Climate Classification in the Canadian Prairie Provinces Using Day-to-Day Thermal Variability Metrics

IF 2.5 4区地球科学 Q3 ENVIRONMENTAL SCIENCES

Atmosphere Pub Date : 2024-09-13 DOI:10.3390/atmos15091111

William A. Gough, Zhihui Li

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Abstract

The data from thirty-one climate stations in the Canadian Prairie provinces of Alberta, Saskatchewan, and Manitoba are analyzed using a number of day-to-day thermal variability metrics. These are used to classify each climate station location using a decision tree developed previously. This is the first application of the decision tree to identify stations as having rural, urban, peri-urban, marine, island, airport, or mountain climates. Of the thirty-one, eighteen were identified as peri-urban, with fourteen of these being airports; six were identified as marine or island; four were identified as rural; one as urban was identified; and two were identified as mountain. The two climate stations at Churchill, Manitoba, located near the shores of Hudson Bay, were initially identified as peri-urban. This was re-assessed after adjusting the number of “winter” months used in the metric for identifying marine and island climates (which, for all other analyses, excluded only December, January, and February). For Churchill, to match the sea ice season, the months of November, March, April, and May were also excluded. Then, a strong marine signal was found for both stations. There is a potential to use these thermal metrics to create a sea ice climatology in Hudson Bay, particularly for pre-satellite reconnaissance (1971). Lake Louise and Banff, Alberta, are the first mountain stations to be identified as such outside of British Columbia. Five airport/non-airport pairs are examined to explore the difference between an airport site and a local site uninfluenced by the airport. In two cases, the expected outcome was not realized through the decision tree analysis. Both Jasper and Edmonton Stony Plain were classified as peri-urban. These two locations illustrated the influence of proximity to large highways. In both cases the expected outcome was replaced by peri-urban, reflective of the localized impact of the major highway. This was illustrated in both cases using a time series of the peri-urban metric before and after major highway development, which had statistically significant differences. This speaks to the importance of setting climate stations appropriately away from confounding influences. It also suggests additional metrics to assess the environmental consistency of climate time series.

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利用逐日热变异指标对加拿大草原省份进行气候分类

我们使用一系列逐日热变率指标分析了加拿大阿尔伯塔省、萨斯喀彻温省和马尼托巴省草原地区 31 个气候站的数据。这些指标被用于利用之前开发的决策树对每个气候站位置进行分类。这是首次应用决策树来确定站点的农村、城市、城郊、海洋、岛屿、机场或山区气候。在 31 个气候站中，18 个被确定为近郊气候站，其中 14 个为机场气候站；6 个被确定为海洋或岛屿气候站；4 个被确定为乡村气候站；1 个被确定为城市气候站；2 个被确定为山区气候站。位于马尼托巴省丘吉尔的两个气候站靠近哈得逊湾海岸，最初被确定为近郊区。在调整了用于识别海洋气候和岛屿气候的 "冬季 "月数（在所有其他分析中，仅将 12 月、1 月和 2 月排除在外）后，重新进行了评估。对于丘吉尔，为了与海冰季节相匹配，11 月、3 月、4 月和 5 月也被排除在外。随后，两个站点都发现了强烈的海洋信号。利用这些热指标创建哈得逊湾海冰气候学是有潜力的，尤其是在卫星勘测之前（1971 年）。阿尔伯塔省的路易斯湖和班夫是不列颠哥伦比亚省以外第一个被确定为山区站的站点。研究了五对机场/非机场站点，以探讨机场站点与未受机场影响的当地站点之间的差异。在两种情况下，决策树分析未能实现预期结果。贾斯珀和埃德蒙顿石原都被归类为近郊区。这两个地点说明了靠近大型高速公路的影响。在这两种情况下，预期结果都被近郊区所取代，反映了主要高速公路对当地的影响。在这两种情况下，都使用了大型公路开发前后的近郊指标时间序列来说明这一点，在统计上有显著差异。这说明了远离干扰影响因素适当设置气候站的重要性。它还提出了评估气候时间序列环境一致性的其他指标。

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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来源期刊

Atmosphere METEOROLOGY & ATMOSPHERIC SCIENCES-

CiteScore

4.60

自引率

13.80%

发文量

1769

审稿时长

1 months

期刊介绍： Atmosphere (ISSN 2073-4433) is an international and cross-disciplinary scholarly journal of scientific studies related to the atmosphere. It publishes reviews, regular research papers, communications and short notes, and there is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles.