Unravelling the transport of moisture into the Saharan Air Layer using passive tracers and isotopes

IF 2 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric Science Letters Pub Date : 2023-08-13 DOI:10.1002/asl.1187
Fabienne Dahinden, Franziska Aemisegger, Heini Wernli, Stephan Pfahl
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Abstract

The subtropical free troposphere plays a critical role in the radiative balance of the Earth. However, the complex interactions controlling moisture in this sensitive region and, in particular, the relative importance of long-range transport compared to lower-tropospheric mixing, remain unclear. This study uses the regional COSMO model equipped with stable water isotopes and passive water tracers to quantify the contributions of different evaporative sources to the moisture and its stable isotope signals in the eastern subtropical North Atlantic free troposphere. In summer, this region is characterized by two alternating large-scale circulation regimes: (i) dry, isotopically depleted air from the upper-level extratropics, and (ii) humid, enriched air advected from Northern Africa within the Saharan Air Layer (SAL) consisting of a mixture of moisture of diverse origin (tropical and extratropical North Atlantic, Africa, Europe, the Mediterranean). This diversity of moisture sources in regime (ii) arises from the convergent inflow at low levels of air from different neighbouring regions into the Saharan heat low (SHL), where it is mixed and injected by convective plumes into the large-scale flow aloft, and thereafter expelled to the North Atlantic within the SAL. Remarkably, this regime is associated with a large contribution of moisture that evaporated from the North Atlantic, which makes a detour through the SHL and eventually reaches the 850–550 hPa layer above the Canaries. Moisture transport from Europe via the SHL to the same layer leads to the strongest enrichment in heavy isotopes (δ2H correlates most strongly with this tracer). The vertical profiles over the North Atlantic show increased humidity and δ2H and reduced static stability in the 850–550 hPa layer, and smaller cloud fraction in the boundary layer in regime (ii) compared to regime (i), highlighting the key role of moisture transport through the SHL in modulating the radiative balance in this region.

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使用被动示踪剂和同位素解开湿气进入撒哈拉空气层的传输
亚热带自由对流层在地球辐射平衡中起着至关重要的作用。然而,控制这一敏感区域水分的复杂相互作用,特别是与低对流层混合相比,远程传输的相对重要性,仍不清楚。本研究使用配备稳定水同位素和被动水示踪剂的区域COSMO模型来量化不同蒸发源对东亚副热带北大西洋自由对流层水分及其稳定同位素信号的贡献。夏季,该地区的特点是两种交替的大尺度环流模式:(i)来自上层温带的干燥、同位素贫化的空气,以及(ii)撒哈拉空气层(SAL)内来自北非的潮湿、富集的空气,由不同来源的湿气(热带和温带北大西洋、非洲、欧洲、地中海)组成。在第(ii)种情况下,水分来源的多样性源于来自不同邻近地区的低水平空气汇聚流入撒哈拉热低区(SHL),在那里,空气被对流羽流混合并注入高空的大规模气流中,然后在SAL内排出到北大西洋。值得注意的是,这种情况与北大西洋蒸发的大量湿气有关,这些湿气绕过SHL,最终到达850–550 加那利群岛上空的百帕层。从欧洲通过SHL到同一层的湿气输送导致重同位素的最强富集(δ2H与该示踪剂的相关性最强)。北大西洋上空的垂直剖面显示,850–550年的湿度和δ2H增加,静态稳定性降低 hPa层,并且与区域(i)相比,区域(ii)中边界层的云量较小,突出了通过SHL的水分传输在调节该区域辐射平衡中的关键作用。
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来源期刊
Atmospheric Science Letters
Atmospheric Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.90
自引率
3.30%
发文量
73
审稿时长
>12 weeks
期刊介绍: Atmospheric Science Letters (ASL) is a wholly Open Access electronic journal. Its aim is to provide a fully peer reviewed publication route for new shorter contributions in the field of atmospheric and closely related sciences. Through its ability to publish shorter contributions more rapidly than conventional journals, ASL offers a framework that promotes new understanding and creates scientific debate - providing a platform for discussing scientific issues and techniques. We encourage the presentation of multi-disciplinary work and contributions that utilise ideas and techniques from parallel areas. We particularly welcome contributions that maximise the visualisation capabilities offered by a purely on-line journal. ASL welcomes papers in the fields of: Dynamical meteorology; Ocean-atmosphere systems; Climate change, variability and impacts; New or improved observations from instrumentation; Hydrometeorology; Numerical weather prediction; Data assimilation and ensemble forecasting; Physical processes of the atmosphere; Land surface-atmosphere systems.
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