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271.
沈阳中心城区水源地漏斗恢复调蓄模拟研究 总被引:3,自引:0,他引:3
在沈阳市由于长期地下水超采严重,已经形成大面积地下漏斗空间,形成引发严重地质灾害的隐患。分析了沈阳市地下水漏斗可恢复性建设的水文地质条件。并结合数值模拟方法研究了沈阳市地下水漏斗区域水量恢复时间和地下水漏斗中心水位恢复程度。结果表明:在同时增加河流补给量和压缩地下水开采量条件下,2年以后地下水漏斗中心水位可达到31.67m;压缩地下水开采量或增加河流补给量,均可在4年恢复漏斗区地下水位,且沈阳城区可有效增加地下水资源量0.88×108m3。 相似文献
272.
Here we report on the different sampling strategies for almost seven years of sampling rocks/sediments for the determination of As within the Intermediate Aquifer System (IAS) and upper Floridan Aquifer System (FAS), a very large and productive limestone aquifer spanning from Georgia into Florida. In the FAS, As contamination has become a recurring problem during aquifer storage and recovery (ASR), particularly in central and south Florida.To investigate these phenomena, samples from solid drill cores and rock cuttings were collected from the Hawthorn Group, Suwannee Limestone, Ocala Limestone and Avon Park Formation. Samples were taken along drill cores and rock cuttings (referred to as ‘interval’ samples) or from particular drill core sections and rock cuttings (referred to as ‘targeted’ samples) likely to contain elevated concentrations of As as indicated by the presence of pyrite, hydrous ferric oxide, organic matter, clay minerals, fracture surfaces, and high permeable (moldic) zones.Arsenic was present in all of the stratigraphic units at low concentrations, close to the global average for As in limestone of 2.6 mg/kg. The highest As concentration was 69 mg/kg. In all units, however, the average bulk As concentration in the targeted samples was substantially higher than that in the interval samples. Based on direct spot measurements by electron microprobe and indirect calculations, pyrite was identified as the main source of As in the FAS. Concentrations in pyrite ranged from less than 100 mg/kg to more than 11,000 mg/kg. Because pyrite is heterogeneously distributed, both vertically and horizontally in the sampled stratigraphic units, the same was observed for the distribution of As. However, As concentrations generally decreased with depth, i.e., highest As values in the Hawthorn Group and lowest As values in the Ocala Limestone and Avon Park Formation. Compared to pyrite, other trace minerals contained much less As.The average As concentrations of the two types of sample media (solid cores and rock cuttings) were quite similar. These results indicate that if simply the average bulk rock As concentration of a geologic unit is the desired outcome of an investigation, either interval or targeted sampling of rock cuttings, seems to be sufficient. This is particularly important when time and money are a factor. This approach could work equally well for any other trace element. Structural sedimentary information, such as fractures, etc., is likely lost, however, when sampling rock cuttings. Thus, if this information is required, solid core samples need to be collected by hollow core diamond drilling. 相似文献
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275.
V. Martínez-Alvarez B. Gallego-ElviraJ.F. Maestre-Valero M. Tanguy 《Estuarine, Coastal and Shelf Science》2011
A modelling approach is proposed to evaluate the environmental dynamics of coastal lagoons. The water, heat and salt balances are addressed simultaneously, providing a better estimation of evaporation and water exchanges. Compared to traditional approaches, the model presented accounts for the effects of water salinity, heat storage and net energy advected in the water body. The model was applied daily to the Mar Menor coastal lagoon (SE Spain) from 2003 through 2006. Water exchanges with the Mediterranean Sea were estimated based on the monthly trend of the lagoon salinity and were correlated with monthly averages of wind speed. The mean daily water exchange with the sea was 1.77 hm3 d−1. This exchange accounted for only 1% of the heat losses in the lagoon heat balance, and it is the most important flow in the water balance. The mean annual evaporation flux amounted to 101.3 W m−2 (3.55 mm d−1), while the sensible heat flux amounted to 19.7 W m−2, leading to an annual Bowen ratio on the order of 0.19. To validate the model, daily water temperatures were predicted based on the daily heat balance of the water body and were compared with remote sensing data from water surface standard products. 相似文献
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利用可实例化的智能线程池技术,通过两个线程池分别实现了前兆数据的并行数据采集与数据的多目标入库,可自动实现对最近巧天内的数据进行检测与采集,采集仪器的数量由原来的几台、十几台提高到上千台,大大提高了地震前兆数据的采集效率;通过数据的多目标入库,数据由台站到区域中心以及国家台网中心的同步速度也得到很大提高. 相似文献
278.
海南岛土壤有机碳空间分布特征及储量 总被引:1,自引:0,他引:1
利用2005年海南岛生态地球化学调查获得的8713件表层土壤和2197件深层土壤样品,计算分析海南岛土壤有机碳的空间分布特征,结果显示:0~20 cm、0~100 cm、0~180 cm 3个深度的土壤有机碳密度分别为2.86、9.48、13.72 kg/m2,与国内其他典型地区相比,几乎处于最低水平.区域土壤有机碳密度图显示,海南岛土壤有机碳的分布与地貌类型关系密切,高值区分布在山地、丘陵、火山岩台地等地区,其次是平原区,最低为滨海地区.统计显示,土地利用类型、土类不同,土壤有机碳密度差异明显,不同地类土壤有机碳密度:园地>林地>其他土地>耕地,土壤有机碳主要贮存在林地和耕地中;不同土类土壤有机碳密度:黄壤>赤红壤>砖红壤>水稻土>燥红土,土壤有机碳主要贮存在砖红壤、赤红壤和水稻土中;0~180 cm土壤有机碳库储量为478.13 Mt. 相似文献
279.
C. M. Aruffo A. Rodriguez-herrera E. Tenthorey F. Krzikalla J. Minton A. Henk 《Australian Journal of Earth Sciences》2013,60(7):987-1001
This paper presents the first published 3D geomechanical modelling study of the CO2CRC Otway Project, located in the state of Victoria, Australia. The results of this work contribute to one of the main objectives of the CO2CRC, which is to demonstrate the feasibility of CO2 storage in a depleted gas reservoir. With this aim in mind, a one-way coupled flow and geomechanics model is presented, with the capability of predicting changes to the in situ stress field caused by changes in reservoir pressure owing to CO2 production and injection. A parametric study investigating the pore pressures required to reactivate key, reservoir-bounding faults has been conducted, and the results from the numerical simulation and analytical analysis are compared. The numerical simulation indicates that the critical pore fluid pressure to cause fault reactivation is 1.15 times the original pressure as opposed to 1.5 times for the comparable analytical model. Possible reasons for the differences between the numerical and analytical models can be ascribed to the higher degree of complexity incorporated in the numerical model. Heterogeneity in terms of lateral variations of hydrological and mechanical parameters, effect of topography, presence of faults and interaction between cells are considered to be the main sources for the different estimation of critical pore pressure. The numerical model, which incorporates this greater complexity, is able then to better describe the state of stress that acts in the subsurface compared with a simple 1D analytical model. Moreover, the reactivation pressures depend mainly on the state of stress described; therefore we suggest that numerical models be performed when possible. 相似文献
280.
Spatial patterns and environmental factors influencing leaf carbon content in the forests and shrublands of China 总被引:1,自引:0,他引:1
Hang Zhao Li Xu Qiufeng Wang Jing Tian Xuli Tang Zhiyao Tang Zongqiang Xie Nianpeng He Guirui Yu 《地理学报(英文版)》2018,28(6):791-801
Leaf carbon content (LCC) is widely used as an important parameter in estimating ecosystem carbon (C) storage, as well as for investigating the adaptation strategies of vegetation to their environment at a large scale. In this study, we used a dataset collected from forests (5119 plots) and shrublands (2564 plots) in China, 2011–2015. The plots were sampled following a consistent protocol, and we used the data to explore the spatial patterns of LCC at three scales: plot scale, eco-region scale (n = 24), and eco-region scale (n = 8). The average LCC of forests and shrublands combined was 45.3%, with the LCC of forests (45.5%) being slightly higher than that of shrublands (44.9%). Forest LCC ranged from 40.2% to 51.2% throughout the 24 eco-regions, while that of shrublands ranged from 35% to 50.1%. Forest LCC decreased with increasing latitude and longitude, whereas shrubland LCC decreased with increasing latitude, but increased with increasing longitude. The LCC increased, to some extent, with increasing temperature and precipitation. These results demonstrate the spatial patterns of LCC in the forests and shrublands at different scales based on field-measured data, providing a reference (or standard) for estimating carbon storage in vegetation at a regional scale. 相似文献