Investigation of Antarctic Precipitable Water Vapor Variability and Trend from 18 Year (2001 to 2018) Data of Four Reanalyses Based on Radiosonde and GNSS Observations

Mo, Zhixiang; Zeng, Zhaoliang; Huang, Liangke; Liu, Lilong; Huang, Ling; Zhou, Lv; Ren, Chao; He, Hongchang

doi:10.3390/rs13193901

Cited by 9 publications

(7 citation statements)

References 61 publications

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“…where 𝐴𝐴 PWVℎ 1 represents the PWV corresponding to the height h 1 (unit: km), 𝐴𝐴 𝐴𝐴 𝐴𝐴 𝐴𝐴ℎ 2 represents the PWV corresponding to the height 2 (unit: km), and β (unit: mm/km) represents the empirical attenuation coefficient. Considering the unique climate of Antarctica, the Antarctic empirical attenuation coefficient model is used for calculation (Mo et al, 2021),…”

Section: Discussionmentioning

confidence: 99%

“…Currently, the observation methods for Antarctic water vapor mainly include meteorological stations, radiosondes, Global Navigation Satellite Systems (GNSS), and satellite remote sensing (Bevis et al., 1994; Connolley & King, 1996; Gettelman et al., 2006; Lazzara et al., 2012; Mo et al., 2021; Negusini et al., 2016; Ricaud et al., 2013; Thomas et al., 2011). Among them, radiosondes are considered a reliable water vapor detection technology (Antón et al., 2015).…”

Section: Introductionmentioning

confidence: 99%

“…Polar‐orbiting satellites in low Earth orbit can pass over the Antarctic region more than 10 times daily, providing extensive coverage and excellent temporal resolution. However, several variables, such as the performance of the instruments themselves, weather, cloud cover, and ground conditions, can influence the precision of satellite water vapor products (Alraddawi et al., 2018; Boylan et al., 2015; Mo et al., 2021). Furthermore, reanalysis data, another type of product that can provide water vapor information for the entire Antarctic continent, heavily relies on in situ observations and the input of great‐quality satellite data (Dee et al., 2011; Laloyaux et al., 2018).…”

Section: Introductionmentioning

confidence: 99%

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Comprehensive Evaluation and Comparison of AIRS, VASS, and VIRR Water Vapor Products Over Antarctica

Fan,

Zeng,

Wang

et al. 2023

JGR Atmospheres

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The detection capability of the water vapor mixing ratio (q) and total precipitable water vapor (PWV) products of the Atmospheric Infrared Sounder (AIRS), the Atmospheric Vertical Sounder System (VASS), and Visible and Infrared Radiometer (VIRR) in Antarctica is unclear due to the harsh environment and the scarcity of ground‐based stations. This study compares these products with data from nine radiosonde stations and 10 Global Navigation Satellite Systems Stations and evaluates them using the CCHZ‐DISO method. In the low atmosphere, the average wet bias of about 22% of VASS q is significantly greater than that of AIRS q (<15%), and the dry bias of AIRS is gradually corrected with increasing cloudiness, but the trend of exacerbated wet bias at 700 hPa requires attention. Meanwhile, VASS should optimize the inversion principle in the presence of clouds and refine the utilization weights of the channels heavily influenced by clouds under different cloud fraction conditions. Furthermore, when the atmospheric pressure is less than 500 hPa, VASS q exhibits a significant wet bias, and these data should be used cautiously. Both AIRS and VIRR detect PWV well in coastal areas, but VIRR PWV is significantly overestimated in the dry ice sheet plateau region. The CCHZ‐DISO value intuitively reveals that AIRS outperforms VASS and VIRR in both q and PWV detection. The findings of this study contribute to a more comprehensive understanding of the detection capability of the above satellite water vapor products to promote the wider application of satellite data in the Antarctic region.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Comprehensive Evaluation and Comparison of AIRS, VASS, and VIRR Water Vapor Products Over Antarctica

Fan,

Zeng,

Wang

et al. 2023

JGR Atmospheres

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“…ERA5 is the newest‐generation global climate and weather reanalysis provided by ECMWF. Benefiting from improvements in model physics and data assimilation methodology, ERA5 assimilated near‐surface and upper‐air observations, based on a hybrid incremental four‐dimensional variational analysis (4D‐Var) scheme in the Integrated Forecasting System (IFS) Cy41r2 model (Bonavita et al., 2016; Hersbach et al., 2020; Mo et al., 2021).…”

Section: Methodsmentioning

confidence: 99%

“…One of the largest sources of the uncertainties is poor constraint of snow accumulation due to the difficult measurements and the complicated data interpretation. To decrease these gaps, many observational and modeling attempts have been made (e.g., Mo et al, 2021). However, because the processes governing snow accumulation changes have not been fully understood, the ability of modeling is very limited, which constrains better projections of future ice sheet changes and the corresponding contribution to global sea level.The main methods available for snow accumulation measurements include snow stake/stake farms, snow pits, firn/ice cores, snow radar altimetry and satellite-based techniques (…”

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confidence: 99%

Snow Accumulation Variability at the South Pole From 1983 to 2020, Associated With Central Tropical Pacific Forcing

Zhai,

Wang,

Lazzara

et al. 2023

JGR Atmospheres

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Despite a variety of efforts made to measure snow accumulation at the South Pole (SP), snow accumulation changes and their mechanism have not yet been fully explained. Here, SP stake farm measurements, global sea surface temperature observations, and atmospheric circulation data from European Centre for Medium‐Range Weather Forecasts Reanalysis version 5 were used to investigate the annual and seasonal snow accumulation changes at the SP during 1983–2020, and their association with central tropical Pacific Sea surface temperature variations. SP annual snow accumulation decreased significantly for the 1983–2007 period at a rate of −39.7 ± 1.4 mm decade−1, but switched to a dramatically positive trend during 2008–2020 (108.7 ± 2.7 mm decade−1), with the strongest increase in the austral autumn. The switch to a dramatically upward trend can largely be attributed to a cyclonic anomaly over the South Atlantic and an anticyclonic anomaly over the Drake Passage, causing the enhanced advection of warm and wet air into the SP. These circulation patterns were generated by an atmospheric Rossby wave train forced by rapid warming in the central tropical Pacific during 2008–2020.

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A new model for vertical adjustment of precipitable water vapor with consideration of the time-varying lapse rate

Huang

et al. 2023

GPS Solut

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Investigation of Antarctic Precipitable Water Vapor Variability and Trend from 18 Year (2001 to 2018) Data of Four Reanalyses Based on Radiosonde and GNSS Observations

Cited by 9 publications

References 61 publications

Comprehensive Evaluation and Comparison of AIRS, VASS, and VIRR Water Vapor Products Over Antarctica

Comprehensive Evaluation and Comparison of AIRS, VASS, and VIRR Water Vapor Products Over Antarctica

Snow Accumulation Variability at the South Pole From 1983 to 2020, Associated With Central Tropical Pacific Forcing

A new model for vertical adjustment of precipitable water vapor with consideration of the time-varying lapse rate

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