Flood-Drought Hazard Assessment for a Flat Clayey Deposit in the Canadian Prairies

Journal of Environmental Informatics Letters Pub Date : 2019-04-02 DOI:10.3808/JEIL.201900002

A. Akhter, S. Azam

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引用次数: 14

Abstract

Dry climate, clayey soil, and flat topography govern water balance in the southern part of the Canadian Praries. The main purpose of this work was to assess flood-drought hazard using Regina as a typical urban centre in the region. Results indicate that extreme weather patterns are frequent and meteorological parameters have changed from 1970 to 2015: precipitation (+50 mm), air temperature (+0.9oC), relative humidity (+6%), wind speed (-1.35 km/hr), and solar radiation (+0.9 MJ/m2). In the dry climate (Dfb), 77% of the total annual precipitation (386 mm/year) occurs from April to September. The runoff coefficient of 0.6 relates to 63% impervious areas (commercial, industrial and residential) and 35% near-impervious areas (open spaces with low hydraulic conductivity). The flat topography (570 m through 600 m asl over 124 km2) along with a low channel slope of up to 0.4% results in water ponding during short-term and high-intensity rainfalls. Water is managed through the Wascana Creek that holds 98% of the total water volume (84 x 106 m3) in the city. From April to September, volume fluctuations depend on antecedent water levels and meteorological conditions. The city has recently received several events of flash floods (2010 and 2014) and long-term droughts (1984 and 2017). The negative average change in storage indicates drought-like conditions during spring-summer.

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加拿大大草原平坦粘土沉积物水旱灾害评价

干燥的气候，粘土和平坦的地形控制着加拿大草原南部的水平衡。这项工作的主要目的是利用里贾纳作为该地区典型的城市中心来评估洪水-干旱危害。结果表明:1970 - 2015年，极端天气模式频繁，气象参数发生了变化:降水(+50 mm)、气温(+0.9 oc)、相对湿度(+6%)、风速(-1.35 km/hr)和太阳辐射(+0.9 MJ/m2)。在干燥气候(Dfb)， 77%的年总降水量(386 mm/年)发生在4 - 9月。径流系数0.6涉及63%的不透水区域(商业、工业和住宅)和35%的近不透水区域(低水力传导率的开放空间)。地势平坦(海拔570米至600米，超过124平方公里)，河道坡度低至0.4%，在短期和高强度降雨期间形成积水。水是通过瓦斯卡纳河管理的，它拥有城市总水量的98% (84 x 106立方米)。从4月到9月，水量波动取决于先前的水位和气象条件。该市最近经历了几次山洪暴发(2010年和2014年)和长期干旱(1984年和2017年)。库存量的负平均变化表明春夏期间存在类似干旱的情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Environmental Informatics Letters

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