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81.
Martin W. Doyle Emily H. Stanley Jon M. Harbor 《Journal of the American Water Resources Association》2002,38(6):1567-1579
ABSTRACT: There is a pressing need for tools to predict the rates, magnitudes, and mechanisms by which sediment is removed from a reservoir following dam removal, as well as for tools to predict where this sediment will be deposited downstream and how it will impact downstream channel morphology. In the absence of adequate empirical data, a good initial approach is to examine the impacts of dam removal within the context of the geomorphic analogies of channel evolution models and sediment waves. Channel changes at two dam breaching sites in Wisconsin involved a succession of channel forms and processes consistent with an existing channel evolution model. Sediment transported downstream after removal of other dams suggests that reservoir sediment may be translated downstream either as a distinct wave or gradually eroded away. More extensive data collection on existing dam removals is warranted before undertaking the removal of a large number of dams. However, if removal is to proceed based on current knowledge, then geomorphic analogies can be used as the foundation for sediment management and stabilization schemes. 相似文献
82.
武汉市工程地貌条件综合评价 总被引:2,自引:1,他引:1
结合武汉市的具体情况,在综合分析的基础上选取了21个工程地貌条件评价因子,采用层次分析法确定权重和主导因子,将各评判因子模糊量化后,对武汉市城市工程地貌条件进行综合评价,作出武汉市工程地貌条件等级评价图。 相似文献
83.
Paul J. Kinzel Carl J. Legleiter Jonathan M. Nelson 《Journal of the American Water Resources Association》2013,49(1):183-204
Kinzel, Paul J., Carl J. Legleiter, and Jonathan M. Nelson, 2012. Mapping River Bathymetry with a Small Footprint Green LiDAR: Applications and Challenges. Journal of the American Water Resources Association (JAWRA) 1‐22. DOI: 10.1111/jawr.12008 Abstract: Airborne bathymetric Light Detection And Ranging (LiDAR) systems designed for coastal and marine surveys are increasingly sought after for high‐resolution mapping of fluvial systems. To evaluate the potential utility of bathymetric LiDAR for applications of this kind, we compared detailed surveys collected using wading and sonar techniques with measurements from the United States Geological Survey’s hybrid topographic/bathymetric Experimental Advanced Airborne Research LiDAR (EAARL). These comparisons, based upon data collected from the Trinity and Klamath Rivers, California, and the Colorado River, Colorado, demonstrated that environmental conditions and postprocessing algorithms can influence the accuracy and utility of these surveys and must be given consideration. These factors can lead to mapping errors that can have a direct bearing on derivative analyses such as hydraulic modeling and habitat assessment. We discuss the water and substrate characteristics of the sites, compare the conventional and remotely sensed river‐bed topographies, and investigate the laser waveforms reflected from submerged targets to provide an evaluation as to the suitability and accuracy of the EAARL system and associated processing algorithms for riverine mapping applications. 相似文献
84.
A. Simon M. Doyle M. Kondolf F.D. Shields B. Rhoads M. McPhillips 《Journal of the American Water Resources Association》2007,43(5):1117-1131
Abstract: Over the past 10 years the Rosgen classification system and its associated methods of “natural channel design” have become synonymous to some with the term “stream restoration” and the science of fluvial geomorphology. Since the mid 1990s, this classification approach has become widely adopted by governmental agencies, particularly those funding restoration projects. The purposes of this article are to present a critical review, highlight inconsistencies and identify technical problems of Rosgen’s “natural channel design” approach to stream restoration. This paper’s primary thesis is that alluvial streams are open systems that adjust to altered inputs of energy and materials, and that a form‐based system largely ignores this critical component. Problems with the use of the classification are encountered with identifying bankfull dimensions, particularly in incising channels and with the mixing of bed and bank sediment into a single population. Its use for engineering design and restoration may be flawed by ignoring some processes governed by force and resistance, and the imbalance between sediment supply and transporting power in unstable systems. An example of how C5 channels composed of different bank sediments adjust differently and to different equilibrium morphologies in response to an identical disturbance is shown. This contradicts the fundamental underpinning of “natural channel design” and the “reference‐reach approach.” The Rosgen classification is probably best applied as a communication tool to describe channel form but, in combination with “natural channel design” techniques, are not diagnostic of how to mitigate channel instability or predict equilibrium morphologies. For this, physically based, mechanistic approaches that rely on quantifying the driving and resisting forces that control active processes and ultimate channel morphology are better suited as the physics of erosion, transport, and deposition are the same regardless of the hydro‐physiographic province or stream type because of the uniformity of physical laws. 相似文献
85.
Hydrogeomorphological Controls on Groundwater Quality in the Rattaphum Catchment (Songkhla Lake Basin), Thailand 总被引:1,自引:0,他引:1
N. Panapitukkul A. Pengnoo C. Siriwong W. Chatupote 《Water, Air, & Soil Pollution: Focus》2005,5(1-2):149-163
The Rattaphum Catchment comprises four major hydrogeomorphic units: mountains, footslopes, plains and inland swamps around
a lake system. The area accommodates three main agro-ecosystems: vegetable, rubber and fruits. During the high-rainfall period,
groundwater levels rise near to the soil surface in all agro-ecosystems. The high water levels remain for 3–4 months in the
coastal plain, while in other areas the groundwater level fluctuates according to the intensity of rainfall events during
the 2–3 months of the rainy season.
Groundwater salinity is higher near Songkhla Lake and decreases rapidly inland. It is generally lower near streams. Salinity
is also lower during periods of higher recharge, increasing slightly during the dry season due to leaching of chemicals from
the agricultural areas. In the saturated sandy soils with high hydraulic conductivity and in the vegetable agro-ecosystem
areas with high water levels, the NO3 level in groundwater always exceeds the WHO standard. Variations in NO3 levels are closely related to patterns of landuse, with higher nitrate levels commonly found in vegetable areas and lower
levels associated with fruit and rubber tree plantations. Nearly all groundwater and surface water is contaminated by coliform
bacteria, with the level of contamination controlled by groundwater levels, the amount of rainfall and farm activities. Vegetable
agro-ecosystems, which have the most intensive cropping system, were found to be the most polluted. In all of the agro-ecosystems,
the most polluted period coincided with the first series of rainfall events. 相似文献
86.
Thompson DM 《Environmental management》2003,31(3):0385-0400
The Veteran's Fishing section of the Blackledge River in central Connecticut was relocated in the late 1950s. The relocation
resulted in an unstable channel despite extensive efforts to prevent erosion. Overbank erosion and meander cutoffs were investigated
using detailed survey data, characterizations of sediment deposits, flow modeling, and a moment-stability analysis. Limited
reworking of revetment boulders indicate that riprap bank material was immobile during a 1979 flood event responsible for
the formation of the cutoff channel. A moment-stability analysis factor-of-safety value of 1.1 supports the conclusion that
riprap was not directly eroded from the banks. Alluvial particles with d95 values ranging up to 120 mm were deposited along a bar downstream from the cutoff channel at flows estimated to be below
a 1.5-year recurrence interval flow. Development of the bar deposit resulted in locally elevated water surfaces at high flow.
The resulting overbank flow across the meander neck to the adjacent downstream bend led to the creation of an upstream migrating
knickpoint, the erosion of approximately 16,000-year-old sediments, and the subsequent meander cutoff. The results of the
study indicate that traditional erosion-control measures cannot prevent extreme channel adjustments if the geomorphic processes
that control sediment continuity also are not considered. 相似文献
87.
本文简述了鞍山市区地势及地质构造,分析了隐伏岩溶及塌陷分布的基本规律,探讨了岩溶在漫长的地质时期形成的过程,及其表现的主要特征,指出了岩溶塌陷的形成机理及对建筑物的威胁,划出了防范区,最后,提出了防治对策。 相似文献
88.
Wetland conservation is a critical environmental management issue. An emerging approach to this issue involves the construction
of wetland environments. Because our understanding of wetlands function is incomplete and such projects must be monitored
closely because they may have unanticipated impacts on ecological, hydrological, and geomorphological systems. Assessment
of project-related impacts on stream channel stability is an important component of riverine wetlands construction and operation
because enhanced erosion or deposition associated with unstable rivers can lead to loss of property, reductions in channel
capacity, and degradation of water quality, aquatic habitat, and riparian aesthetics.
The water/sediment budget concept provides a scientific framework for evaluating the impact of riverine wetlands construction
and operation on stream channel stability. This concept is based on the principle of conservation of mass, i.e., the total
amount of water and sediment moving through a specific reach of river must be conserved. Long-term measurements of channel
sediment storage and other water/sediment budget components provide the basis for distinguishing between project-related impacts
and those resulting from other causes. Changes in channel sediment storage that occur as a result of changes in internal inputs
of water or sediment signal a project-related impact, whereas those associated with changes in upstream or tributary inputs
denote a change in environmental conditions elsewhere in the watershed. A geomorphic assessment program based on the water/sediment
budget concept has been implemented at the site of the Des Plaines River Wetlands Demonstration Projection near Chicago, Illinois,
USA. Channel sediment storage changed little during the initial construction phase, suggesting that thus far the project has
not affected stream channel stability. 相似文献
89.
Sauchyn DJ 《Environmental monitoring and assessment》2001,67(1-2):277-291
The sensitivity of soil landscapes to climatic variability andhydroclimatic events can be expressed as a landscape change safety factor, the ratio of potential disturbance to resistance to change. The use of a geographic information system (GIS) enables the spatially-explicit modeling of landscape sensitivity, but also raises the risk of violating the characteristic scales of disturbance and resistance, because the GIS technically simplifies the extrapolation of models, and associated concepts, to landscapes and scales notrepresented by the digital data base. Embedding landscape sensitivity into hierarchy theory, the formal analysis of the hierarchical structure of complex systems, provides a conceptual framework for the transfer of models and variablesamong landscape scales. In the subhumid southern Canadian plains, major hydroclimatic events (strong winds, intense rain,rapid snow melt) cause much of the physical disturbance of soillandscapes and terrestrial ecosystems. Prolonged dry or wet weather influences the resistance of soil and vegetation to these events. The potential disturbance of soil landscapes therefore can be derived from the probabilities of extreme events and seasonal conditions, as recorded in instrumental and proxy climate records. This time series analysis can belinked to the modeling of landscape sensitivity by establishingthe probabilities of hydroclimatic events and climatic conditions which may exceed or lower the resistance of individual soil landscapes. 相似文献
90.
Hydrogeomorphic Reference Condition and Its Relationship with Macroinvertebrate Assemblages in Southeastern U.S. Sand Hills Streams 下载免费PDF全文
Stephen A. Sefick Ely Kosnicki Michael H. Paller Jack W. Feminella 《Journal of the American Water Resources Association》2018,54(4):914-933
Defining stream reference conditions is integral to providing benchmarks to ecological perturbation. We quantified channel geometry, hydrologic and environmental variables, and macroinvertebrates in 62 low‐gradient, SE United States (U.S.) Sand Hills (Level IV ecoregion) sand‐bed streams. To identify hydrogeomorphic reference condition (HGM), we clustered channel geometry deviation from expectations given watershed area (Aws), resulting in two HGM groups discriminated by area at the top of bank (Atob) residuals <0.6 m2 and >0.6 m2 predicted to be HGM reference/nonreference streams, respectively. Two independent partial least squares discriminate analyses used (1) hydrologic/environmental variables and (2) macroinvertebrate mean trait values (mT) on 10 reference/nonreference stream pairs of similar Aws for classification validation. Nonreference streams had flashier hydrographs and altered flow magnitudes, lower organic matter, coarser substrate, higher pH/specific conductivity compared with reference streams. Macroinvertebrate assemblages corresponded to HGM groupings, with mT indicative of multivoltinism, collector‐gatherer functional feeding groups, fast current‐preference taxa, and lower Ephemeroptera, Plecoptera, and Trichoptera richness and biotic integrity in nonreference streams. HGM classifications in Sand Hills, sand‐bed streams were determined from channel geometry. This easily implemented classification is indicative of contemporary hydrologic disturbance resulting in contrasting macroinvertebrate assemblages. 相似文献