Climatology and changes in internal intensity distributions of global precipitation systems over 2001-2020 based on IMERG

The internal intensity distributions of precipitation systems are closely related to precipitation dynamics. Un-derstanding its climatology and changing characteristics is important for comprehending climate change, enhancing atmospheric model, and obtaining accurate hydrologic responses. However, due to the various lim-itations of precipitation observations, the internal intensity distributions of global precipitation systems have not been thoroughly investigated. This study uses the Integrated Multi-satellitE Retrievals for Global Precipitation Measurement (IMERG) data during 2001-2020 to investigate the internal intensity distributions of global pre-cipitation systems, by analyzing the climatology and changes in the radial intensity distributions and the core -region intensity of precipitation systems. The results indicate that precipitation systems with larger spatial sizes tend to have higher intensity. Small-and medium-size precipitation systems exhibit the most obvious changes in the inner regions of precipitation systems, with higher intensity during 2001-2010 than 2011-2020. The large-size precipitation systems have slightly higher intensity at each radius of the systems during 2011-2020. Upon further investigation of the core-region intensity of precipitation systems, the small-and medium-size precipitation systems both exhibit significant decreases during 2001-2020 with trends at-1.13 and-2 mm/h per century, respectively. The large-size precipitation systems exhibit nonsignificant increasing trends during 2001-2020. The results also show regional differences, with decreased core-region intensity over most tropical regions and increased core-region intensity over most subtropical regions. This study provides an alternative perspective on the climatology and changing features of precipitation from the system view, and the results revealed could have significant implications on global climate change.

Automated summary

This study examines the internal intensity distributions of global precipitation systems using IMERG data from 2001 to 2020. It finds that the spatial size of precipitation systems is closely related to their intensity, with smaller and medium-sized systems showing significant changes in intensity. The study provides valuable insights into the climate and changing characteristics of precipitation from a system perspective.