through runoff production on cropland. This study also showed the potential of rare events logistic regression for analyzing the spatial pattern of geomorphological features in relation to environmental factors. 相似文献
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火星风沙地貌研究进展 总被引:3,自引:2,他引:1
作为最活跃的地貌塑造外营力,风力作用在火星表面塑造了各种各样的地貌形态。对火星风沙活动及风沙地貌的认识是随着观测和探测技术的进步而逐渐明确的。火星沙丘在北极地区连绵成带状分布,在其他地区分布比较零散,且主要与撞击坑、河谷和山谷相伴分布。火星风沙地貌与地球上相应的地貌类型形态相似而规模更大,表明两个星球上塑造风沙地貌的动力系统具有一定的相似性。火星沙丘主要由玄武岩质(北极部分沙丘为石膏质)颗粒堆积而成,沉积物粒度比地球粗,主要是由中沙和粗纱组成。随着获取影像时空分辨率的提高和着陆器在火星近表面的观测,发现火星上部分区域的沙丘和沙波纹比较活跃。同地球一样,火星风沙地貌也可指示火星气候的变化。 相似文献
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Thad A. Wasklewicz 《自然地理学》2013,34(5):361-375
The spatial distribution of riparian vegetation is closely allied to abiotic processes along streams and rivers. There are dynamic relations between physical process, fluvial forms, and biotic structures. Explanation of these associations is critical to scientific understanding and practical management of riverine environments. Therefore, this study determines what geophysical parameters lead to the spatial patterns found in species of warm interior and cold montane riparian deciduous forests in central Arizona. Five riparian vegetation populations were examined along five perennial streams in the transition zone of central Arizona. The populations included Populus angustifolia (narrowleaf cottonwood), two commonly associated species of willow Salix lasiandra (western black willow) and Salix lasiolepis (arroyo willow), Alnus oblongifolia (Arizona alder), and Platanus wrightii (Arizona sycamore). Canonical correspondence analysis (CCA) with a forward selection was used to assess quantitatively the role of stream power in riparian vegetation patterns. Results indicated 40% of the spatial variability in the riparian populations was explained by channel morphology and several other variables related to changing channel geometry. Although floods are linked to the formation of geomorphic surfaces and the regeneration of riparian vegetation, changing fluvial landforms and channel patterns were closely related to the riparian species patterns in central Arizona. [Key words: Mogollon Rim, channel morphology, multivariate statistics.] 相似文献
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气候变化下的祁连山地区近40 年多年冻土分布变化模拟 总被引:4,自引:1,他引:3
冻土是一种对气候变化极为敏感的土体介质,故气候的变化过程能反映和模拟冻土的分布及变化趋势。基于高程-响应模型,运用高分辨率的高程数据(DEM)、经度数据(Longitude)、纬度数据(Latitude)、年平均气温数据(MAAT)和气温垂直递减率数据(VLRT)对祁连山地区近40 年的多年冻土分布状况进行了数值模拟。分析表明:① 该高程-响应模型模拟的冻土范围和变化趋势与相关研究所引入逻辑回归模型的模拟结果基本一致。② 该模型模拟的1970s、1980s、1990s,2000s 的祁连山地区冻土分布面积分别为9.75×104 km2、9.35×104 km2、8.85×104 km2、7.66×104 km2。在这40 年中,冻土的分布范围呈现出明显减少的趋势。③ 从1970s 到1980s、1980s 到1990s、1990s 到2000s 三个时间段内,冻土分布范围的退缩速率分别为4.1%、5.3%、13.4%,其呈现逐渐增速的趋势,1990s 到2000s 出现了跳跃式增长。本研究可为分析长时间序列祁连山地区的多年冻土变化提供科学参考依据。 相似文献