Improving the Estimate of Summer Daytime Planetary Boundary Layer Height Over Land From GPS radio Occultation Data Academic Article

abstract

• AbstractGlobal Positioning System (GPS) radio occultation measurements have been widely used to estimate global planetary boundary layer heights (H) using the minimum refractivity gradient method. This method is directly tested here using radiosonde data in China and is found to overestimate summer daytime H over land primarily in the presence of multiinversions in the lower troposphere. This deficiency is largely reduced by adding a constraint with lifting condensation level (LCL) in the derivation of H, particularly for LCL<2km (usually over humid regions). The primary reason is that our new method effectively avoids estimating H near the strong inversion corresponding to the minimum refractivity gradient in the free atmosphere. Applying our new method to the GPS radio occultation data, with LCL derived from surface automatic weather stations, yields more reasonable daytime variation and spatial distribution of H over land in China as compared to the ERA5 reanalysis and radiosonde data.

authors

• Xie, Feiqin

published proceedings

• GEOPHYSICAL RESEARCH LETTERS

altmetric score

• 51

author list (cited authors)

• Wang, Y., Zeng, X., Xu, X., Xie, F., & Zhao, Y.

citation count

• 3

complete list of authors

• Wang, Yinjun||Zeng, Xubin||Xu, Xiangde||Xie, Feiqin||Zhao, Yang

publication date

• January 2022

publisher

• American Geophysical Union (AGU)  Publisher

published in

• Geophysical Research Letters  Journal

keywords

• 37 Earth Sciences
• 3701 Atmospheric Sciences

Digital Object Identifier (DOI)

• 10.1029/2021GL096304

volume

• 49

issue

• 2

URL

• http://dx.doi.org/10.1029/2021gl096304