Convectively Induced Secondary Circulations and Wind-Driven Heat Fluxes in the Surface Energy Balance Over Land

IF 4.6 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geophysical Research Letters Pub Date : 2024-10-22 DOI:10.1029/2024gl110565
Seth Colston, Ian N. Williams
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Abstract

Increased resolution has enabled kilometer-scale weather and climate models to partially resolve secondary circulations, including horizontal convective rolls (HCRs) and cold pool gust fronts. Although these circulations are ubiquitous in convective boundary layers over land, their impacts on the surface energy balance are largely unknown. Doppler lidar and surface observations were combined with DOE E3SM land model experiments, revealing increased surface winds (5 m/s) and heat fluxes (50 W/m2) in convergent branches of HCRs. Larger wind-driven flux responses (up to 150 W/m2) were found along gust fronts. Surface energy balance shifts to accommodate wind-driven fluxes, reducing ground heat conduction and longwave cooling. Our findings from the US Southern Great Plains are broadly relevant to modeling convective boundary layers. In particular, widely used subgrid wind gust parameterizations were found to be physically inconsistent with resolved secondary circulations and could worsen climate prediction biases at kilometer-scales.
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陆地地表能量平衡中对流诱发的次级环流和风驱动的热通量
分辨率的提高使得千米尺度的天气和气候模式能够部分解析次级环流,包括水平对流卷(HCR)和冷池阵风锋。虽然这些环流在陆地对流边界层中无处不在,但它们对地表能量平衡的影响在很大程度上是未知的。多普勒激光雷达和地表观测数据与 DOE E3SM 陆地模式实验相结合,揭示了在 HCR 的汇聚分支中增加的地表风(5 米/秒)和热通量(50 瓦/平方米)。在阵风前沿发现了更大的风驱动通量响应(高达 150 W/m2)。地表能量平衡为适应风驱动通量而改变,从而减少了地面热传导和长波冷却。我们在美国南部大平原的研究结果与对流边界层建模具有广泛的相关性。特别是,我们发现广泛使用的子网格阵风参数与解析的次级环流在物理上不一致,可能会加剧千米尺度的气候预测偏差。
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来源期刊
Geophysical Research Letters
Geophysical Research Letters 地学-地球科学综合
CiteScore
9.00
自引率
9.60%
发文量
1588
审稿时长
2.2 months
期刊介绍: Geophysical Research Letters (GRL) publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRLmaintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.
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