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791	L’élève accompli. Les innovations scolaires menées à Vanves par le Dr Max Fourestier (1950-1973). / Accomplished student. School innovations carried out by doctor Max Fourestier in Vanves (1950-1973) Laffage-Cosnier, Sébastien 05 December 2013 (has links) Les expériences scolaires menées à Vanves par le Docteur Max Fourestier sont un « lieu de mémoire » de l’histoire de l’éducation physique et sportive du milieu du XXe siècle. Ancré dans Les Trente Glorieuses, ce travail heuristique vise à décrire la place et le rôle des pratiques corporelles au sein des diverses expérimentations (mi-temps pédagogique et sportif, classe de neige, classe de sieste, classe de forêt ou encore tiers-temps pédagogique) conçues à l’école Gambetta et, plus généralement, dans les établissements scolaires vanvéens. Croisant des sources variées et originales, l’étude révèle que le processus inhérent à la renommée de l’œuvre de Max Fourestier tient à quatre facteurs complémentaires. Premièrement, le succès de ces idées novatrices est dû à la personnalité et au parcours de vie de leur créateur, doté d’une aura scientifique. Deuxièmement, Max Fourestier fédère des acteurs locaux et s’appuie sur l’identité de la ville de Vanves qui possède des spécificités politiques, éducatives, médicales et sociales. Troisièmement, le médecin scolaire utilise les réseaux, les structures sociales et les échanges interpersonnels pour convaincre, légitimer et diffuser son projet d’école idéale. Enfin, Max Fourestier s’attache à promouvoir son modèle en tirant profit de la modernité et de la force des médias. Ce travail articule majoritairement ces quatre logiques explicatives pour comprendre la naissance de ces innovations scolaires d’envergure internationale en 1950, leur développement entre 1951 et 1967 et enfin leur déclin à partir de 1968 / School experiments carried out by doctor Max Fourestier in Vanves are "places of memory" in the history of sport and physical education in the middle of the twentieth century. Rooted in the postwar economic boom, this heuristic work aims at describing the place and role of corporal practices in various experimentations (equal division of time between school work and sport, snow class, napping class, forest class or equal division of time between school work, physical education and cultural activities) implemented in school Gambetta and, more generally, in all the schools in Vanves. Blending varied and original sources, the study reveals that the inherent process of Max Fourestier's renowned work comes from four complementary factors. Firstly, the success of these innovative ideas is due to the personality and life path of their creator, who was endowed with a scientific aura. Secondly, Max Fourestier brings together local participants and relies on the identity of the town of Vanves which has specific political, educational, medical and social characteristics. Thirdly, the school doctor uses networks, social structures and interpersonal exchanges to convince, legitimize and spread his ideal school project. Finally, Max Fourestier promotes his model by taking advantage of modernity and the power of the media. This work revolves mainly around these four explanatory logics to understand the birth of these worldwide school innovations in 1950, their development between 1951 and 1967 and eventually their decline from 1968 on. Innovation scolaire Education physique Réseau Médias Histoire socio-Culturelle Classe de neige Tiers-Temps pédagogique Mi-temps pédagogique et sportif Innovations pédagogiques School innovation Physical education Network Medias Sociocultural studies Snow class 796.09 371.3
792	Resource efficiency of the ski industry in New Zealand Reiser, Axel January 2002 (has links) Skiing and snowboarding are popular recreation activities in New Zealand, as well as constituting important components of the winter tourism product. The 2001 snow season witnessed record visitor numbers. Skier days have increased by more than 10% compared with the previous year to 1.254 million. The traditionally “nature related” activity of skiing, however has increasingly often been discussed in the light of excessive resource consumption and pollution of alpine environments. Since no research on resource efficient management of ski fields has been undertaken in New Zealand, this study examined environmental awareness and actions of ski field managers, resource consumption benchmarks (water and energy use, solid waste production), along with resource use related visitor behaviour. Two separate surveys were undertaken to collect relevant information from ski field managers and ski field visitors. While a census of managers across New Zealand was conducted with a mail-back questionnaire (all 27 ski fields were contacted, response rate 44%), the visitor survey was undertaken on-site at six selected ski fields in Canterbury, South Island (total responses: N=259). Analysis of the survey results showed that managers generally acted to protect the environment and resources, however, at different levels for the various indicators measured. Energy use and air pollution were rarely perceived to be environmentally important. Accordingly, only few actions were undertaken to reduce energy use. This is surprising, since energy consumption proved to be a major feature of ski field management. Given the additionally large amounts of water consumed (mainly for snowmaking) and solid waste produced on the mountain, skiing has to be classified as a resource intensive activity. Resource consumption is intensified further, when the impacts associated with tourists being transported to, and from, the mountain are considered. Energy use for “ski trip transport” within New Zealand is two times larger (180 MJ) than energy use associated with ski field infrastructure use (90 MJ) on a per skier day basis. There are several options to improve the environmental performance of ski fields, ranging from modernising equipment, optimising snowmaking and providing efficient transport alternatives. Additionally, increased cooperation between ski field managers, local governments and research institutes could potentially result in environmentally smarter operational practices. Internationally, New Zealand’s ski areas compare relatively well, mainly because of limited on-mountain entertainment and accommodation development, which keeps resource consumption and pollution low compared with European and North American ski fields. However, this research also indicated that New Zealand’s ski field visitors increasingly demand facilities and services similar to those overseas, which in turn may result in larger environmental impacts. New Zealand is generally believed to be a green and nature-related destination and its ski areas still blend well into the natural environment. Hence, there is some potential for the New Zealand ski industry to develop a unique product in such a way that it is both, sustainable and distinguishable from other international markets. snow sport resource consumption resource efficiency downhill skiing snowboarding benchmarking environmental awareness New Zealand
793	"Nam-Shub versus the Big Other: Revising the Language that Binds Us in Philip K. Dick, Neal Stephenson, Samuel R. Delany, and Chuck Palahniuk" Embry, Jason Michael 21 April 2009 (has links) Within the science fiction genre, utopian as well as dystopian experiments have found equal representation. This balanced treatment of two diametrically opposed social constructs results from a focus on the future for which this particular genre is well known. Philip K. Dick’s VALIS, Neal Stephenson’s Snow Crash, Samuel R. Delany’s Babel-17, and Chuck Palahniuk’s Lullaby, more aptly characterized as speculative fiction because of its use of magic against scientific social subjugation, each tackle dystopian qualities of contemporary society by analyzing the power that language possesses in the formation of the self and propagation of ideology. The utopian goals of these texts advocate for a return to the modernist metanarrative and a revision of postmodern cynicism because the authors look to the future for hopeful solutions to the social and ideological problems of today. Using Slavoj Žižek’s readings of Jacques Lacan and Theodor Adorno’s readings of Karl Marx for critical insight, I argue these four novels imagine language as the key to personal empowerment and social change. While not all of the novels achieve their utopian goals, they each evince a belief that the attempt belies a return to the modernist metanarrative and a rejection of postmodern helplessness. Thus, each novel imagines the revision of Žižek’s big Other through the remainders of Adorno’s inevitably failed revolutions, injecting hope in a literary period that had long since lost it. Logos Gnosticism Utopia Metanarrative Postmodernism Philip K. Dick American literature Lullaby Babel-17 Snow Crash VALIS Slavoj Žižek Modernism Science fiction Chuck Palahniuk Neal Stephenson Samuel R. Delany Jacques Lacan Theodor Adorno English Language and Literature
794	A Preliminary Assessment of Snowfall Interception in Arizona Ponderosa Pine Forest Tennyson, Larry C., Ffolliott, Peter F., Thorud, David S. 05 May 1973 (has links) From the Proceedings of the 1973 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - May 4-5, 1973, Tucson, Arizona / A preliminary assessment and ranking of the relative significance of five processes that may contribute to snow removal from ponderosa pine forest canopies was made, including wind erosion of canopy snow, snowslide from the canopy, stemflow, vapor transport from melt water, and vapor transport of canopy snow. The first three represent delayed delivery rather than net water loss. A snow load index was obtained through use of time lapse photography of the study site canopy, while incoming solar radiation and atmospheric processes were monitored. The snow load index was expressed as a ratio of forest canopy area covered with snow to the total canopy area. Results obtained over a 4-day period following a six-hour snowstorm showed that snow removal by snowslide and wind erosion was of significant importance, while vapor transport of melt water and canopy snow, stemflow, and dripping of melt water was of comparatively minor importance. Hydrology -- Arizona. Water resources development -- Arizona. Hydrology -- Southwestern states. Snowfall Interception Snow removal Arizona Ponderosa pine trees Snowpack Snowmelt Stemflow Canopy Water yield improvement Wind erosion
795	Solar Radiation as Indexed by Clouds for Snowmelt Modeling McAda, D. P., Ffolliott, P. F. 15 April 1978 (has links) From the Proceedings of the 1978 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - April 14-15, 1978, Flagstaff, Arizona / In an effort to improve the methods of forecasting the amount and timing of snowmelt, a primary source of water in Arizona, significant regression equations are developed over a selected measurement period to relate global, direct, and diffuse solar radiation to: (1) the cloud-cover of specific cloud genera, (2) the hour before or after solar noon, and (3) the potential solar radiation. Three regression equations are derived from cloud-cover imagery and solar radiation data collected from two sites in Arizona 's Ponderosa pine forests, Schnebly Hill, and Alpine, in the hope that regression models will be useful in the simulation of snowpack dynamics. Hydrology -- Arizona. Water resources development -- Arizona. Hydrology -- Southwestern states. Snowmelt Snow management Cloud physics Regression analysis Solar radiation Melt water Cloud cover Atmospheric physics Model studies Forecasting Hydrologic equation Arizona
796	Zur Vergletscherungsgeschichte des Rolwaling Himal und des Kangchenjunga Himal (Nepal, Himalaya Südabdachung) / A contribution to the history of glaciation of Rolwaling Himal and the Kangchenjunga Himal (Nepal, Himalaya) König, Oliver 12 December 2002 (has links) No description available. 550 Geowissenschaften Mathematics and Computer Science Geomorphologie Nepal Himalaya Rolwaling Himal Kangchenjunga Himal Quartär Vergletscherung Schneegrenze Gletscher Klimawandel Geomorphology Nepal Himalaya Rolwaling Himal Kangchenjunga Himal Quaternary glaciation snow line glacier climate change 38.82 QGM 113: Nepal {Geographie}
797	Modelling the potential impacts of climate change on snowpack in the St. Mary River watershed, Montana MacDonald, Ryan J, University of Lethbridge. Faculty of Arts and Science January 2008 (has links) Climate change poses significant threats to mountain ecosystems in North America (Barnett et al., 2005) and will subsequently impact water supply for human and ecosystem use. To assess these threats, we must have an understanding of the local variability in hydrometeorological conditions over the mountains. This thesis describes the continued development and application of a fine scale spatial hydrometeorological model, GENESYS (GENerate Earth SYstems Science input). The GENESYS model successfully simulated daily snowpack values for a 10 year trial period and annual runoff volumes for a thirty year period. Based on the results of these simulations the model was applied to estimate potential changes in snowpack over the St. Mary River watershed, Montana. GCM derived future climate scenarios were applied, representing a range of emissions controls and applied to perturb the 1961-90 climate record using the “delta” downscaling technique. The effects of these changes in climate were assessed for thirty year time slices centered on 2020s, 2050s, and 2080s. The GENESYS simulations of future climate showed that mountain snowpack was highly vulnerable to changes in temperature and to a lesser degree precipitation. A seasonal shift to an earlier onset of spring melt and an increase in the ratio of rain to snow occurred under all climate change scenarios. Results of mean and maximum snowpack were more variable and appeared to be highly dependent on scenario selection. The results demonstrated that although annual volume of available water from snowpack may increase, the seasonal distribution of available water may be significantly altered. / viii, 93 leaves ; 29 cm Climatic changes Global warming Snow -- Montana -- St. Mary River Basin St. Mary River Basin (Montana) Rocky Mountains -- Montana -- Climate Dissertations, Academic
798	Modelling climate change impacts on mountain snow hydrology, Montana-Alberta Larson, Robert, University of Lethbridge. Faculty of Arts and Science January 2008 (has links) A modelling approach focused on snow hydrology was developed and applied to project future changes in spring streamflow volumes in the St. Mary River headwaters basin, Montana. A spatially distributed, physically-based, hydrometeorological and snow mass balance model was refined and used to produce snow water equivalent (SWE) and rainfall surfaces for the study watershed. Snowmelt runoff (SR) and effective rainfall runoff (RR) volumes were compiled for the 1961-2004 historical period. A statistical regression model was developed linking spring streamflow volume (QS) at Babb, Montana to the SR and RR modelled data. The modelling results indicated that SR explained 70% of the variability in QS while RR explained another 9%. The model was applied to climate change scenarios representing the expected range of future change to produce annual QS for the period 2010-2099. Compared to the base period (1961-1990), average QS change ranged from -3% to -12% for the 2020s period. Percent changes increased to between -25% and -32% for the 2050s, and -38% and -55% for the 2080s. Decreases in QS also accompanied substantial advances in the onset of spring snowmelt. Whereas the spring pulse onset on average occurred on April 8 for the base period, it occurred 36 to 50 days earlier during the 2080s. The findings suggest that increasing precipitation will not compensate for the effects of increasing temperature in watershed SWE and associated spring runoff generation. There are implications for stakeholder interests related to ecosystems, the irrigation industry, and recreation. / xii, 136 leaves : ill. ; 28 cm. -- Dissertations, Academic Electronic dissertations Snowpack augmentation -- Rocky Mountains Climatic changes St. Mary River Basin (Montana) Global warming Rocky Mountains -- Climate Snow -- Rocky Mountains
799	Impacts potentiels d’un changement climatique sur le pergélisol dans le nord canadien Obretin, Calin 05 1900 (has links) Cette thèse porte sur l'impact du changement climatique du à des gaz à effet de serre sur l'état et l'évolution du pergélisol dans le nord canadien. Le pergélisol se retrouve sur la moitie du territoire canadien et un changement de son état actuel se répercutera dans toutes les sphères d'activité, sur la biosphère et sur l'environnement en général. Malgré l'importance évidente du sujet, il n'y a pas une idée précise comment le pergélisol réagira au changement climatique et jusqu'où la couche pergélisolée sera perturbée. Cette thèse explore ce sujet en utilisant une approche méthodologique s’inspirant de celui du modèle canadien d'évolution de pergélisol (TTOP) et avec une approche théorique basée sur la théorie des systèmes neuronaux complexes. L’objectif général de cette thèse est d’améliorer le modèle canadien d’évolution du pergélisol (TTOP - Temperature on the Top Of Permafrost) créé par Smith et Riseborough en 1996, tant dans sa structure de calcul, que dans sa résolution spatiale et de déterminer l'évolution du pergélisol dans la zone d'étude pour la période 2010-2100. Cette zone est située dans le Bassin Mackenzie (T.N-O) sur un transect nord-sud de 1440 x 720 km. Le premier objectif de recherche est de produire les cartes des valeurs annuelles de température à la partie supérieure du pergélisol de 2010 à 2100 en utilisant un modèle amélioré d'évolution du pergélisol (TTOP-A). Par la suite, ces valeurs sont comparées à celles obtenues par Smith et Riseborough (1996). Les valeurs de température de l'air pour cette période sont fournies par les scénarios d'évolution climatique MCCG3 SRES A1B, MCCG3 SRES A2 et MCCG3 SRES B1. Dans un deuxième temps, cette thèse a pour objectif la production des cartes d'épaisseur de pergélisol jusqu'en 2100 à une résolution spatiale de 25 km. Plus précisément, on détermine l'évolution des valeurs d'épaisseur de pergélisol pour les trois scénarios climatiques mentionnés antérieurement. De plus, l'étude propose: i) une nouvelle méthode de désagrégation des données climatiques en utilisant un Modèle Stochastique Déterminé, ii) l'intégration de la carte de type de sol, iii) l'intégration des valeurs d'humidité dans le sol, iv) l'intégration des valeurs d'épaisseur de la couche nivale et v) l'intégration des données de télédétection (SSM/I). De façon générale, les résultats obtenus par le modèle TTOP-A révèlent que les valeurs moyennes de température à la surface du pergélisol suivent de près les valeurs de température de l’air et qu'elles sont semblables aux celles trouvées par Smith et Riseborough (1996) et Heginbottom et coll. (1995). De plus, les différences des valeurs de température à la surface de pergélisol entre 2010 et 2100 s'inscrivent dans l'écart des valeurs publié par le Groupe d'Experts Intergouvernemental sur l'Évolution du Climat (GIEC, 2007). Concernant le deuxième objectif de cette thèse, la dynamique spatiotemporelle du pergélisol jusqu'en 2100 démontre que, dans la zone d'étude, la superficie perturbée par le réchauffement climatique sera de 37 %, 60 % et 29 % selon les scénarios MCCG3 SRES A1B, MCCG3 SRES A2 et MCCG3 SRES B1 respectivement. Selon les scénarios mentionnés antérieurement, la couche pergélisolée à l'intérieur de cette zone disparaîtra dans une proportion de 20 %, 32 % et 18 % respectivement. Ces résultats nous laissent croire que les prévisions faites par Smith et Riseborough ont été surévaluées dans le contexte de deux des trois scénarios climatiques actuels par rapport à celui de 1996. Finalement, cette étude démontre que la méthode de désagrégation des données en utilisant les réseaux neuronaux dans un Modèle Stochastique Déterminé donne de bons résultats et elle représente une option fiable qui se prête à des généralisations à grande échelle. / This thesis explores the potential impacts of a climate change due to the greenhouse gases on the state and the evolution of the permafrost in the Canadian North. The permafrost represents the half of the Canadian national territory and a change of its current state will echo in all spheres of activity, on the biosphere and on the environment generally. In spite of the evident importance of the subject, there is no precise idea as to how the permafrost will react to the climate change and to what extent the frozen layer will be disrupted. This thesis investigates this problem by using a methodological approach inspired by the Canadian model on the evolution of permafrost (TTOP) coupled with a theoretical approach based on the theory of the complex neuronal systems. The general objective of this thesis is to improve the Canadian model of evolution of permafrost (TTOP-Temperature one the Top Of Permafrost) created by Smith and Riseborough in 1996, its structure of computation, spatial resolution and to determine the state of the permafrost in the study area between 2010 and 2100. The study zone is situated in the Mackenzie Basin (N-W.T) on a north-south transect of 1440 by 720 km. The first objective of the research is to derive maps of the annual values of temperature on the top of the permafrost from 2010 to 2100 by using an improved dynamic model of the evolution of permafrost (TTOP-A). Thereafter, these values are compared with those obtained by Smith and Riseborough (1996). The values of the evolution of air temperature for this period are supplied by the climatic scénarios CGCM3 SRES A1B, CGCM3 SRES A2 and CGCM3 SRES B1. Secondly, this thesis has as an objective the production of the maps of the thickness of permafrost for 2100 with a spatial resolution of 25 km. More exactly, we determine the evolution of the values of thickness of permafrost for the three climatic scénarios mentioned above. Furthermore, the study proposes: i) a new method for downscaling of climate data by using a Determined Stochastic Model, ii) the integration of soil type, iii) the integration of the soil humidity, iv) the integration of the values of thickness of the snow layer and v) the integration of remote sensing data (SSM/I). As a rule, the results obtained by the TTOP-A model reveal that the mean values of temperature at the surface of the permafrost follow closely the values of air temperature and that they are similar to those found by Smith and Riseborough (1996) and Heginbottom and coll. (1995). Also, the differences of the values of temperature on the surface of permafrost between 2010 and 2100 are similar to the values published by the Intergovernmental Panel on Climate Change (IPCC). Concerning the second objective of this thesis, the spatio-temporal dynamics of the permafrost until 2100 demonstrates that, in the study zone, the surface perturbed by global warming will be 37 %, 60 % and 29 % according to the scénarios CGCM3 SRES A1B, CGCM3 SRES A2 and CGCM3 SRES B1 respectively. The permafrost layer inside this zone will disappear by 20 %, 32 % and 18 % according to the scénarios mentioned before. These results lead us to believe that the estimations made by Smith and Riseborough were overvalued in the context of two of three current climates scénarios compared to that of the 1996. Finally, this study demonstrates that the method of downscaling of climate data using the neuronal network within a Determined Stochastic Model gives good results and it represents a reliable option which lends itself to large-scale generalizations. / Les fichiers video (d'animation) sont dans un format Windows Media (.wmv) pergélisol désagrégation neige humidité scénario climatique réseau neuronal Modèle Stochastique Déterminé changement climatique MCCG3 TTOP permafrost downscaling snow soil humidity climate scenario neuronal network Determined Stochastic Model climate change CGCM3
800	Analysis of Internal Boundaries and Transition Regions in Geophysical Systems with Advanced Processing Techniques Krützmann, Nikolai Christian January 2013 (has links) 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

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