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Article

Four Years of Atmospheric Boundary Layer Height Retrievals Using COSMIC-2 Satellite Data

by
Ginés Garnés-Morales
1,2,
Maria João Costa
3,4,
Juan Antonio Bravo-Aranda
1,5,
María José Granados-Muñoz
1,5,
Vanda Salgueiro
3,4,
Jesús Abril-Gago
1,5,
Sol Fernández-Carvelo
1,5,
Juana Andújar-Maqueda
1,5,
Antonio Valenzuela
1,5,
Inmaculada Foyo-Moreno
1,5,
Francisco Navas-Guzmán
1,5,
Lucas Alados-Arboledas
1,5,
Daniele Bortoli
3,4 and
Juan Luis Guerrero-Rascado
1,5,*
1
Andalusian Institute for Earth System Research (IISTA-CEAMA), 18006 Granada, Spain
2
Regional Atmospheric Modeling Lab (G-MAR), Department of Physics, Regional Campus of International Excellent `Campus Mare Nostrum’ (CEIR), University of Murcia, 30100 Murcia, Spain
3
Institute of Earth Sciences (ICT) and Earth Remote Sensing Laboratory (EaRSLab), 7000-671 Évora, Portugal
4
Department of Physics, University of Évora, 7000-671 Évora, Portugal
5
Department of Applied Physics, University of Granada, 18071 Granada, Spain
*
Author to whom correspondence should be addressed.
Remote Sens. 2024, 16(9), 1632; https://doi.org/10.3390/rs16091632
Submission received: 19 March 2024 / Revised: 22 April 2024 / Accepted: 29 April 2024 / Published: 3 May 2024
(This article belongs to the Special Issue Observation of Atmospheric Boundary-Layer Based on Remote Sensing)

Abstract

This work aimed to study the atmospheric boundary layer height (ABLH) from COSMIC-2 refractivity data, endeavoring to refine existing ABLH detection algorithms and scrutinize the resulting spatial and seasonal distributions. Through validation analyses involving different ground-based methodologies (involving data from lidar, ceilometer, microwave radiometers, and radiosondes), the optimal ABLH determination relied on identifying the lowest refractivity gradient negative peak with a magnitude at least τ% times the minimum refractivity gradient magnitude, where τ is a fitting parameter representing the minimum peak strength relative to the absolute minimum refractivity gradient. Different τ values were derived accounting for the moment of the day (daytime, nighttime, or sunrise/sunset) and the underlying surface (land or sea). Results show discernible relations between ABLH and various features, notably, the land cover and latitude. On average, ABLH is higher over oceans (≈1.5 km), but extreme values (maximums > 2.5 km, and minimums < 1 km) are reached over intertropical lands. Variability is generally subtle over oceans, whereas seasonality and daily evolution are pronounced over continents, with higher ABLHs during daytime and local wintertime (summertime) in intertropical (middle) latitudes.
Keywords: boundary layer; COSMIC-2; refractivity profile; satellite calibration boundary layer; COSMIC-2; refractivity profile; satellite calibration

Share and Cite

MDPI and ACS Style

Garnés-Morales, G.; Costa, M.J.; Bravo-Aranda, J.A.; Granados-Muñoz, M.J.; Salgueiro, V.; Abril-Gago, J.; Fernández-Carvelo, S.; Andújar-Maqueda, J.; Valenzuela, A.; Foyo-Moreno, I.; et al. Four Years of Atmospheric Boundary Layer Height Retrievals Using COSMIC-2 Satellite Data. Remote Sens. 2024, 16, 1632. https://doi.org/10.3390/rs16091632

AMA Style

Garnés-Morales G, Costa MJ, Bravo-Aranda JA, Granados-Muñoz MJ, Salgueiro V, Abril-Gago J, Fernández-Carvelo S, Andújar-Maqueda J, Valenzuela A, Foyo-Moreno I, et al. Four Years of Atmospheric Boundary Layer Height Retrievals Using COSMIC-2 Satellite Data. Remote Sensing. 2024; 16(9):1632. https://doi.org/10.3390/rs16091632

Chicago/Turabian Style

Garnés-Morales, Ginés, Maria João Costa, Juan Antonio Bravo-Aranda, María José Granados-Muñoz, Vanda Salgueiro, Jesús Abril-Gago, Sol Fernández-Carvelo, Juana Andújar-Maqueda, Antonio Valenzuela, Inmaculada Foyo-Moreno, and et al. 2024. "Four Years of Atmospheric Boundary Layer Height Retrievals Using COSMIC-2 Satellite Data" Remote Sensing 16, no. 9: 1632. https://doi.org/10.3390/rs16091632

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