1. Variation of Surface Air Temperature Induced by Enhanced Land–Atmosphere Coupling During 1981–2020 in Xinjiang, Northwest China.
- Author
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Yang, Yang, Lin, Zhaohui, Luo, Lifeng, Zhong, Linhao, and Jiang, Dabang
- Subjects
ATMOSPHERIC temperature ,LAND surface temperature ,SURFACE temperature ,ATMOSPHERE ,CLIMATE extremes ,SOLAR radiation - Abstract
Land–atmosphere coupling (LAC) is a critical process in the climate system, and has great effects on surface air temperature over the humid–dry transition zones. Using ERA5/ERA5‐land reanalysis datasets, we show that the summer temperature anomalies over Northwest China (NWC), known as one of the most important LAC hotpots in China, are significantly correlated with the LAC strength during 1981–2020. The stronger the coupling strength between air temperature and land surface, the more pronounced decrease in air temperature and extreme hot days over NWC. Among the four pathways of land–air temperature coupling, including soil moisture (SM)/soil temperature–latent heat flux/sensible heat flux–air temperature coupling, SM–sensible heat flux–air temperature pathway corresponds most closely with the temperature changes in summer. By analyzing the possible local and non‐local physical links in this relationship, we show that the wave trains composed of the intensification of Ural ridge and Central–Asia trough stimulate a meridional fluctuation of westerly airflow over the mid–high latitudes of Eurasia. Large moisture, therefore, converges into NWC, leading to excessive precipitation and deficient incident solar radiation reaching the land surface. In such case, wetter and cooler soil states accelerate the cooling of the environment through feedbacks between the lands, land–atmosphere exchanging fluxes and air temperature locally, accompanied by a significant enhancement in LAC strength. Our study provides insight into the physical processes causing variations in summer temperature over a typical LAC hotspot and suggests that the role of land surface–atmosphere interactions needs to be considered when studying temperature extremes under climate change. Plain Language Summary: There exist strong interactions between land surface and air temperature over Northwest China (NWC) in summer. In the meantime, NWC region (especially Xinjiang province) has undergone severe hot extremes recently and suffered great loss of life and property. In this case, this study is presented to investigate the relationship of variation in surface air temperature with the land–air temperature coupling strength using reanalysis‐based datasets. We revealed that the stronger the coupling strength, the more pronounced decrease in air temperature and extreme hot days there. Both local and non‐local factors contribute to this process. The large‐scale anomalous Arctic Oscillation–East Atlantic/West Russia‐like patterns are conducive to extra water vapor convergence in southern Xinjiang, accompanied by reduced net solar radiation. Such changes further result in significant variations in land states, and local land–air temperature interactions had also been exacerbated, collectively leading to air temperature decreases. These findings are expected to deepen our understanding of the variation of surface air temperature and related extreme temperature events in NWC. Key Points: The stronger the land–atmosphere coupling (LAC), the more decrease of air temperature and extreme hot days (HDs) during summer in Northwest China (NWC)Anomalous circulation patterns correlate with the LAC strength and air temperature variations in NWCThe local land–air temperature interactions enhance the impacts from non‐local atmospheric forcings [ABSTRACT FROM AUTHOR]
- Published
- 2023
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