Influence of river channel geometry in stream flow modelling and guidelines for field investigation          下载免费PDF全文

Hongbo Zhang  Fan Zhang  Xiaonan Shi  Chen Zeng  Dong‐Sin Shih  Gour‐Tsyh Yeh  Daniel R. Joswiak 《水文研究》2014,28(4):2630-2638

Fully physics‐based, process‐level, distributed fluid flow and reactive transport hydrological models are rarely used in practice until recent years. These models are useful tools to help understand the fundamental physical, chemical, and biological processes that take place in nature. In this study, sensitivity analyses based on a mountain area river basin modelling study are performed to investigate the effect of river channel geometric characteristics on downstream water flow. Numerical experiments show that reduction in the river channel geometric measurement interval may not significantly affect the downstream water stage simulation as long as measurement accuracy at special nodes is guaranteed. The special upstream nodes include but are not limited to 1) nodes located close to the observation station, 2) nodes near the borders of different land covers with considerable riverbed roughness changes, 3) nodes at entering points of tributaries causing discharge jump and 4) nodes with a narrow cross‐section width that may control the flow conditions. This information provides guidelines for field investigation to efficiently obtain necessary geometric data for physics‐based hydrological modelling. It is especially useful in alpine areas such as the Tibetan Plateau where field investigation capability is limited under severe topography and climate condition. Copyright © 2013 John Wiley & Sons, Ltd.  相似文献   

Evidence for late Mesoproterozoic tectonism in northern Yukon and the identification of a Grenville‐age tectonothermal belt in western Laurentia     

Dejan Milidragovic  Derek J. Thorkelson  William J. Davis  Daniel D. Marshall  H. Daniel Gibson 《地学学报》2011,23(5):307-313

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An empirical solution for tsunami run-up on compound slopes     

Hyoungsu Park  Daniel T. Cox  Catherine M. Petroff 《Natural Hazards》2015,76(3):1727-1743

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Eigenvector selection with stepwise regression techniques to construct eigenvector spatial filters   总被引：1，自引：0，他引：1  

Yongwan Chun  Daniel A. Griffith  Monghyeon Lee  Parmanand Sinha 《Journal of Geographical Systems》2016,18(1):67-85

Because eigenvector spatial filtering (ESF) provides a relatively simple and successful method to account for spatial autocorrelation in regression, increasingly it has been adopted in various fields. Although ESF can be easily implemented with a stepwise procedure, such as traditional stepwise regression, its computational efficiency can be further improved. Two major computational components in ESF are extracting eigenvectors and identifying a subset of these eigenvectors. This paper focuses on how a subset of eigenvectors can be efficiently and effectively identified. A simulation experiment summarized in this paper shows that, with a well-prepared candidate eigenvector set, ESF can effectively account for spatial autocorrelation and achieve computational efficiency. This paper further proposes a nonlinear equation for constructing an ideal candidate eigenvector set based on the results of the simulation experiment.  相似文献   

Linear vertical vibrations of suspension bridges: A review of continuum models and some new results     

J. Enrique Luco  José Turmo 《Soil Dynamics and Earthquake Engineering》2010,30(9):769-781

The classical continuum model for the linear vertical vibrations of a suspension bridge (Bleich et al., 1950 [1]) is re-examined. The primary objective of the study is to extend the definitive analytical and numerical results of Irvine and Caughey (1974) [2], Irvine and Griffin (1976) [3] and Irvine (1980, 1981) [4], [5] for the natural frequencies, mode shapes, and modal participation factors for an extensible suspension cable, which depend on one dimensionless parameter related to the elasticity of the cable, to the case of a stiffened suspension bridge in which the response depends also on a second dimensionless parameter related to the stiffness of the girder. The continuum suspension bridge model is also used to understand the pattern of variation of mode shapes as a function of cable elasticity and girder stiffness, which has been shown by West et al. (1984) [6] to be considerably more complex than that for a suspension cable. Finally, the threshold amplitudes of free vibrations that would result in the incipient slackening of the hangers are determined.  相似文献   

The role of rainfall temporal and spatial averaging in seasonal simulations of the terrestrial water balance     

Alexa A. Sampson  Daniel B. Wright  Ryan D. Stewart  Allison C. LoBue 《水文研究》2020,34(11):2531-2542

The partitioning of rainfall into surface runoff and infiltration influences many other aspects of the hydrologic cycle including evapotranspiration, deep drainage and soil moisture. This partitioning is an instantaneous non-linear process that is strongly dependent on rainfall rate, soil moisture and soil hydraulic properties. Though all rainfall datasets involve some degree of spatial or temporal averaging, it is not understood how this averaging affects simulated partitioning and the land surface water balance across a wide range of soil and climate types. We used a one-dimensional physics-based model of the near-surface unsaturated zone to compare the effects of different rainfall discretization (5-min point-scale; hourly point-scale; hourly 0.125° gridded) on the simulated partitioning of rainfall for many locations across the United States. Coarser temporal resolution rainfall data underpredicted seasonal surface runoff for all soil types except those with very high infiltration capacities (i.e., sand, loamy sand). Soils with intermediate infiltration capacities (i.e., loam, sandy loam) were the most affected, with less than half of the expected surface runoff produced in most soil types when the gridded rainfall dataset was used as input. The impact of averaging on the water balance was less extreme but non-negligible, with the hourly point-scale predictions exhibiting median evapotranspiration, drainage and soil moisture values within 10% of those predicted using the higher resolution 5-min rainfall. Water balance impacts were greater using the gridded hourly dataset, with average underpredictions of ET up to 27% in fine-grained soils. The results suggest that “hyperresolution” modelling at continental to global scales may produce inaccurate predictions if there is not parallel effort to produce higher resolution precipitation inputs or sub-grid precipitation parameterizations.  相似文献   

Predicting evaporation from mountain streams     

Andras Janos Szeitz  Robert Daniel Moore 《水文研究》2020,34(22):4262-4279

Evaporation can be an important control on stream temperature, particularly in summer when it acts to limit daily maximum stream temperature. Evaporation from streams is usually modelled with the use of a wind function that includes empirically derived coefficients. A small number of studies derived wind functions for individual streams; the fitted parameters varied substantially among sites. In this study, stream evaporation and above-stream meteorological conditions (at 0.5 and 1.5 m above the water surface) were measured at nine mountain streams in southwestern British Columbia, Canada, covering a range of stream widths, temperatures, and riparian vegetation. Evaporation was measured on 20 site-days in total, at approximately hourly intervals, using nine floating evaporation pans distributed across the channels. The wind function was fit using mixed-effects models to account for among-stream variability in the parameters. The fixed-effects parameters were tested using leave-one-site-out cross-validation. The model based on 0.5 m measurements provided improved model performance compared to that based on 1.5 m values, with RMSE of 0.0162 and 0.0187 mm h⁻¹, respectively, relative to a mean evaporation rate of 0.06 mm h⁻¹. Inclusion of atmospheric stability and canopy openness as predictors improved model performance when using the 1.5 m meteorological measurements, with minimal improvement when based on 0.5 m measurements. Of the wind functions reported in the literature, two performed reasonably while five others exhibited substantial bias.  相似文献   

Flow‐pattern evolution of the Laurentide and Cordilleran ice sheets across west‐central Alberta,Canada: implications for ice sheet growth,retreat and dynamics during the last glacial cycle          下载免费PDF全文

Nigel Atkinson  Steven Pawley  Daniel J. Utting 《第四纪科学杂志》2016,31(7):753-768

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Anisotropic Time-Dependent Modeling of Tunnel Excavation in Squeezing Ground     

Huy Tran Manh  Jean Sulem  Didier Subrin  Daniel Billaux 《Rock Mechanics and Rock Engineering》2015,48(6):2301-2317

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Latest Pleistocene and Holocene glacial events in the Colonia valley,Northern Patagonia Icefield,southern Chile          下载免费PDF全文

David A. Nimick  Daniel McGrath  Shannon A. Mahan  Beverly A. Friesen  Jonathan Leidich 《第四纪科学杂志》2016,31(6):551-564

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