Subpolar activation of halogen heterogeneous chemistry in austral spring

10.1002/essoar.10504018.1 ◽

2020 ◽

Author(s):

Brian Zambri ◽

Douglas Edward Kinnison ◽

Susan Solomon

Keyword(s):

Heterogeneous Chemistry ◽

Austral Spring

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Bubble column apparatus for gas-liquid heterogeneous chemistry studies

International Journal of Multiphase Flow ◽

10.1016/s0301-9322(97)88243-2 ◽

1996 ◽

Vol 22 ◽

pp. 107

Author(s):

J Shorter

Keyword(s):

Bubble Column ◽

Heterogeneous Chemistry ◽

Column Apparatus

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Heterogeneous chemistry and clouds in the HSCT environment

10.2514/6.1991-3159 ◽

1991 ◽

Author(s):

M. TOLBERT ◽

B. KOEHLER ◽

A. MIDDLEBROOK ◽

J. MANION ◽

I. JAYAWEERA ◽

...

Keyword(s):

Heterogeneous Chemistry

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Circulation pattern controls of wet days and dry days in Free State, South Africa

Meteorology and Atmospheric Physics ◽

10.1007/s00703-021-00822-0 ◽

2021 ◽

Author(s):

Chibuike Chiedozie Ibebuchi

Keyword(s):

South Africa ◽

Indian Ocean ◽

Atmospheric Circulation ◽

Southern Africa ◽

Austral Summer ◽

Free State ◽

Austral Spring ◽

Study Region ◽

Southwest Indian Ocean ◽

South Indian

AbstractAtmospheric circulation is a vital process in the transport of heat, moisture, and pollutants around the globe. The variability of rainfall depends to some extent on the atmospheric circulation. This paper investigates synoptic situations in southern Africa that can be associated with wet days and dry days in Free State, South Africa, in addition to the underlying dynamics. Principal component analysis was applied to the T-mode matrix (variable is time series and observation is grid points at which the field was observed) of daily mean sea level pressure field from 1979 to 2018 in classifying the circulation patterns in southern Africa. 18 circulation types (CTs) were classified in the study region. From the linkage of the CTs to the observed rainfall data, from 11 stations in Free State, it was found that dominant austral winter and late austral autumn CTs have a higher probability of being associated with dry days in Free State. Dominant austral summer and late austral spring CTs were found to have a higher probability of being associated with wet days in Free State. Cyclonic/anti-cyclonic activity over the southwest Indian Ocean, explained to a good extent, the inter-seasonal variability of rainfall in Free State. The synoptic state associated with a stronger anti-cyclonic circulation at the western branch of the South Indian Ocean high-pressure, during austral summer, leading to enhanced low-level moisture transport by southeast winds was found to have the highest probability of being associated with above-average rainfall in most regions in Free State. On the other hand, the synoptic state associated with enhanced transport of cold dry air, by the extratropical westerlies, was found to have the highest probability of being associated with (winter) dryness in Free State.

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Evaluation of Total Ozone Column from Multiple Satellite Measurements in the Antarctic Using the Brewer Spectrophotometer

Remote Sensing ◽

10.3390/rs13081594 ◽

2021 ◽

Vol 13 (8) ◽

pp. 1594

Author(s):

Songkang Kim ◽

Sang-Jong Park ◽

Hana Lee ◽

Dha Hyun Ahn ◽

Yeonjin Jung ◽

...

Keyword(s):

Satellite Data ◽

Total Ozone ◽

Spatiotemporal Pattern ◽

Satellite Measurements ◽

Austral Spring ◽

Total Ozone Column ◽

Brewer Spectrophotometer ◽

The Antarctic ◽

Ozone Column

The ground-based ozone observation instrument, Brewer spectrophotometer (Brewer), was used to evaluate the quality of the total ozone column (TOC) produced by multiple polar-orbit satellite measurements at three stations in Antarctica (King Sejong, Jang Bogo, and Zhongshan stations). While all satellite TOCs showed high correlations with Brewer TOCs (R = ~0.8 to 0.9), there are some TOC differences among satellite data in austral spring, which is mainly attributed to the bias of Atmospheric Infrared Sounder (AIRS) TOC. The quality of satellite TOCs is consistent between Level 2 and 3 data, implying that “which satellite TOC is used” can induce larger uncertainty than “which spatial resolution is used” for the investigation of the Antarctic TOC pattern. Additionally, the quality of satellite TOC is regionally different (e.g., OMI TOC is a little higher at the King Sejong station, but lower at the Zhongshan station than the Brewer TOC). Thus, it seems necessary to consider the difference of multiple satellite data for better assessing the spatiotemporal pattern of Antarctic TOC.

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An Assessment of ERA5 Reanalysis for Antarctic Near-Surface Air Temperature

Atmosphere ◽

10.3390/atmos12020217 ◽

2021 ◽

Vol 12 (2) ◽

pp. 217

Author(s):

Jiangping Zhu ◽

Aihong Xie ◽

Xiang Qin ◽

Yetang Wang ◽

Bing Xu ◽

...

Keyword(s):

Linear Relationship ◽

Antarctic Peninsula ◽

Austral Summer ◽

Correlation Coefficients ◽

East Antarctica ◽

West Antarctica ◽

Austral Spring ◽

Reanalysis Dataset ◽

Near Surface ◽

The Antarctic

The European Center for Medium-Range Weather Forecasts (ECMWF) released its latest reanalysis dataset named ERA5 in 2017. To assess the performance of ERA5 in Antarctica, we compare the near-surface temperature data from ERA5 and ERA-Interim with the measured data from 41 weather stations. ERA5 has a strong linear relationship with monthly observations, and the statistical significant correlation coefficients (p < 0.05) are higher than 0.95 at all stations selected. The performance of ERA5 shows regional differences, and the correlations are high in West Antarctica and low in East Antarctica. Compared with ERA5, ERA-Interim has a slightly higher linear relationship with observations in the Antarctic Peninsula. ERA5 agrees well with the temperature observations in austral spring, with significant correlation coefficients higher than 0.90 and bias lower than 0.70 °C. The temperature trend from ERA5 is consistent with that from observations, in which a cooling trend dominates East Antarctica and West Antarctica, while a warming trend exists in the Antarctic Peninsula except during austral summer. Generally, ERA5 can effectively represent the temperature changes in Antarctica and its three subregions. Although ERA5 has bias, ERA5 can play an important role as a powerful tool to explore the climate change in Antarctica with sparse in situ observations.

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The Impact of ENSO on Wave Breaking and Southern Annular Mode Events

Journal of the Atmospheric Sciences ◽

10.1175/2010jas3311.1 ◽

2010 ◽

Vol 67 (9) ◽

pp. 2854-2870 ◽

Cited By ~ 47

Author(s):

Tingting Gong ◽

Steven B. Feldstein ◽

Dehai Luo

Keyword(s):

El Niño ◽

Wave Breaking ◽

El Nino ◽

Southern Annular Mode ◽

La Niña ◽

Background Flow ◽

Austral Spring ◽

Annular Mode ◽

La Nina ◽

The Impact

Abstract This study examines the relationship between intraseasonal southern annular mode (SAM) events and the El Niño–Southern Oscillation (ENSO) using daily 40-yr ECMWF Re-Analysis (ERA-40) data. The data coverage spans the years 1979–2002, for the austral spring and summer seasons. The focus of this study is on the question of why positive SAM events dominate during La Niña and negative SAM events during El Niño. A composite analysis is performed on the zonal-mean zonal wind, Eliassen–Palm fluxes, and two diagnostic variables: the meridional potential vorticity gradient, a zonal-mean quantity that is used to estimate the likelihood of wave breaking, and the wave breaking index (WBI), which is used to evaluate the strength of the wave breaking. The results of this investigation suggest that the background zonal-mean flow associated with La Niña (El Niño) is preconditioned for strong (weak) anticyclonic wave breaking on the equatorward side of the eddy-driven jet, the type of wave breaking that is found to drive positive (negative) SAM events. A probability density function analysis of the WBI, for both La Niña and El Niño, indicates that strong anticyclonic wave breaking takes place much more frequently during La Niña and weak anticyclonic wave breaking during El Niño. It is suggested that these wave breaking characteristics, and their dependency on the background flow, can explain the strong preference for SAM events of one phase during ENSO. The analysis also shows that austral spring SAM events that coincide with ENSO are preceded by strong stratospheric SAM anomalies and then are followed by a prolonged period of wave breaking that lasts for approximately 30 days. These findings suggest that the ENSO background flow also plays a role in the excitation of stratospheric SAM anomalies and that the presence of these stratospheric SAM anomalies in turn excites and then maintains the tropospheric SAM anomalies via a positive eddy feedback.

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