An overview of the diurnal cycle of the atmospheric boundary layer during the West African monsoon season: results from the 2016 observational campaign
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Date
2018-03-01
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Atmospheric Chemistry and Physics
Abstract
A ground-based field campaign was conducted in
southern West Africa from mid-June to the end of July 2016
within the framework of the Dynamics–Aerosol–Chemistry–
Cloud Interactions in West Africa (DACCIWA) project. It
aimed to provide a high-quality comprehensive data set for
process studies, in particular of interactions between lowlevel clouds (LLCs) and boundary-layer conditions. In this
region missing observations are still a major issue. During
the campaign, extensive remote sensing and in situ measurements were conducted at three supersites: Kumasi (Ghana),
Savè (Benin) and Ile-Ife (Nigeria). Daily radiosoundings
were performed at 06:00 UTC, and 15 intensive observation
periods (IOPs) were performed during which additional radiosondes were launched, and remotely piloted aerial systems were operated. Extended stratiform LLCs form frequently in southern West Africa during the nighttime and
persist long into the following day. They affect the radiation
budget and hence the evolution of the atmospheric boundary
layer and regional climate. The relevant parameters and processes governing the formation and dissolution of the LLCs
are still not fully understood. This paper gives an overview of
the diurnal cycles of the energy-balance components, nearsurface temperature, humidity, wind speed and direction as
well as of the conditions (LLCs, low-level jet) in the boundary layer at the supersites and relates them to synoptic-scale
conditions (monsoon layer, harmattan layer, African easterly
jet, tropospheric stratification) in the DACCIWA operational
area. The characteristics of LLCs vary considerably from
day to day, including a few almost cloud-free nights. During cloudy nights we found large differences in the LLCs’
formation and dissolution times as well as in the cloud-base
height. The differences exist at individual sites and also between the sites. The synoptic conditions are characterized
by a monsoon layer with south-westerly winds, on average
about 1.9 km deep, and easterly winds above; the depth and
strength of the monsoon flow show great day-to-day variability. Within the monsoon layer, a nocturnal low-level jet forms
in approximately the same layer as the LLC. Its strength and
duration is highly variable from night to night. This unique
data set will allow us to test some new hypotheses about the
processes involved in the development of LLCs and their interaction with the boundary layer and can also be used for
model evaluation
Description
Article published by Atmos. Chem. Phys., 18, 2913–2928, 2018 https://doi.org/10.5194/acp-18-2913-2018
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Citation
Atmos. Chem. Phys., 18, 2913–2928, 2018 https://doi.org/10.5194/acp-18-2913-2018