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41.
42.
Wave grouping characteristics in nearshore Great Lakes 总被引:2,自引:0,他引:2
The recently advanced approach of wavelet transform is applied to the analysis of wave data measured in the nearshore areas of the Great Lakes. The conventional spectrum analysis of wave time series in the frequency domain can be readily generalized to the frequency and time domain using the wavelet transform. The traditional Fourier transform approach has not been able to directly assess the time localized nature of wave groups. With the application of wavelet transformation, the relatively unexplored wave grouping characteristics come to light as the predominant feature of wave processes. 相似文献
43.
Hydro‐climatic impacts in water resources systems are typically assessed by forcing a hydrologic model with outputs from general circulation models (GCMs) or regional climate models. The challenges of this approach include maintaining a consistent energy budget between climate and hydrologic models and also properly calibrating and verifying the hydrologic models. Subjective choices of loss, flow routing, snowmelt and evapotranspiration computation methods also increase watershed modelling uncertainty and thus complicate impact assessment. An alternative approach, particularly appealing for ungauged basins or locations where record lengths are short, is to predict selected streamflow quantiles directly from meteorological variable output from climate models using regional regression models that also include physical basin characteristics. In this study, regional regression models are developed for the western Great Lakes states using ordinary least squares and weighted least squares techniques applied to selected Great Lakes watersheds. Model inputs include readily available downscaled GCM outputs from the Coupled Model Intercomparison Project Phase 3. The model results provide insights to potential model weaknesses, including comparatively low runoff predictions from continuous simulation models that estimate potential evapotranspiration using temperature proxy information and comparatively high runoff projections from regression models that do not include temperature as an explanatory variable. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
44.
中昆仑山阿什库勒盆地地貌与第四纪环境问题 总被引:8,自引:0,他引:8
本文论述了阿什库勒盆地的地貌和沉积物的发育等问题。认为:(1)阿什库勒盆地的火山锥至少有11座,1号火山1951年不可能有岩浆喷发,火山泥石流体是不存在的;(2)黄土物质是全新世风积物,戈壁荒漠是其物源区;(3)阿什库勒湖与乌鲁克库勒湖均是火山堰塞湖,前者是18kaB.P.前熔岩流阻塞盆地东部出口而成;后者则是6.5kaB.P.新期火山喷发物拦截阿什库勒湖的部分水域所致。 相似文献
45.
Alberto G. Fairén James M. Dohm Miguel A. de Pablo Javier Ruiz Robert C. Anderson 《Icarus》2003,165(1):53-67
Throughout the recorded history of Mars, liquid water has distinctly shaped its landscape, including the prominent circum-Chryse and the northwestern slope valleys outflow channel systems, and the extremely flat northern plains topography at the distal reaches of these outflow channel systems. Paleotopographic reconstructions of the Tharsis magmatic complex reveal the existence of an Europe-sized Noachian drainage basin and subsequent aquifer system in eastern Tharsis. This basin is proposed to have sourced outburst floodwaters that sculpted the outflow channels, and ponded to form various hypothesized oceans, seas, and lakes episodically through time. These floodwaters decreased in volume with time due to inadequate groundwater recharge of the Tharsis aquifer system. Martian topography, as observed from the Mars Orbiter Laser Altimeter, corresponds well to these ancient flood inundations, including the approximated shorelines that have been proposed for the northern plains. Stratigraphy, geomorphology, and topography record at least one great Noachian-Early Hesperian northern plains ocean, a Late Hesperian sea inset within the margin of the high water marks of the previous ocean, and a number of widely distributed minor lakes that may represent a reduced Late Hesperian sea, or ponded waters in the deepest reaches of the northern plains related to minor Tharsis- and Elysium-induced Amazonian flooding. 相似文献
46.
The flood zone of the Ob River, the largest (in watershed area) river of the Arctic Ocean basin, is tens of km wide and, after the Amazon's Varzea, is the world's second largest flooding territory. To better understand the biogeochemistry of the Ob River and adjacent surface waters, we studied, in May and July 2014, the dissolved and colloidal organic carbon and trace metals in small rivers, lakes, and flooded water bodies connected and disconnected with the mainstream as well as the Ob River itself. All major and trace elements were distributed among two major categories depending on their pattern of dependence on the dissolved organic carbon (DOC) concentration. Dissolved inorganic carbon (DIC), Na, Mg, Ca, sulfate, Sr, Mo, Sb and U exhibited a general decrease in concentration with the increase of the [DOC]. The lowest concentration of these elements was observed in DOC-rich humic, acidic (4.9 ≤ pH ≤ 6.1) upland lakes fed by surrounding bogs. These elements marked the influence of underground feeding in July during summer baseflow, which was most visible in flood lakes in the Ob riparian zone and the Ob River itself. In May, the flood lakes were statistically similar to the Ob River. The elevated concentration of DOC (up to 60 mg/L) in the upland lakes was not correlated with groundwater-related elements, suggesting a lack of significant groundwater feeding in these lakes. In contrast, insoluble, usually low mobile elements (Al, Fe, other trivalent hydrolysates, Ti, Zr, Hf) and some metals (Cr, Zn, Ni, Pb) demonstrated a steady increase in concentration with increasing DOC, with the lowest values observed in the Ob River and the highest values observed in small tributaries and organic-rich upland lakes in July. It follows that these elements are limited by their main carriers – organic and organo-ferric colloids, rather than by the availability of the source, peat and mineral soil or plant litter. While for the majority of non-colloidal, groundwater-fed elements with high mobility (DIC, Na, Mg, Ca, K, Sr…) the small tributaries can be used as representatives of the Ob main stream, this is not the case for low mobility “insoluble” elements, such as Fe, Al, trivalent and tetravalent hydrolysates, and metal micronutrients (Cu, Zn, and Mn). The low soluble elements and divalent metals exhibited a much lower concentration in the river mainstream compared to that in the flood lakes, upland lakes and small rivers. This difference is significantly more pronounced in the baseflow in July compared to the spring flood in May. Presumably, autochthonous processes, such as the photo-oxidation and bio-oxidation of organo-ferric colloids and phytoplankton uptake are capable decreasing the concentration of these elements in the river mainstream. 相似文献
47.
《International Journal of Digital Earth》2013,6(8):764-784
ABSTRACTThe net all-wave radiation of the Great Lakes (GL) is a key to understanding the effects of climate change on the GL. There is a high possibility of underestimating the net all-wave radiation of the GL when using existing methodologies with inputs from near-shore and land-based meteorological data. This study provides the first technique to estimate net all-wave radiation over the GL from July 2001 to December 2014 using a combination of data from satellite remote sensing, reanalysis data sets, and direct measurements. The components of the surface radiation budget estimated from the proposed method showed good statistical agreement. The instantaneous net radiation estimated by our methods was compared with the in situ measurements from June 2008 to April 2012 (Stannard Rock Lighthouse: SR) and September 2009–April 2011 (Spectacle Reef Lighthouse: SP). The comparisons from SR and SP also showed strong statistic agreement (R2?=?0.74 and 0.7; RMSE?=?9.26 and 10.60?W?m?2 respectively). Monthly spatial variations of net shortwave radiation varied with cloud cover and surface albedo while net longwave radiation varied with the temperature difference between the water surface and the atmosphere. 相似文献
48.
青藏高原盐湖赋存着丰富的钾资源元素。近年来,在全球变暖和大规模人工开发背景下,青藏高原盐湖卤水钾含量和矿化度发生显著变化。系统对比了青藏高原31个盐湖近年来和1990s之前卤水的钾离子含量和矿化度变化情况,分析其主要影响因素。结果显示,近年来青藏高原盐湖钾离子含量和矿化度总体呈现下降趋势,但不同盐湖变化程度不同;藏北高原、可可西里高原、西昆仑等地区盐湖主要受气候-构造-水文等自然因素影响,钾离子和矿化度下降明显;柴达木盆地盐湖受资源开发和人为干预等因素影响,卤水钾离子含量下降,而矿化度略有增加。 相似文献
49.
《制图学和地理信息科学》2013,40(3):281-290
Seasonal and second homes are important aspects of recreational tourism. Owning a summer cottage, time-share condominium, hunting cabin, or a part-time residence in a location away from home affects development patterns in significant ways. This paper presents the results of using an artificial neural network and a geographic information systems-based approach to identify and quantify the principal predictors of seasonal home distribution within the Lake States region of Minnesota, Wisconsin, and Michigan. Representative variables, such as proximity and spatial configuration of lakes, proximity to the Great Lakes shore, surrounding forest acreage, and public land access have been quantified using geographic information systems at the minor civil division (MCD) scale for the three states. The GIS data have then been fed into artificial neural networks to enable these pattern recognition tools to identify the principal predictors of seasonal home distribution in the Upper Great Lakes States. 相似文献
50.
Sherilyn C. Fritz 《Journal of Paleolimnology》2008,39(1):5-16
Reconstructing climate from lake sediments can be challenging, because the response of lakes and various components of lake
systems are mediated by non-climatic factors, such as geomorphic and hydrologic stetting. As a result, the magnitude of lake
response to climatic forcing may be non-linear. In addition, changes in the lake system associated with the aging process
or non-climatic influences may alter the response to a given climate perturbation. These non-linear and non-stationary characteristics
can produce spatial heterogeneity in the pattern and timing of inferred change. One approach for generating regionally robust
climatic interpretations from lakes is to increase coordinated efforts to generate and synthesize large data sets, so that
localized influences can be more clearly distinguished from broad-scale regional patterns. This approach will be most successful
for evaluating climate variation at multi-decadal or longer temporal scales; the climatic interpretation of higher frequency
limnological variation can be more complicated, because of dating uncertainties and differential response times of individual
proxies and systems.
This paper is based on a plenary talk at the 10th International Paleolimnology Conference in Duluth, Minnesota in July 2006. 相似文献