Application of Complexity Measures to Stratospheric Dynamics

Krützmann, Nikolai Christian

January 2008

This thesis examines the utility of mathematical complexity measures for the analysis of stratospheric dynamics. Through theoretical considerations and tests with artificial data sets, e.g., the iteration of the logistic map, suitable parameters are determined for the application of the statistical entropy measures sample entropy (SE) and Rényi entropy (RE) to methane (a long-lived stratospheric tracer) data from simulations of the SOCOL chemistry-climate model. The SE is shown to be useful for quantifying the variability of recurring patterns in a time series and is able to identify tropical patterns similar to those reported by previous studies of the ``tropical pipe'' region. However, the SE is found to be unsuitable for use in polar regions, due to the non-stationarity of the methane data at extra-tropical latitudes. It is concluded that the SE cannot be used to analyse climate complexity on a global scale. The focus is turned to the RE, which is a complexity measure of probability distribution functions (PDFs). Using the second order RE and a normalisation factor, zonal PDFs of ten consecutive days of methane data are created with a Bayesian optimal binning technique. From these, the RE is calculated for every day (moving 10-day window). The results indicate that the RE is a promising tool for identifying stratospheric mixing barriers. In Southern Hemisphere winter and early spring, RE produces patterns similar to those found in other studies of stratospheric mixing. High values of RE are found to be indicative of the strong fluctuations in tracer distributions associated with relatively unmixed air in general, and with gradients in the vicinity of mixing barriers, in particular. Lower values suggest more thoroughly mixed air masses. The analysis is extended to eleven years of model data. Realistic inter-annual variability of some of the RE structures is observed, particularly in the Southern Hemisphere. By calculating a climatological mean of the RE for this period, additional mixing patterns are identified in the Northern Hemisphere. The validity of the RE analysis and its interpretation is underlined by showing that qualitatively similar patterns can be seen when using observational satellite data of a different tracer. Compared to previous techniques, the RE has the advantage that it requires significantly less computational effort, as it can be used to derive dynamical information from model or measurement tracer data without relying on any additional input such as wind fields. The results presented in this thesis strongly suggest that the RE is a useful new metric for analysing stratospheric mixing and its variability from climate model data. Furthermore, it is shown that the RE measure is very robust with respect to data gaps, which makes it ideal for application to observations. Hence, using the RE for comparing observations of tracer distributions with those from model simulations potentially presents a novel approach for analysing mixing in the stratosphere.

atmosphere

stratosphere

atmospheric dynamics

atmospheric analysis

complexity

entropy

Rényi entropy

complexity measures

butterfly effect

climate

climate change

climate model

SOCOL

statistical entropy

complex system

chaos theory

logistic map

Konvektivní bouře a vodní pára ve spodní stratosféře / Convective storms and lower stratospheric moisture

Šťástka, Jindřich

January 2018

Title: Convective storms and lower stratospheric moisture Author: Jindřich Šťástka Department: Department of Atmospheric Physics Supervisor: RNDr. Martin Setvák, CSc., Czech Hydrometeorological Institute Abstract: The primary focus of this thesis is to diagnose contributions to upper tropo- spheric and lower stratospheric (UTLS) water vapor from convective storms. The first parts of this work introduces two approaches used for a detection of lower stratospheric water vapor above convective storm tops - brightness temperature difference (BTD) technique and EOS MLS measurements. The BTD technique is based on brightness temperature difference between the water vapor absorp- tion and infrared window bands, assuming a thermal inversion above the cloud top level. The most frequently offered explanation of positive BTD values above convective storms is presence of warmer water vapor in the lower stratosphere. Furthermore, so called BTD anomalies were described and it was proposed an algorithm for objective detection of such BTD anomalies. Characteristics of pa- rameters describing BTD, BTD anomaly, infrared window brightness temperature were investigated during storms evolution on dataset of 320 storms from the area of Europe. The analysis of these characteristics proved highly probable conection between positive...

Monitoramento da coluna total de ozônio e a ocorrência de eventos de influência do buraco de ozônio antártico sobre o sul do Brasil / Monitoring of total ozone column and the occurrence of the influence of antarctic ozone hole events over southern Brazil

Peres, Lucas Vaz

16 December 2016

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The present PhD thesis analyzes the results obtained from the Total Ozone Column (TOC) monitoring conducted in the Southern Space Observatory - SSO (29.26 ° S, 53.48 °W and 488 m altitude) between 1992 and 2014 by three successive Brewer spectrophotometers (# 081, # 056 and # 167). First, the Brewer measurements were compared with TOMS (Total Ozone Mapping Spectrometer) and OMI (Ozone Monitoring Instrument) satellites obtaining excellent agreement. In addition, was determined that the seasonal TOC variability is dominated by the annual cycle, with a minimum of ~ 260 DU in April and a maximum of ~ 295 DU in September. The Quasi-Biennial Oscillation (QBO) is the main mode of interannual variability being approximately in antiphase with the QBO index. Next, 58 events of the influence of the Antarctic Ozone Hole on the SSO station was identificate in the period between 2005 and 2014. This events occurred on average 5.8 ± 3.51 times per year, with a mean reduction of TOC by Brewer' of -7.04 ± 2.97% and by OMI of -7.66 ± 3.11 respectively. Analyzing the ozone profiles from AURA/MLS (Microwave Limb Sounder) satellite, the average isentropic level for maximum reduction is 644.68 ± 158.59 K, with a mean reduction of 15.39 ± 6.47%, being October the month of greatest occurrence (18 events). The events were separated into three categories: TOC intensity reduction, height of the ozone reduction lamina in AURA/MLS satellite and the dynamic characteristic of Polar Filament or Polar Tongue through the application of Dybal (Dynamical Barrier Localization) code in the potential vorticity (PV) fields from MIMOSA (Modélisation Isentrope du transport Mésoéchelle de l'Ozone Stratosphérique par Advection) model. The events with a dynamic feature of Polar Tongue (20,68%) occurred more frequently in October, with medium intensity and in the medium stratosphere, while events of dynamic characteristic of Polar Filament (79,31%) occurred more frequently in September, also with medium intensity and in the medium stratosphere. / A presente Tese de Doutorado analisa os resultados obtidos a partir do monitoramento da Coluna Total de Ozônio (CTO) realizado no Observatório Espacial do Sul – OES (29,26 ° S, 53,48 ° e 488 m de altitude) entre 1992 e 2014 através de três sucessivos espectrofotômetros Brewer (# 081, # 056 e # 167). Primeiramente, as medidas dos Brewers foram comparadas com observações dos instrumentos de satélite TOMS (Total Ozone Mapping Spectrometer) e OMI (Ozone Monitoring Instrument), obtendo elevados valores de R2 (0,88 e 0,93, respectivamente). Além disso, foi determinado que a variabilidade sazonal da CTO é dominada pelo ciclo anual, com um mínimo de ~260 DU em abril e um máximo de ~295 DU em setembro. A Oscilação Quasi-Bienal (QBO) é o principal modo de variabilidade interanual estando aproximadamente em antifase com o índice QBO. Em seguida é apresentada a identificação da ocorrência de 58 eventos de Influência do Buraco de Ozônio Antártico sobre a estação do OES no período entre 2005 e 2014, os quais ocorreram em média 5,8 ± 3,5 vezes por ano, com redução média da CTO de Brewer e OMI de -7,04±2,9% e 7,66±3,1 respectivamente. Analisando os perfis de ozônio do satélite AURA/MLS (Microwave Limb Sounder), observa-se que o nível isentrópico médio para a máxima redução é de 644,6±158,5 K com redução média de 15,3±6,4%, sendo outubro o mês de maior ocorrência (18 eventos). Os eventos foram separados em categorias: Intensidade da redução da CTO, altura da camada de redução no perfil do ozônio do satélite AURA/MLS e a característica dinâmica de Filamento Polar ou Língua Polar através da aplicação do código Dybal (Dynamical Barrier Localisation) nos campos de vorticidade potencial (PV) do modelo MIMOSA (Modélisation Isentrope du transport Mésoéchelle de l'Ozone Stratosphérique par Advection). Os eventos com característica dinâmica de Lingua Polar (20,68%) ocorreram com mais frequência no mês de outubro, com intensidade média e na média estratosfera, enquanto que eventos de característica dinâmica de Filamento Polar (79,31%) ocorreram com mais frequência no mês de setembro, também com media intensidade e na média estratosfera.

Espectrofotômetro Brewer

Dinâmica da estratosfera

Modelagem atmosférica

Brewer Spectrophotometer

Influence of Antarctic Ozone Hole

Stratosphere dynamics

Atmospheric modeling

Extremos intra-sazonais de temperatura na península antártica e mecanismos atmosféricos associados / Intraseasonal Extreme Temperature Anomalies in the Antarctica Peninsula and Atmospheric Mechanisms

Nathalie Tissot Boiaski

10 December 2007

O clima na Antártica tem um papel fundamental no balanço de energia global. Estudos sugerem que a atividade convectiva tropical e a circulação estratosférica exercem um papel importante sobre a circulação atmosférica nos extratrópicos. A temperatura do ar é uma variável sensível às mudanças na circulação, no entanto, ainda não foi investigada a importância da escala intra-sazonal na sua variabilidade sobre a Antártica. Neste trabalho estudou-se a variabilidade intra-sazonal da temperatura do ar a superfície na região da Península Antártica enfocando as interações trópicos-extratrópicos e troposfera-estratosfera na modulação de eventos extremos de temperatura naquela região. Foram utilizados dados diários de estações localizadas nos setores leste e oeste da Península Antártica no período de 1986-2002. A análise espectral dos dados ressaltou a importância da escala intra-sazonal na variabilidade da temperatura na Península Antártica, principalmente no período de inverno, primavera e verão. Baseado nestes resultados, os dados foram filtrados na escala intra-sazonal (banda de 20-100 dias) e posteriormente, obteve-se os extremos intra-sazonais frios e quentes para as três estações do ano, através dos quartis da distribuição dos dados. Os eventos extremos intra-sazonais de temperatura (EIT) foram mais intensos no inverno e mais fracos no verão. As características da circulação atmosférica intra-sazonal associada aos EIT foram obtidas através de composições defasadas das anomalias intra-sazonais da altura geopotencial em 200 hPa, vento zonal em 200 hPa e vento meridional em 850 hPa. Nas três estações do ano, observou-se nos eventos extremos intra-sazonais frios (EIF) a persistência de anomalias ciclônicas em altos níveis, a diminuição da intensidade do jato polar e uma advecção de ar frio em baixos níveis sobre a região de estudo. Uma situação oposta foi verificada nos eventos extremos intra-sazonais quentes (EIQ). De forma geral, observou-se um trem de ondas entre latitudes médias e altas no Hemisfério Sul (HS) durante os EIT, particularmente no inverno e primavera. Esta configuração mostrou-se semelhante a tele-conexão conhecida como Pacífico-Sul Americano (PSA). O papel do modo anular do HS sobre os EIT foi analisado através do cálculo de Funções Ortogonais Empíricas das anomalias intra-sazonais da altura geopotencial em 700 hPa ao sul de 20ºS. Sua estrutura foi mais intensa (mais fraca) nos EIF (EIQ) de inverno sobre a região de estudo. A interação troposfera-estratosfera no controle dos EIT foi investigada através do Fluxo Eliassen-Palm. Nas composições das anomalias intra-sazonais deste fluxo (EPIS), observou-se durante os EIF (EIQ) de inverno, um aumento da atividade de onda da baixa estratosfera (alta troposfera) para a alta troposfera (baixa estratosfera) sobre a região de estudo, associado à diminuição (aumento) da intensidade do jato polar. Na primavera, a atividade de onda foi mais intensa e verificou-se uma mudança na direção do fluxo EPIS quando comparado com os EIT de inverno. O fluxo EPIS e as anomalias intra-sazonais do vento zonal foram mais fracos no verão. As anomalias intra-sazonais da circulação atmosférica e da atividade de onda na troposfera e estratosfera foram observadas por cerca de 10 dias antes da observação dos EIT de inverno. Portanto, a atividade intra-sazonal nos extratrópicos e as interações troposfera-estratosfera são fatores relevantes para um melhor entendimento da variabilidade da temperatura sobre a Península Antártica. / The Antarctic climate plays a significant role for the global energy budget. Previous studies suggest that interactions tropics-extratropics and the dynamics of the stratosphere are important factors to understand climate variations in the extratropics. The air temperature near surface responds to changes in circulation in low and upper levels. However, no previous studies have objectively investigated the importance of intraseasonal variations in modulating temperature around the Antarctica Peninsula. The present study examines intraseasonal extreme anomalies of near surface air temperature in the Antarctica Peninsula, and investigates interactions tropics-extratropics and troposphere-stratosphere. Daily temperature data from stations located east and west of the Antarctica Peninsula during 1986-2002 are investigated. Spectral analyses indicate that intraseasonal anomalies in temperature records are statistically significant during summer, winter and spring in all stations. Based on these results, temperatures are band-filtered on intraseasonal timescales (20-100 days) and extreme anomalies are investigated in each season (spring, summer and winter) based on the quartiles of the distributions. Intraseasonal extreme temperature (IET) anomalies are more intense during winter than during summer. Variations in the atmospheric circulation during IET are investigated by performing composites of intraseasonal anomalies of the geopotential height in 200hPa, zonal wind in 200hPa and meridional wind in 850hPa. During the three seasons, cold IET are associated with persistent upper level cyclonic anomalies, easterly anomalies of the polar jet and cold advection in low levels over the Peninsula. Opposite features are observed during warm IET. An extratropical wave-train is observed during all IET with stronger intensity during winter and spring. This feature resembles the Pacific South American (PSA) teleconnection pattern. The Southern Hemisphere Annular mode during the IET, identified as the first Empirical Orthogonal Function (EOF) of the intraseasonal 700hPa geopotential height anomalies poleward of 20oS, is more intense (weak) during cold (warm) IET events during winter. The stratosphere-troposphere interaction during IET events was examined with composites of the Eliassen-Palm Flux intraseasonal anomalies (EPIS). During spring, the wave activity is more intense and the EPIS direction is opposite to winter. During summer, EPIS are weak. Intraseasonal anomalies in the circulation and the wave activity in the troposphere and stratosphere lead the IET during winter in about 10 days. Therefore, the intraseasonal activity in the extratropics and the interactions stratosphere-troposphere are important factors for a complete understanding of the temperature variability over the Antarctica Peninsula.

climatologia Antártica

extremos de temperatura

interação trópicos-extratrópicos

interação trosposfera-estratosfera

variabilidade intra-sazonal

Antarctic climatology

extreme temperature

intraseasonal activity

tropics-extratropics interaction

troposphere-stratosphere interaction

Climatologies et tendances de l'ozone et du monoxyde de carbone dans la haute troposphère - basse stratosphère, vues par les mesures IAGOS et le modèle MOCAGE / Climatologies and trends in ozone and carbon monoxide in the upper troposphere-lower stratosphere, as seen by the IAGOS measurements and the MOCAGE model

Cohen, Yann

03 November 2018

L'objectif général de la thèse est de caractériser la distribution géographique, les cycles saisonniers et l'évolution récente de l'ozone et du monoxyde de carbone dans la haute troposphère - basse stratosphère (UT - LS) au-dessus de huit régions d'intérêt, aux moyennes latitudes de l'hémisphère Nord. Pour cela, nous avons analysé les observations aéroportées IAGOS. Nous avons montré une tendance positive de l'ozone dans l'UT sur 1994 - 2013, et une tendance négative du monoxyde de carbone liée à la décroissance des émissions en surface. Nous avons comparé les mesures à la simulation de composition chimique sur le climat récent issue du modèle MOCAGE dans l'exercice d'intercomparaison CCMI. Pour ce faire, nous avons développé une nouvelle méthode permettant de projeter les mesures IAGOS sur le maillage du modèle et de traiter ainsi 20 ans d'observations. Cette méthode s'est révélée pertinente pour évaluer la simulation et pourrait être étendue à d'autres simulations et d'autres modèles. / The overall objective of the thesis is to characterize the geographical distribution, seasonal cycles and recent trends of ozone and carbon monoxide in the upper troposphere- lower stratosphere (UT-LS) over eight regions of interest, in the northern mid-latitudes. For this purpose, we first analyzed the IAGOS airborne observations. We have shown a positive trend in ozone in the UT over 1994-2013, and a negative trend in carbon monoxide, the latter being linked to the decrease in surface emissions. We then compared the observations to the recent climate chemical composition simulation performed by the MOCAGE model in the CCMI intercomparison exercise. To do this, we have developed a new method to project IAGOS measurements onto the model grid, allowing us to process long observation periods. This method has proven to be relevant for evaluating the simulation and could be extended to other simulations and models.

Ozone

Haute troposphère

Basse stratosphère

Monoxyde de carbone

Mesures IAGOS

Modèle MOCAGE

Ozone

Upper troposphere

Lower stratosphere

Carbon monoxide

IAGOS measurements

MOCAGE model

Nová perspektiva vlivu gravitačních vln na stratosférickou dynamiku a variabilitu / New Perspective on the Role of Gravity Waves in the Stratospheric Dynamics and Variability

Šácha, Petr

January 2017

This thesis is concerned with the role of internal gravity waves (IGWs) in the stratospheric dynamics and variability demonstrating the effect of spatiotemporal distribution of their activity on the stratospheric dynamics and transport. The first part introduces a theoretical overview of the most recent as well as classical approaches used for description of the wave-mean interaction in the middle atmosphere. Methodology for an IGW analysis from the GPS radio occultation density data is described in the next chapter and the advantages of utilization of density data are listed. The third chapter presents results describing the peculiar dynamics and anomalous IGW activity in the Eastern Asia/Northern Pacific region. An important part is dedicated to a discussion of accuracy limits and usability of different IGW activity proxies. The possible impact of the localized IGW activity is investigated using a mechanistic middle and upper atmosphere model in the last chapter. Sensitivity simulations are used to demonstrate an important role of the spatial distribution of IGW activity for a formation of planetary waves and for the longitudinal variability of the Brewer-Dobson circulation. Implications for the middle atmospheric and climate change research are discussed along with consequences for parameterizations of...

“Until I Have Won” Vestiges of Coverture and the Invisibility of Women in the Twentieth Century: A Biography of Jeannette Ridlon Piccard

Hill, Sheryl K.

06 August 2009

No description available.

American History

Jeannette Ridlon Piccard

1907 Expatriation Act

1930s stratosphere ballooning

Episcopal Church women priests

women in NASA 1963-1970

Jean Felix Piccard

Hector the convector archétype des orages tropicaux hydratant la stratosphère / Hector the convector, the epitome of the tropical convection that hydrates the stratosphere

Dauhut, Thibaut

14 November 2016

Les orages tropicaux jouent un rôle incertain dans le transport de l'air troposphérique dans la stratosphère limitant notre capacité à prévoir le climat futur. Le transport par les orages pourrait en effet être sous-estimé dans les modèles de climat aux résolutions trop grossières. L'efficacité de ce transport est analysée à partir de simulations numériques de l'orage Hector the Convector jusqu'à une résolution de 100 m, la plus fine jamais utilisée pour un cas de convection très profonde. Les percées nuageuses, qui avaient été observées à son sommet à 18 km d'altitude, sont reproduites et l'hydratation nette de la stratosphère est quantifiée. La contribution des orages tropicaux au flux d'eau de la troposphère à la stratosphère est ainsi estimée à près de 20 %. La quasi-convergence aux résolutions de 200 m et 100 m suggère que de telles résolutions sont nécessaires pour représenter correctement les ascendances. L'analyse individuelle des ascendances indique que les deux plus grandes contribuent à plus de 90 % du flux de masse vers la basse stratosphère. Elles sont plus larges, plus puissantes et contiennent plus d'eau que les plus grandes ascendances une heure avant et une heure après, et leur cœur convectif apparaît très peu dilué. L'alimentation en surface par des lignes de convergence intensifiées par des poches froides et la faible dilution des deux plus grandes ascendances sont déterminantes dans l'apparition de la convection très profonde. L'analyse isentropique de la circulation générale dans Hector confirme le flux de masse calculé par l'analyse des ascendances. Elle le corrige dans les basses couches en prenant en compte les flux turbulents, et en haute troposphère en filtrant les ondes de gravité. Elle met en évidence l'importance du dégagement de chaleur latente dû à la congélation dans les plus grandes ascendances pendant la phase de percée en stratosphère. / The tropical thunderstorms play an uncertain role in the transport of tropospheric air into the stratosphere, limiting our capability to predict the future climate. The transport by the thunderstorms may be underestimated by the climate models, due to their coarse resolutions. The efficiency of this transport is analysed using numerical simulations of the thunderstorm Hector the Convector with resolutions down to 100 m, the finest ever used for a case of very deep convection. The overshoots, that were observed at its top at 18 km altitude, are captured and the net hydration of the stratosphere is quantified. The contribution of the tropical thunderstorms to the water flux from the troposphere to the stratosphere is then estimated to about 20 %. The almost convergence at 200 m and 100 m suggests that such resolutions are necessary to correctly represent the updafts. The individual analysis of the updrafts indicates that the two tallest contribute beyond 90 % of the mass flux into the stratosphere. They are larger, more vigorous and contain more water than the tallest updrafts one hour before and one hour after, and their convective core was weakly diluted. The supply from the surface by the convergence lines, intensified by the cold pools, and the weak dilution of the two tallest updrafts are determinant for the development of very deep convection. The isentropic analysis of the overturning inside Hector confirms the mass flux computed with the updrafts analysis. It corrects the estimate in the lower troposphere by taking into account the turbulent flux, and in the upper troposphere by filtering out the gravity waves. It highlights the importance of the latent heating due to freezing in the two tallest updrafts during the phase of overshoot in the stratosphere.

Convection

Météorologie tropicale

Échanges troposphère-stratosphère

Vapeur d'eau

LES (Large-Eddy Simulation)

Calcul intensif

Convection

Tropical meteorology

Troposphere-stratosphere exchanges

Water vapour

LES (large-eddy simulation)

High-performance computing

Analysis of Internal Boundaries and Transition Regions in Geophysical Systems with Advanced Processing Techniques

Krützmann, Nikolai Christian

January 2013

This thesis examines the utility of the Rényi entropy (RE), a measure of the complexity of probability density functions, as a tool for finding physically meaningful patterns in geophysical data. Initially, the RE is applied to observational data of long-lived atmospheric tracers in order to analyse the dynamics of stratospheric transitions regions associated with barriers to horizontal mixing. Its wider applicability is investigated by testing the RE as a method for highlighting internal boundaries in snow and ice from ground penetrating radar (GPR) recordings. High-resolution 500 MHz GPR soundings of dry snow were acquired at several sites near Scott Base, Antarctica, in 2008 and 2009, with the aim of using the RE to facilitate the identification and tracking of subsurface layers to extrapolate point measurements of accumulation from snow pits and firn cores to larger areas. The atmospheric analysis focuses on applying the RE to observational tracer data from the EOS-MLS satellite instrument. Nitrous oxide (N2O) is shown to exhibit subtropical RE maxima in both hemispheres. These peaks are a measure of the tracer gradients that mark the transition between the tropics and the mid-latitudes in the stratosphere, also referred to as the edges of the tropical pipe. The RE maxima are shown to be located closer to the equator in winter than in summer. This agrees well with the expected behaviour of the tropical pipe edges and is similar to results reported by other studies. Compared to other stratospheric mixing metrics, the RE has the advantage that it is easy to calculate as it does not, for example, require conversion to equivalent latitude and does not rely on dynamical information such as wind fields. The RE analysis also reveals occasional sudden poleward shifts of the southern hemisphere tropical pipe edge during austral winter which are accompanied by increased mid-latitude N2O levels. These events are investigated in more detail by creating daily high-resolution N2O maps using a two-dimensional trajectory model and MERRA reanalysis winds to advect N2O observations forwards and backwards in time on isentropic surfaces. With the aid of this ‘domain filling’ technique it is illustrated that the increase in southern hemisphere mid-latitude N2O during austral winter is probably the result of the cumulative effect of several large-scale, episodic leaks of N2O-rich air from the tropical pipe. A comparison with the global distribution of potential vorticity strongly suggests that irreversible mixing related to planetary wave breaking is the cause of the leak events. Between 2004 and 2011 the large-scale leaks are shown to occur approximately every second year and a connection to the equatorial quasi-biennial oscillation is found to be likely, though this cannot be established conclusively due to the relatively short data set. Identification and tracking of subsurface boundaries, such as ice layers in snow or the bedrock of a glacier, is the focus of the cryospheric part of this project. The utility of the RE for detecting amplitude gradients associated with reflections in GPR recordings is initially tested on a 25 MHz sounding of an Antarctic glacier. The results show distinct regions of increased RE values that allow identification of the glacial bedrock along large parts of the profile. Due to the low computational requirements, the RE is found to be an effective pseudo gain function for initial analysis of GPR data in the field. While other gain functions often have to be tuned to give a good contrast between reflections and background noise over the whole vertical range of a profile, the RE tends to assign all detectable amplitude gradients a similar (high) value, resulting in a clear contrast between reflections and background scattering. Additionally, theoretical considerations allow the definition of a ‘standard’ data window size with which the RE can be applied to recordings made by most pulsed GPR systems and centre frequencies. This is confirmed by tests with higher frequency recordings (50 and 500 MHz) acquired on the McMurdo Ice Shelf. However, these also reveal that the RE processing is less reliable for identifying more closely spaced reflections from internal layers in dry snow. In order to complete the intended high-resolution analysis of accumulation patterns by tracking internal snow layers in the 500 MHz data from two test sites, a different processing approach is developed. Using an estimate of the emitted waveform from direct measurement, deterministic deconvolution via the Fourier domain is applied to the high-resolution GPR data. This reveals unambiguous reflection horizons which can be observed in repeat measurements made one year apart. Point measurements of average accumulation from snow pits and firn cores are extrapolated to larger areas by identifying and tracking a dateable dust layer horizon in the radargrams. Furthermore, it is shown that annual compaction rates of snow can be estimated by tracking several internal reflection horizons along the deconvolved radar profiles and calculating the average change in separation of horizon pairs from one year to the next. The technique is complementary to point measurements from other studies and the derived compaction rates agree well with published values and theoretical estimates.

Atmosphere

cryosphere

Antarctica

snow

compaction

ice

glacier

McMurdo Ice Shelf

GPR

Ground Penetrating Radar

deconvolution

fourier deconvolution

domain filling

tropical pipe

tropical leak

RE

Renyi entropy

chaos theory

complexity

complexity measure

stratosphere

mixing

Transport et chimie d'espèces soufrées et bromées dans la haute troposphère et basse stratosphère diagnostiqués par des mesures sous ballon et en avion et par modélisation / Transport and chemistry of sulfur and bromine compounds in the upper troposhere and lower stratosphere diagnosed by balloon and aircraft measurements and modelling

Krysztofiak, Gisèle

17 October 2013

Le phénomène de destruction de l’ozone est un sujet vaste mettant en scène de nombreux processus. Il a pour origine l’émission de composés dits gaz sources (SGs) dans la troposphère. Récemment, les espèces à très courte durée de vie (VSLS) ont été identifiées comme SGs possibles. Cependant, elles ne possèdent pas un temps de vie suffisamment long pour atteindre directement la stratosphère. Les VSLS se dégradent au cours de leur transport, conduisant à des composés intermédiaires, les gaz produits (PGs). Les SGs et les PGs des VSLS vont entrer dans la stratosphère au niveau des régions équatoriales où règne un transport vertical rapide, la convection. Les SGs à temps de vie plus long peuvent accéder à la stratosphère par tous les types de transport possibles. Une fois dans la stratosphère, les SGs et PGs vont être convertis en espèces réactives capables de détruire l’ozone. Cette thèse présente l’étude des différentes étapes se produisant avant la destruction de l’ozone : l’émission et le transport des SGs dans l’atmosphère, leur chimie de dégradation au cours de leur transport et enfin leur contribution à la destruction de l’ozone. Les traceurs chimiques tels que CO sont tout d’abord utilisés pour mettre en évidence le transport des SGs et PGs de la troposphère à la stratosphère. Puis, deux études décrivant 2 types d’espèces différentes, entrant dans le processus de destruction de l’ozone, sont présentées : pour OCS (sulfure de carbonyle) et les VSLS bromés (CHBr3 et CH2Br2). OCS est l’un des principaux précurseurs d’aérosols sulfatés présents dans la stratosphère catalysant la destruction de l’ozone par chimie hétérogène. Cependant, sa contribution à cette couche comporte de nombreuses incertitudes. Ses sources d’émissions, sa répartition avec la latitude et sa contribution à la couche d’aérosols sulfatés sont présentées. La contribution des VSLS bromées au brome de la stratosphère est une question en cours de résolution. Leur chimie au cours de leur transport dans l’atmosphère est décrite de manière détaillée. / Ozone depletion is a complex subject involving several processes starting by the emission of the sources gases (SGs) in the lower troposphere. Recently the VSLS (very short lived substances) have been identified as potential SGs. However they do not have a lifetime long enough to reach directly the stratosphere. During the transport, the VSLS undergo degradation leading to products gases (PGs). The SGs and PGs of the VSLS reach the stratosphere in the Tropical region where a rapid vertical transport occurs, the convection. The SGs with longer lifetime can reach the stratosphere by any transport pathway from the location of their emissions. Once in stratosphere the SGs and PGs will be converted into reactive species able to deplete ozone. This thesis presents the study of the several steps occurring before the ozone depletion: SGs emission, SGs and PGs transport into the atmosphere, the chemical degradation occurring during their transport and finally their contribution to the ozone depletion. First, chemical tracers, as CO, are used to highlight the main pathways from the troposphere to the stratosphere. Then two studies of two different types of species entering in the process of ozone destruction are presented: for OCS (carbonyl sulfide) and the brominated VSLS (CHBr3 et CH2Br2). OCS is one of the sulfate aerosols precursors catalyzing the ozone depletion. However, OCS contribution to this layer has some uncertainties. OCS emission sources, the latitude repartition and the contribution to the sulfate aerosols are presented. The contribution of the brominated VSLS to the stratospheric bromine is a key issue that being almost resolved. The brominated VSLS chemical degradation during the atmospheric transport will be described in detail.

Echange troposphère-stratosphère

Traceurs chimiques

VSLS bromées

Espèces soufrées

Modélisation atmosphérique

Troposphere-stratosphere exchange

Chemical tracers

Brominated VSLS

Sulphur species

Atmospheric modelling