Ice and mixed-phase cloud statistics on the Antarctic Plateau

Cossich, William; Maestri, Tiziano; Magurno, D.; Martinazzo, Michele; Natale, Gianluca Di; Palchetti, Luca; Bianchini, Giovanni; Guasta, Massimo Del

doi:10.5194/acp-21-13811-2021

Cited by 18 publications

(18 citation statements)

References 40 publications

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“…Satellite observations also suffer from the effect of ground clutter for observations closer to the ground (Bennartz et al, 2019). These recent cloud observations campaigns all pointed towards a higher than anticipated occurrence of SLW and mixed phase clouds (Scott and Lubin (2016); Ricaud et al, 2020;Zhang et al, 2019;Alexander et al, 2021;McErlich et al, 2021;Cossich et al, 2021).…”

Section: Introductionmentioning

confidence: 97%

Detection of supercooled liquid water clouds with ceilometers: Development and evaluation of deterministic and data-driven retrievals

Guyot

Protat

Alexander

et al. 2022

Preprint

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Abstract. Cloud and aerosol lidars measuring backscatter and depolarization ratio are most suitable instruments to detect cloud phase (liquid, ice, or mixed phase). However, such instruments are not widely deployed as part of operational networks. In this study, we propose a new algorithm to detect supercooled liquid water clouds based solely on ceilometers measuring only co-polarisation backscatter. We utilise observations collected at Davis, Antarctica, where low-level, mixed phase clouds, including supercooled liquid water (SLW) droplets and ice crystals remain poorly understood, due to the paucity of ground-based observations. A 3-month set of observations were collected during the austral summer of November 2018–February 2019, with a variety of instruments including a depolarization lidar and a W-Band cloud radar which were used to build a 2-dimensional cloud phase mask distinguishing SLW and mixed phase clouds. This cloud phase mask is used as the reference to develop a new algorithm based on the observations of a single polarisation ceilometer operating in the vicinity for the same period. Deterministic and data-driven retrieval approaches were evaluated: an extreme gradient boosting (XGBoost) framework ingesting backscatter average characteristics was the most effective method at reproducing the classification obtained with the combined radar-lidar approach with an accuracy as high as 0.91. This study provides a new SLW retrieval approach based solely on ceilometer data and highlights the considerable benefits of these instruments to provide intelligence on cloud phase in polar regions that usually suffer from a paucity of observations.

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Section: Introductionmentioning

confidence: 97%

Detection of supercooled liquid water clouds with ceilometers: Development and evaluation of deterministic and data-driven retrievals

Guyot

Protat

Alexander

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Satellite observations also suffer from the effect of ground clutter for observations closer to the ground (Bennartz et al, 2019). These recent cloud observation campaigns have all pointed towards a higher than anticipated occurrence of SLW and mixed phase clouds (Scott and Lubin, 2016;Ricaud et al, 2020;Zhang et al, 2019;Alexander et al, 2021;McErlich et al, 2021;Cossich et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Detection of supercooled liquid water containing clouds with ceilometers: development and evaluation of deterministic and data-driven retrievals

et al. 2022

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Abstract. Cloud and aerosol lidars measuring backscatter and depolarization ratio are the most suitable lidars to detect cloud phase (liquid, ice, or mixed phase). However, such instruments are not widely deployed as part of operational networks. In this study, we propose a new algorithm to detect supercooled liquid water containing clouds (SLCC) based on ceilometers measuring only co-polarization backscatter. We utilize observations collected at Davis, Antarctica, where low-level, mixed-phase clouds, including supercooled liquid water (SLW) droplets and ice crystals, remain poorly understood due to the paucity of ground-based observations. A 3-month set of observations were collected during the austral summer of November 2018 to February 2019, with a variety of instruments including a depolarization lidar and a W-band cloud radar which were used to build a two-dimensional cloud phase mask distinguishing SLW and mixed-phase clouds. This cloud phase mask is used as the reference to develop a new algorithm based on the observations of a single polarization ceilometer operating in the vicinity for the same period. Deterministic and data-driven retrieval approaches were evaluated: an extreme gradient boosting (XGBoost) framework ingesting backscatter average characteristics was the most effective method at reproducing the classification obtained with the combined radar–lidar approach with an accuracy as high as 0.91. This study provides a new SLCC retrieval approach based on ceilometer data and highlights the considerable benefits of these instruments to provide intelligence on cloud phase in polar regions that usually suffer from a paucity of observations. Finally, the two algorithms were applied to a full year of ceilometer observations to retrieve cloud phase and frequency of occurrences of SLCC: SLCC was present 29 ± 6 % of the time for T19 and 24 ± 5 % of the time for G22-Davis over that annual cycle.

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“…Recently, some authors (such as Maestri et al, 2019a, Saito et al, 2020 have shown the potentialities of exploiting FIR spectrally resolved radiances to refine ice clouds microphysical and optical properties. Maestri et al (2019b) and Cossich et al (2021) also showed the benefit of using FIR channels in combination with MIR ones to largely improve the performances of cloud identification and classification (i.e., between ice and liquid water phase) algorithms.…”

mentioning

confidence: 99%

The FORUM end-to-end simulator project: architecture and results

Sgheri¹,

Belotti²,

Ben-Yami

et al. 2022

Atmos. Meas. Tech.

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Abstract. FORUM (Far-infrared Outgoing Radiation Understanding and Monitoring) will fly as the ninth ESA's Earth Explorer mission, and an end-to-end simulator (E2ES) has been developed as a support tool for the mission selection process and the subsequent development phases. The current status of the FORUM E2ES project is presented together with the characterization of the capabilities of a full physics retrieval code applied to FORUM data. We show how the instrument characteristics and the observed scene conditions impact on the spectrum measured by the instrument, accounting for the main sources of error related to the entire acquisition process, and the consequences on the retrieval algorithm. Both homogeneous and heterogeneous case studies are simulated in clear and cloudy conditions, validating the E2ES against appropriate well-established correlative codes. The performed tests show that the performance of the retrieval algorithm is compliant with the project requirements both in clear and cloudy conditions. The far-infrared (FIR) part of the FORUM spectrum is shown to be sensitive to surface emissivity, in dry atmospheric conditions, and to cirrus clouds, resulting in improved performance of the retrieval algorithm in these conditions. The retrieval errors increase with increasing the scene heterogeneity, both in terms of surface characteristics and in terms of fractional cloud cover of the scene.

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Ice and mixed-phase cloud statistics on the Antarctic Plateau

Cited by 18 publications

References 40 publications

Detection of supercooled liquid water clouds with ceilometers: Development and evaluation of deterministic and data-driven retrievals

Detection of supercooled liquid water clouds with ceilometers: Development and evaluation of deterministic and data-driven retrievals

Detection of supercooled liquid water containing clouds with ceilometers: development and evaluation of deterministic and data-driven retrievals

The FORUM end-to-end simulator project: architecture and results

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