利用俄罗斯萨哈共和国(雅库特)北方森林短期火灾天气变异性中的气象参数识别可能的气候变化信号

Kiunnei Kirillina, Wanglin Yan, Lynn Thiesmeyer, E. Shvetsov
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引用次数: 0

摘要

北方森林是一种陆地生态系统,极易受到短期气候和天气变化的影响。探测由气候引起的火灾天气的突然、快速变化以及火灾季节性的相关变化,可以为评估气候变化对林业的影响提供重要见解。本文以俄罗斯萨哈共和国为研究区域,提出了一种利用气温、大气降水等主要气象参数的短期秩来探测气候变化信号以表达近期火灾天气变率的方法。NOAA(美国国家海洋和大气管理局)1996年至2018年的“全球每日产品摘要”气候数据用于调查驱动火灾活动的气象参数。气候变化信号的检测是通过四步分析完成的。首先,采用描述性统计的方法,掌握火灾天气的月、年、季、高峰时段特征。然后,我们计算了WMO参考期(1961-1990)和最近30年期间的历史平均值,与当前平均值进行比较。使用标准差、变异系数、偏离历史常态的百分比、偏离平均值的百分比和降水浓度指数来分析火灾天气的可变性。使用同质性分析评估火灾天气演变的不一致性和突变,同时使用Mann-Kendall检验来检测时间序列中的显著趋势。结果表明,春季和秋季气温显著升高,延长了火灾季节,并可能导致火灾面积增加。我们在9月份再次发现降雨量严重不足,延长了火灾季节。此外,本研究提出了一种新的统计方法,适用于利用短期气候等级检测气候变化信号对火灾天气变率的影响,并评估其对火灾季节性和活动性的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identifying Possible Climate Change Signals Using Meteorological Parameters in Short-Term Fire Weather Variability for Russian Boreal Forest in the Republic of Sakha (Yakutia)
The Boreal forest is a terrestrial ecosystem highly vulnerable to the impacts of short-term climate and weather variabilities. Detecting abrupt, rapid climate-induced changes in fire weather and related changes in fire seasonality can provide important insights to assessing impacts of climate change on forestry. This paper, taking the Sakha Republic of Russia as study area, aims to suggest an approach for detecting signals indicating climate-induced changes in fire weather to express recent fire weather variability by using short-term ranks of major meteorological parameters such as air temperature and atmospheric precipitation. Climate data from the “Global Summary of the Day Product” of NOAA (the United States National Oceanic and Atmospheric Administration) for 1996 to 2018 were used to investigate meteorological parameters that drive fire activity. The detection of the climate change signals is made through a 4-step analysis. First, we used descriptive statistics to grasp monthly, annual, seasonal and peak fire period characteristics of fire weather. Then we computed historical normals for WMO reference period, 1961-1990, and the most recent 30-year period for comparison with the current means. The variability of fire weather is analyzed using standard deviation, coefficient of variation, percentage departures from historical normals, percentage departures from the mean, and precipitation concentration index. Inconsistency and abrupt changes in the evolution of fire weather are assessed using homogeneity analysis whilst a Mann-Kendall test is used to detect significant trends in the time series. The results indicate a significant increase of temperature during spring and fall months, which extends the fire season and potentially contributes to increase of burned areas. We again detected a significant rainfall shortage in September which extended the fire season. Furthermore, this study suggests a new approach in statistical methods appropriate for the detection of climate change signals on fire weather variability using short-term climate ranks and evaluation of its impact on fire seasonality and activity.
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