Vertical Motions in Orographic Cloud Systems over the Payette River Basin. Part 4: Controls on Supercooled Liquid Water Content and Cloud Droplet Number Concentrations

IF 2.6 3区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Applied Meteorology and Climatology Pub Date : 2023-08-10 DOI:10.1175/jamc-d-23-0080.1
T. J. Zaremba, R. Rauber, B. Geerts, J. French, S. Tessendorf, L. Xue, K. Friedrich, C. Weeks, R. Rasmussen, M. Kunkel, D. Blestrud
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Abstract

This paper examines the controls on supercooled liquid water content (SLWC) and drop number concentrations (Nt,CDP) over the Payette River Basin during the SNOWIE campaign. During SNOWIE, 27.4% of 1 Hz in situ cloud droplet probe samples were in an environment containing supercooled liquid water (SLW). The interquartile range of SLWC, when present, was found to be 0.02-0.18 g m−3, and 13.3−37.2 cm−3 for Nt,CDP, with the most extreme values reaching 0.40−1.75 g m−3 and 150−320 cm−3 in isolated regions of convection and strong shear-induced turbulence. SLWC and Nt,CDP distributions are shown to be directly related to cloud top temperature and ice particle concentrations, consistent with past research over other mountain ranges. Two classes of vertical motions were analyzed as potential controls on SLWC and Nt,CDP, the first forced by the orography and fixed in space relative to the topography (stationary waves), and the second transient, triggered by vertical shear and instability within passing synoptic-scale cyclones. SLWC occurrence and magnitudes, and Nt,CDP associated with fixed updrafts were found to be normally distributed about ridgelines when SLW was present. SLW was more likely to form at low altitudes near the terrain slope associated with fixed waves due to higher mixing ratios and larger vertical air parcel displacements at low altitudes. When considering transient updrafts, SLWC and Nt,CDP appear more uniformly distributed over the flight track with little discernable terrain dependence as a result of time and spatially varying updrafts associated with passing weather systems. The implications for cloud seeding over the basin are discussed.
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帕耶特河流域地形云系统的垂直运动。第4部分:过冷液态水含量和云滴数浓度的控制
本文研究了雪威战役期间帕耶特河流域过冷液态水含量(SLWC)和滴数浓度(Nt,CDP)的控制。在SNOWIE期间,27.4%的1 Hz原位云滴探针样品处于含有过冷液态水(SLW)的环境中。当SLWC存在时,发现Nt,CDP的四分位数范围为0.02 ~ 0.18 g m−3和13.3 ~ 37.2 cm−3,在对流和强剪切诱导湍流的孤立区域,最极端的值达到0.40 ~ 1.75 g m−3和150 ~ 320 cm−3。SLWC和Nt、CDP的分布与云顶温度和冰粒子浓度直接相关,这与过去对其他山脉的研究结果一致。分析了两类垂直运动作为SLWC和Nt,CDP的潜在控制因素,第一类垂直运动是地形强迫的,相对于地形固定在空间上(平稳波),第二类是瞬态的,由经过的天气尺度气旋的垂直切变和不稳定触发。SLWC的发生和震级以及与固定上升气流相关的Nt、CDP在SLW存在时沿脊线呈正态分布。在低海拔地区,靠近固定波相关的地形斜坡处,由于混合比较高,垂直气团位移较大,SLW更容易形成。当考虑瞬态上升气流、SLWC和Nt时,由于与过往天气系统相关的上升气流在时间和空间上的变化,CDP在飞行轨迹上的分布更加均匀,与地形的依赖性很小。讨论了在盆地上空播云的意义。
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来源期刊
Journal of Applied Meteorology and Climatology
Journal of Applied Meteorology and Climatology 地学-气象与大气科学
CiteScore
5.10
自引率
6.70%
发文量
97
审稿时长
3 months
期刊介绍: The Journal of Applied Meteorology and Climatology (JAMC) (ISSN: 1558-8424; eISSN: 1558-8432) publishes applied research on meteorology and climatology. Examples of meteorological research include topics such as weather modification, satellite meteorology, radar meteorology, boundary layer processes, physical meteorology, air pollution meteorology (including dispersion and chemical processes), agricultural and forest meteorology, mountain meteorology, and applied meteorological numerical models. Examples of climatological research include the use of climate information in impact assessments, dynamical and statistical downscaling, seasonal climate forecast applications and verification, climate risk and vulnerability, development of climate monitoring tools, and urban and local climates.
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