Affiliation:
1. Department of Marine Sciences and Convergent Technology Hanyang University, ERICA Ansan South Korea
2. Rosenstiel School for Marine, Atmospheric, and Earth Science University of Miami Miami FL USA
3. Department of Atmospheric Sciences University of Washington Seattle WA USA
Abstract
AbstractWe investigated long‐term trends in convective and large‐scale precipitation within the Intertropical Convergence Zone during the boreal summer (June–August) for the period 1980–2020 using five different reanalysis datasets. We found that there exists a large diversity in the trends. In particular, we focused on the European Center for Medium‐Range Weather Forecasts reanalysis version 5 (ERA5) and the Japanese 55‐year reanalysis (JRA55) datasets; because the convective precipitation amount statistically significantly decreases in the former, but increases in the later. In contrast, the large‐scale precipitation amount increases in both of these reanalysis datasets. We examine the physical factors leading to contrasting features in the respective trends in convective and large‐scale precipitation amount between two reanalysis datasets. A significant decrease of convective available potential energy, which is caused by enhanced atmospheric stability, leads to a decreasing trend of convective precipitation amount in the ERA5 dataset. In contrast, a significant increase of precipitable water is noted in JRA55 dataset. Additionally, the Clausius–Clapeyron relation is larger in JRA55 than ERA5, implying that the sensitivity of humidity to the temperature change is larger in JRA55 than that in ERA5 dataset. On the other hand, the increase of the large‐scale precipitation is associated with the increase of medium cloud amount in both ERA5 and JRA55 datasets.
Funder
Korea Environmental Industry and Technology Institute
Publisher
American Geophysical Union (AGU)
Subject
Space and Planetary Science,Earth and Planetary Sciences (miscellaneous),Atmospheric Science,Geophysics
Cited by
1 articles.
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