Numerical snowpack model simulation schemes for avalanche prediction in Japan

IF 1 Q4 GEOGRAPHY, PHYSICAL Bulletin of glaciological research Pub Date : 2019-01-01 DOI:10.5331/bgr.18sw02
H. Hirashima
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引用次数: 4

Abstract

This paper presents simulation schemes, developed by National Research Institute for Earth Science and Disaster Resilience (NIED), for stability indices and liquid water infiltration that may be applied to a range of numerical snowpack models for avalanche prediction. The schemes were originally developed in the SNOWPACK model, and are introduced for wider application using flow charts, equations, and parameter tables for simulation of the natural stability index, shear strength, and water content. Validation of the stability indices was performed through simulations of eight recent surface avalanche accidents. Even though the simulations did not explicitly consider the weak layer formed by brittle precipitation particles that triggered most of the recent avalanches, they show that avalanche risks are high when stability indices are below a threshold of 2. This result supports previous work and demonstrates the wider applicability of the schemes for providing information on snowpack stability. However, estimation of avalanche risk could be improved through incorporation of information on snow crystal type and associated metamorphism parameterization in numerical snowpack models.
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日本雪崩预报的数值积雪模式模拟方案
本文介绍了由国家地球科学与灾害恢复研究所(NIED)开发的稳定指数和液态水渗透的模拟方案,这些方案可应用于雪崩预测的一系列数值积雪模型。这些方案最初是在SNOWPACK模型中开发的,并被引入到更广泛的应用中,使用流程图、方程和参数表来模拟自然稳定性指数、抗剪强度和含水量。通过对最近发生的8起地表雪崩事故的模拟,对稳定性指标进行了验证。尽管模拟没有明确考虑触发最近大多数雪崩的脆性降水颗粒形成的弱层,但它们表明,当稳定性指数低于阈值2时,雪崩的风险很高。这一结果支持了以前的工作,并证明了这些方案在提供积雪稳定性信息方面具有更广泛的适用性。然而,通过在数值积雪模型中加入雪晶类型和相关变质参数化信息,可以提高雪崩风险的估计。
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来源期刊
Bulletin of glaciological research
Bulletin of glaciological research GEOGRAPHY, PHYSICAL-
CiteScore
2.20
自引率
20.00%
发文量
1
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