Climatological context of the mid-November 2021 floods in the province of British Columbia, Canada

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Tamar S. Richards-Thomas , Stephen J. Déry , Ronald E. Stewart , Julie M. Thériault
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Abstract

The Canadian province of British Columbia (BC) is subjected to large-scale, destructive floods. The most dramatic was a mid-November 2021 event when atmospheric rivers (ARs) linked to high-intensity storms caused heavy rainfall in southwestern BC, triggering catastrophic flooding. This study examines 37 floods from 2000 to 2021 using information from over 250 climatological stations and compares events with the mid-November 2021 flood. The dates of the floods showed a bi-modal pattern: a primary season (spring to early summer, 16 floods) and a secondary season (fall to early winter, 21 floods). Five mechanisms controlled these floods: heavy rainfall, rapid snowmelt, severe ice jam, rain-on-snow, and a mixture of snowmelt and ice jam; the mid-November 2021 flood was mainly driven by heavy rainfall. Of the 37 floods, those affected by either heavy rainfall (18 floods) or rain-on-snow (10 floods) were used to derive a relationship between the average daily precipitation amount over the duration of an event and the associated integrated water vapour transport IVT¯. Flood events showed a strong linear relationship between these variables with R2 0.85, p < 0.05, and values of these parameters were significantly higher for the mid-November 2021 flood than for > 90% of the others, although they were not the highest. The mid-November 2021 flood was also one of the four rainfall-related floods that occurred in the secondary season with IVT > 400 kg m−1 s−1. The frequency of flood events over the last five years of the study period has slightly decreased when considering flood events with unknown insured cost. In contrast, insured costs of these events have increased, suggesting that present-day floods are becoming more impactful and may require changes to flood management strategies to reduce costs.

加拿大不列颠哥伦比亚省 2021 年 11 月中旬洪灾的气候学背景
加拿大不列颠哥伦比亚省(BC 省)经常发生大规模的破坏性洪水。最引人注目的是 2021 年 11 月中旬发生的事件,当时与高强度风暴相关联的大气河流 (AR) 在不列颠哥伦比亚省西南部造成强降雨,引发了灾难性洪水。本研究利用 250 多个气候站的信息,对 2000 年至 2021 年的 37 次洪水进行了研究,并将这些事件与 2021 年 11 月中旬的洪水进行了比较。洪水发生的日期呈现出一种双模模式:一个主要季节(春季至初夏,16 次洪水)和一个次要季节(秋季至初冬,21 次洪水)。控制这些洪水的机制有五种:暴雨、快速融雪、严重冰塞、雨夹雪以及融雪和冰塞的混合作用;2021 年 11 月中旬的洪水主要是由暴雨引起的。在 37 次洪水中,受暴雨(18 次)或雪后降雨(10 次)影响的洪水被用来推导事件持续期间的日平均降水量与相关综合水汽输送 IVT'之间的关系。2021 年 11 月中旬洪水的这些参数值明显高于其他 90% 的洪水,但不是最高值。2021 年 11 月中旬的洪水也是副季发生的四次降雨相关洪水之一,IVT‾ > 400 kg m-1 s-1。如果考虑到投保成本未知的洪水事件,研究期间最近五年的洪水事件频率略有下降。与此相反,这些事件的投保成本却增加了,这表明当今洪水的影响越来越大,可能需要改变洪水管理策略以降低成本。
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来源期刊
CiteScore
8.30
自引率
3.40%
发文量
1601
期刊介绍: ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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