Global ETD Search

141	Encounters and transformations in Iron Age Europe: the ENTRANS Project Armit, Ian, Potrebica, H., Črešnar, M., Mason, P., Büster, Lindsey S. 12 1900 (has links) Yes / The Iron Age in Europe was a period of tremendous cultural dynamism, during which the values and constructs of urbanised Mediterranean civilisations clashed with alternative webs of identity in ‘barbarian’ temperate Europe. Until recently archaeologists and ancient historians have tended to view the cultural identities of Iron Age Europeans as essentially monolithic (Romans, Greeks, Celts, Illyrians etc). Dominant narratives have been concerned with the supposed origins and spread of peoples, like ‘the Celts’ (e.g. COLLIS 2003), and their subsequent ‘Hellenisation’ or ‘Romanisation’ through encounters with neighbouring societies. Yet there is little to suggest that collective identity in this period was exclusively or predominantly ethnic, national or even tribal. Instead we need to examine the impact of cultural encounters at the more local level of the individual, kin-group or lineage, exploring identity as a more dynamic, layered construct. / HERA, European Commission Iron Age Europe Mediterranean ENTRANS East Alpine region North Balkans Socio-economic interaction
142	Settling and Moving: a biographical approach to interpreting patterns of occupation in LBA Circum-Alpine Lake-Dwellings Jennings, Benjamin R. January 2012 (has links) Yes / Lakeshore and wetland settlements of the Circum-Alpine region are well known for their excellent preservation of organic remains and their potential for accurate dating through dendrochronology. This settlement tradition spans from the Neolithic to the Early Iron Age, though several hiatuses in lake-dwelling construction are observed. Traditional models for the abandonment of lake settlements rely upon climatically deterministic models, linking declining climatic conditions to increasing lake-levels, which would have impacted upon settlements and forced the inhabitants to relocate. Recent studies of Neolithic lake-dwellings have indicated that social factors also influenced the development of these settlements, while the ‘social biography’ of settlements has been an area of increasing interest in terrestrial settlements. A review of selected Late Bronze Age (LBA) lake settlement illustrates the development sequence seen at many lake-dwellings from across the Circum-Alpine region. The proposal of a biographical model linking cultural influences to the development sequence observed in LBA lake-dwellings, and to the choice to abandon areas and relocate villages, offers further insights into the development of enigmatic settlements. / Swiss National Science Foundation Late Bronze Age Lake-dwellings Circum-Alpine region Settlement dynamics Cultural biography
143	Breaking with Tradition. Cultural Influences for the decline of the Circum-Alpine region lake-dwellings Jennings, Benjamin R. January 2014 (has links) No / Over 150 years of research in the Circum-Alpine region have produced a vast amount of data on the lakeshore and wetland settlements found throughout the area. Particularly in the northern region, dendrochronological studies have provided highly accurate sequences of occupation, which have correlated, in turn, to palaeoclimatic reconstructions in the area. The result has been the general conclusion that the lake-dwelling tradition was governed by climatic factors, with communities abandoning the lakeshore during periods of inclement conditions, and returning when the climate was more favourable. Such a cyclical pattern occurred from the 4th millennium BC to 800 BC, at which time the lakeshores were abandoned and never extensively re-occupied. Was this final break with a long-lasting tradition solely the result of climatic fluctuation, or were cultural factors a more decisive influence for the decline of lake-dwelling occupation? Studies of material culture have shown that some of the Late Bronze Age lake-dwellings in the northern Alpine region were significant centres for the production and exchange of bronzework and manufactured products, linking northern Europe to the southern Alpine forelands and beyond. However, during the early Iron Age the former lake-dwelling region does not show such high levels of incorporation to long-distance exchange systems. Combining the evidence of material culture studies with occupation patterns and burial practices, this volume proposes an alternative to the climatically-driven models of lake-dwelling abandonment. This is not to say that climate change did not influence those communities, but that it was only one factor among many. More significantly, it was a combination of social choice to abandon the shore, and subsequent cultural developments that inhibited the full scale reoccupation of the lakes. / Swiss National Science Foundation Bronze Age Lake-dwellings Central Europe Cultural change Object biographies Iron Age Alpine region
144	The end of the lake-dwellings in the Circum-Alpine region Menotti, Francesco January 2015 (has links) No / After more than 3500 years of occupation in the Neolithic and Bronze Age, the many lake-dwellings’ around the Circum-Alpine region ‘suddenly’ came to an end. Throughout that period alternating phases of occupation and abandonment illustrate how resilient lacustrine populations were against change: cultural/environmental factors might have forced them to relocate temporarily, but they always returned to the lakes. So why were the lake-dwellings finally abandoned and what exactly happened towards the end of the Late Bronze Age that made the lake-dwellers change their way of life so drastically? The new research presented here draws upon the results of a four-year-long project dedicated to shedding light on this intriguing conundrum. Placing a particular emphasis upon the Bronze Age, a multidisciplinary team of researchers has studied the lake-dwelling phenomenon inside out, leaving no stones unturned, enabling identification of all possible interactive socio-economic and environmental factors that can be subsequently tested against each other to prove (or disprove) their validity. By re-fitting the various pieces of the jigsaw a plausible, but also rather unexpected, picture emerges. Lake-dwellings Circum-Alpine region Bronze Age Socio-economic factors Environmental factors
145	Water dwelling: a European context: Later prehistoric water dwelling in the circum-Alpine region Jennings, Benjamin 20 November 2024 (has links) Yes Circum-Alpine region Water dwellings Wetland archaeology Must Farm settlement Late Bronze Age Prehistoric occupation
146	Ecological shifts of stream ecosystems in a deglaciating area of the European Alps Brighenti, Stefano 25 October 2019 (has links) This thesis provides a contribution to the knowledge on the effects of deglaciation on alpine stream ecosystems, taking into account also the hydroecological influence of thawing permafrost and paraglacial features. With a focus on the European Alps, a review is provided on the climate changes and shifts in the cryosphere (snow, glaciers, permafrost), the related changes in hydrology, geomorphic processes and the physical and chemical habitat of alpine river networks, and the consequent shifts in stream communities and food webs. A conceptual model is provided to summarize the complex interactions and the cascading effects triggered by deglaciation on hydrology, habitat and biota of alpine streams, that can be useful for educational purposes and to help the scientific community to contextualize these issues to other alpine areas. Deglaciation induces homogenisation of river networks, loss of biodiversity, and shifts in primary and secondary production, functional diversity and food webs. The scarce published studies on streams influenced by permafrost provide hints on the role of thawing rock glaciers (i.e. evident form of mountain permafrost) in shaping the ecology of freshwaters, and reveal important research gaps. To increase the knowledge on this topic, different alpine streams fed by waters of different origin were selected in two subcatchments (Zay, Solda) of a deglaciating area of the Central Italian Alps (Solda Valley), and their habitat conditions and benthic invertebrate communities were investigated over a two-year period. Rock glacier-fed streams could be distinguished from those fed by glaciers, groundwater and those of mixed origin because of their constantly clear and very cold waters, stable channels, and high concentrations of ions and trace elements that increased as summer progressed. Furthermore, the Zay rock glacier strongly influenced the glacier-fed stream through an intense export of solutes, which become progressively more relevant towards the end of summer. This influence was also due to the contribution of a proglacial lake and a moraine body, that both strongly decreased the glacial influence along the glacier-fed stream before its confluence with the rock glacier outflow. The wide range of habitat conditions revealed to strongly influence the benthic invertebrate communities in the study area. Channels with groundwater (krenal) and mixed (glacio-rhithral) exhibited a higher taxa richness and diversity. Peaks of abundance and biomass in the catchment were recorded just downstream the talus body, in the upper glacio-rhithral channel. Chironomidae from the cold-adapted genus Diamesa were dominant in the proglacial sections (upper kryal) of the glacier-fed streams. The proglacial lake, the moraine body and the rock glacial tributary at Zay contributed to the amelioration of the environmental features of the glacier-fed stream (lower kryal), boosting high invertebrate biomass and abundance and causing shifts in the community composition (e.g. increased Orthocladiinae and other Diamesinae chironomids, abundant Trichoptera). The two rock glacial communities differed considerably between each other. In fact, the community of the Zay rock glacial stream was partially influenced by the seepage of glacier waters, and resembled those of the surrounding lower kryal. On the contrary, the Solda rock glacial stream, detached from any glacier influence, hosted a rich and diverse community which resembled those of glacio-rhithral and krenal, even though with a higher abundance of Diamesa. Overall, the results of this thesis showed that in the advanced phases of glacier retreat, paraglacial landforms and permafrost can increasingly contribute to the riverscape diversity and shape the ecology of river networks. Because of their unique environmental settings, rock glacial streams should be considered a distinct alpine stream habitat, acting in deglaciating catchments as stepping stones that enhance the upstream colonisation of non-glacial communities following glacier retreat. At the same time, they might represent cold refugia for cold-stenothermal and/or typically glacial taxa when glaciers will be disappeared, because of the slower thawing rate of rock glacier ice. In this context, the presence of Diamesa kryal specialist species in rock glacial streams deserves further investigation, in order to understand the potential conservation value that these habitats may have in buffering the β-diversity reduction which is predicted in alpine areas as a consequence of glacier loss. Settore BIO/07 - Ecologia
147	Modélisation numérique de la couche limite atmosphérique par condition stable en terrain complexe. Application à la qualité de l'air / Numerical modelling of the stable atmospheric boundary layer over complex terrain and application to air quality Quimbayo-Duarte, Julian 13 March 2019 (has links) En hiver, par condition anticyclonique hivernale, les régions montagneuses urbanisées font l'objet de conditions atmosphériques stables et découplées, qui conduisent à des épisodes de forte pollution particulaire. Ce travail de thèse traite de la caractérisation des facteurs de pollution de l'air aux particules par condition stable en vallée alpine encaissée, du point de vue de la dynamique atmosphérique. Ce travail repose sur des simulations numériques idéalisées et en conditions réelles à l'aide du modèle Weather Research and Forecasting (WRF), les particules étant modélisées par un champ de traceur passif.Dans une première partie, des simulations numériques à haute résolution ont été réalisées, en utilisant deux configurations différentes de vallées tridimensionnelles idéalisées ouvrant sur une plaine. La première configuration correspond à une vallée de largeur constante dans la direction de l'axe de la vallée ouvrant sur une plaine. Dans la seconde configuration, la vallée est composée de deux sections, la section aval, qui ouvre sur la plaine, étant plus étroite que la section amont. Cette configuration est appelée "pooling". Quelle que soit la configuration, la variation du profil vertical de température le long de l'axe de la vallée conduit à d'un gradient de pression horizontal générant un vent de vallée. Les configurations de type "pooling" sont associées à des concentrations de polluants plus élevées que dans le cas où la largeur de la vallée ne varie pas, car le vent de vallée est plus faible dans la configuration "pooling". L'impact de la largeur de la section aval sur la concentration de polluants dans la section amont est remarquable: la ventilation de la section amont peut être complètement bloquée pendant la majeure partie de la simulation (six heures) lorsque le rapport de largeur de la section amont à la section aval est égal à 10.La deuxième partie concerne une situation réelle en vallée alpine, durant un épisode fortement pollué de février 2015. La dynamique atmosphérique et la concentration de particules fines (PM) ont été modélisées dans une section de la vallée de l'Arve autour de la ville de Passy par le modèle WRF-Chem durant cet épisode. Pour cela, le cadastre d'émission préparé par l'agence de qualité de l'air de la région Auvergne Rhône-Alpes a été implémenté dans le modèle. La dynamique de la couche limite a été comparée à des profils verticaux de vent et température mesurés lors d'une campagne de terrain durant l'épisode pollué, et la concentration de PM comparée aux données de stations de qualité de l'air. La contribution des vallées tributaires à la pollution atmosphérique dans cette section de la vallée de l'Arve a d'abord été étudiée. Les résultats montrent que cette contribution est très faible par rapport à celle des sources locales; ceci implique que les émissions $in-situ$ sont principalement responsables de la forte concentration de particules polluantes enregistrée dans la vallée car le fond de vallée est découplé de l'atmosphère au-dessus de la vallée. Les processus de ventilation et leur influence sur la concentration de particules (PM) ont ensuite été étudiés. L'analyse montre qu'en raison de la ventilation limitée autour de la ville de Passy, la variabilité horaire de la concentration de PM dans la ville est contrôlée par les émissions. / During wintertime anticyclonic regimes, urbanized mountain areas often experience stable and decoupled atmospheric conditions, resulting in severe episodes of particulate air pollution. This study deals with the characterization of drivers of particulate air pollution in deep alpine valleys under such stable conditions from the point of view of atmospheric dynamics. The work has been carried out through the implementation of both idealized and real case numerical simulations using the Weather Research and Forecasting (WRF) model. Particulate air pollution has been modelled by implementing passive tracers in the simulations.In a first part, high-resolution numerical simulations have been performed using two different configurations of three-dimensional idealized valleys opening onto a plain. The first configuration corresponds to a valley of constant width in the along-valley direction, directly opening onto a plain. The second one consists in a valley of varying width in that direction, with an upstream section of larger width than the downstream section, which opens onto the plain. The latter configuration is referred to as a pooling case. The change in the vertical temperature profile along the valley axis in all configurations results in a horizontal pressure gradient that leads to the development of an along-valley flow. Configurations in which the upstream section of the valley opens onto a narrower one have shown to be prone to higher pollutant concentrations than in the case of a valley opening directly onto a plain, due to the weaker down-valley flow developing in the variable width configurations. The impact of the downstream valley section on the concentration of pollutants in the upstream valley section is remarkable: the ventilation of the upstream valley section can be completely blocked for most of the simulation (six hours) when the ratio of the upstream to downstream valley section width is equal to 10.The second part deals with a real case situation, focusing on a section of the alpine Arve River valley around the city of Passy. The numerical modelling of the atmospheric dynamics and particulate matter (PM) concentration in that section has been performed during a strongly polluted wintertime episode of February 2015. For this purpose the emission inventory prepared by the air quality agency of the région Auvergne Rhône-Alpes has been implemented in the WRF-Chem model. The boundary layer dynamics has been compared to wind and temperature profiles collected during a field campaign conducted during the episode, and PM concentration has been compared to data recorded by air quality stations. The contribution of the valley tributaries to air pollution within the section considered has been first studied. Results show that this contribution is very small compared to that from local sources; this implies that $in-situ$ emissions are primarily responsible for the high PM concentration recorded in the valley since the valley bottom is decoupled from the atmosphere above the valley. The ventilation characteristics of the valley and their influence on the particulate matter (PM) concentration have next been investigated. The analysis indicates that due to the limited ventilation around the city of Passy, the hourly variability of PM concentration therein is driven by that of the emissions. Couche limite atmosphérique Vallée alpine Condition stable hivernale Modélisation numérique Mesures in situ Qualité de l'air Atmospheric boundary layer Alpine valley Wintertime stable condition Numerical modelling Field measurements Air quality 550
148	Monitoring Vegetation Change in the Kosciuszko Alpine Zone, Australia Scherrer, Pascal, n/a January 2004 (has links) This thesis examined vegetation change over the last 43 years in Australia's largest contiguous alpine area, the Kosciuszko alpine zone in south-eastern Australia. Using historical and current data about the state of the most common vegetation community, tall alpine herbfield, this thesis addressed the questions: (1) what were the patterns of change at the species/genera and life form levels during this time period; (2) what were the patterns of recovery, if recovery occurred, from anthropogenic disturbances such as livestock grazing or trampling by tourists; (3) what impacts did natural disturbances such as drought have on the vegetation and how does it compare to anthropogenic disturbances; and (4) What are the benefits, limitations and management considerations when using long-term data for assessing vegetation changes at the species/genera, life form and community levels? The Kosciuszko alpine zone has important economic, cultural and ecological values. It is of great scientific and biological importance, maintaining an assemblage of vegetation communities found nowhere else in the world. It is one of the few alpine regions in the world with deep loamy soils, and contains endemic flora and fauna and some of the few periglacial and glacial features in Australia. The area also forms the core of the Australian mainland's most important water catchment and is a popular tourist destination, offering a range of recreational opportunities. The vegetation of the Kosciuszko alpine zone is recovering from impacts of livestock grazing and is increasingly exposed to pressures from tourism and anthropogenic climate change. At the same time, natural disturbances such as drought and fire can influence the distribution, composition and diversity of plants. Thus, there is a need for detailed environmental data on this area in order to: (1) better understand ecological relationships; (2) understand existing and potential effects of recreational and management pressures on the region; (3) provide data against which future changes can be assessed; and (4) provide better information on many features of this area, including vegetation, for interpretation, education and management. The research in this thesis utilised three types of ecological information: (1) scientific long-term datasets; (2) photographic records; and (3) a comparison of disturbed and undisturbed vegetation. This research analysed data from one of the longest ongoing monitoring programs in the Australian Alps established by Alec Costin and Dane Wimbush in 1959. Permanent plots (6 transects and 30 photoquadrats) were established at two locations that differed in the time since grazing and have been repeatedly surveyed. Plots near Mt Kosciuszko had not been grazed for 15 years and had nearly complete vegetation cover in 1959, while plots near Mt Gungartan showed extensive impacts of grazing and associated activities which only ceased in 1958. Some transect data from 1959 to 1978 have been analysed by the original researchers. The research presented in this thesis extends this monitoring program with data from additional surveys in 1990, 1999 and 2002 and applies current methods of statistical evaluation, such as ordination techniques, to the whole data set for the first time. Results indicated that the recovery from livestock grazing and the effects of drought have been the main factors affecting vegetation. Recovery from livestock grazing at the three transects at Gungartan was slow and involved: (1) increasing genera diversity; (2) increasing vegetation cover; (3) decreasing amounts of bare ground; and (4) a directional change over time in species composition. Patterns of colonisation and species succession were also documented. In 2002, 44 years after the cessation of grazing, transects near Mt Gungartan had similar vegetation cover and genera diversity to the transects near Mt Kosciuszko, but cover by exposed rock remained higher. A drought in the 1960s resulted in a temporary increase of litter and a shift in the proportional cover of life forms, as grasses died and herb cover increased at both locations. Proportions of cover for life forms reverted to pre-drought levels within a few years. The results also highlighted the spatial variability of tall alpine herbfield. The photoquadrats were surveyed in the years 1959, 1964, 1968, 1978 and 2001 and are analysed for the first time in this thesis. After comparing a range of methods, visual assessment using a 130 point grid was found to be the most suitable technique to measure vegetation cover and genera diversity. At the 18 quadrats near Mt Gungartan, there was a pattern of increasing vegetation cover as bare areas were colonised by native cudweeds and the naturalized herb Acetosella vulgaris. Revegetation from within bare areas largely occurred by herb species, while graminoids and shrub species predominately colonised bare ground by lateral expansion from the edges, eventually replacing the colonising herbs. At the 12 quadrats near Mt Kosciuszko, vegetation cover was almost complete in all years surveyed except 1968, which was at the end of a six year drought. Similar to the results from the transect study, the drought caused an increase in litter at both locations as graminoid cover declined. Initially herb cover increased, potentially as a result of decreased competition from the graminoids and a nutrient spike from decaying litter, but as the drought became more severe, herb cover also declined. Graminoid cover rapidly recovered after the drought, reaching pre-drought levels by 1978, and was at similar levels in 2001. Herb cover continued to decline after peaking in 1964. The photoquadrat study also documented the longevity and growth rates of several species indicating that many taxa may persist for several decades. It further provided insights into replacement patterns amongst life forms. In addition to assessing vegetation change following livestock grazing and drought at the long-term plots, recovery from tourism impacts was examined by comparing vegetation and soils on a closed walking track, with that of adjacent undisturbed tall alpine herbfield at a series of 22 paired quadrats. Fifteen years after the track was closed there was limited success in restoration. Over a quarter of the closed track was still bare ground with non-native species the dominant vegetation. Plant species composition differed and vegetation height, soil nutrients and soil moisture were lower on the track which had a higher compaction level than adjacent natural vegetation. The results presented in this thesis highlight that tall alpine herbfield is characterised by nearly entire vegetation cover which is dominated by graminoids, followed by herbs and shrubs in the absence of disturbance by livestock grazing, trampling or drought. The studies also showed that under quot;average" conditions, the relative cover of herbs and graminoids remained fairly stable even though there can be considerable cycling between them. Spatial variability in terms of taxa composition was high. The only common introduced species in unrehabilitated sites was Acetosella vulgaris, which was effective at colonising bare ground but was eventually replaced by other native species. However, in areas actively rehabilitated, such as on the closed track, non-native species introduced during revegetation efforts still persist with high cover 15 years after their introduction. Monitoring of vegetation change is also important at the landscape scale. This thesis provides a review of the potential use, the limitations and the benefits of aerial photography to examine vegetation change in the Kosciuszko alpine zone. Numerous aerial photography runs have been flown over the area since the 1930s for government agencies, industry and the military. Some of these records have been used to map vegetation communities and eroding areas at a point in time. Other studies compared different types and scales of photographs, highlighting in particular the benefits and potential of large scale colour aerial photography to map alpine vegetation. However, despite their potential to assess vegetation change over time, a temporal comparison of vegetation in the Kosciuszko alpine zone from aerial photographs has not been completed to this date. Historical photographs may not be easy to locate or access and difficulties with vegetation classification may restrict the practicality of using historical aerial photographs to assess vegetation change. Despite these issues, aerial photography may provide a very useful and efficient tool to assess changes over time when applied appropriately, even in alpine environments. The development of digital classification techniques, the application of statistical measures of error to both methodology and data, and the application of geographic information systems are likely to further improve the practicality of historical aerial photographs for the detection of vegetation change and assist in overcoming some of the limitations. The results presented in this thesis highlight the need for limiting disturbance, for ongoing rehabilitation of disturbed areas and for long-term monitoring in the Kosciuszko alpine zone. The results contribute to our understanding of how vegetation may change in the future and may be affected by new land use activities and climate change. This type of information, which otherwise would require the establishment of long-term studies and years of monitoring, can assist land managers of this and other important protected areas. The study highlights how the use and expansion of already existing datasets to gather ecological information can save considerable money and time, providing valuable data for current and emerging issues. Kosciuszko Gungartan Mt Mount Australia Australian Alps alpine zone vegetation dynamics vegetation change vegetation communities tall alpine herbfield plant plants herb herbs ecological disturbances anthropogenic disturbances livestock grazing tourist tourists tourism recovery disturbance climate drought ecology ecological monitoring rehabilitation
149	A Phytosociological Study of Glacier National Park, Montana, U.S.A., with Notes on the Syntaxonomy of Alpine Vegetation in Western North America / Pflanzensoziologische Untersuchungen im Glacier Nationalpark, Montana, USA mit Ergänzungen zur Klassifikation alpiner Vegetation im westlichen Nord-Amerika Damm, Christian 03 May 2001 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Alpine Vegetation Glacier National Park Klassifikation Rocky Mountains Alpine vegetation Glacier National Park classification Rocky Mountains 42.44 WA 000: Biologie WL 000: Biogeographie {Biologie}
150	Transferts des polluants organiques persistants de l'atmosphère aux milieux aquatiques de montagne / Transfers of persistent organic pollutants from the atmosphere to aquatic system in mountain environment Marçais, Johanna 16 February 2017 (has links) Les sources d’émissions de polluants organiques persistants (POP) dans l’atmosphère sont relativement bien connues. Une fois dans ce compartiment sous formes gazeuse et/ou particulaire, ces composés sont transportés à plus ou moins longue distance puis éliminés en fonction des conditions météorologiques par dépôts secs (aérosols) ou humides (pluie et neige). L’impact des POP est planétaire, tous les milieux de l’environnement sont touchés et les milieux aquatiques de montagne ne sont pas épargnés. Plusieurs études ont rapportées la présence de Polychlorobiphényles (PCB) et d’Hydrocarbures Aromatiques Polycycliques (HAP) sur des lacs d’altitude européens où l’atmosphère est l’unique source de pollution. A ce jour, très peu d’études ont été menées en milieux de montagne pour comprendre et identifier les mécanismes de transfert à l’interface entre l’air et l’eau. Ces travaux de thèse sont ainsi focalisés sur les échanges de POP à l’interface air-eau en milieu aquatique de montagne. Dans le but de définir le rôle de l’atmosphère sur ces milieux et de calculer des flux de POP, deux systèmes hydriques distincts ont été étudiés : un lac d’altitude (Lac de la Muzelle, Oisans) et une rivière alpine (Arc, vallée de la Maurienne). Deux familles de POP ont été ciblées pour leurs différentes propriétés physico-chimiques : les HAP et les PCB. Pour l’étude de ces milieux de montagne parfois difficile d’accès, une stratégie d’échantillonnage passive a été choisie. Les systèmes d’échantillonnage employé ont été améliorés, développés au laboratoire ou utilisés tel quel pour échantillonner distinctement toutes les formes de POP dans l’air (gaz, particules, dépôts secs et humides) et dans l’eau (phase dissoute et particulaire). Une comparaison des systèmes d’échantillonneurs atmosphériques passifs a été réalisée pour définir le plus fiable et représentatif. Ces études de transferts air-eau ont été conduites sur le lac d’altitude pendant deux périodes estivales (2014 et 2015) et un suivi de deux ans a été réalisé (2014 à 2016) sur la rivière alpine.Le rôle de l’atmosphère en période estivale a pu être ainsi défini sur le lac d’altitude et des flux d’échanges de polluants à l’interface ont pu être calculés. La rivière alpine étant un système hydrique dynamique plus complexe pour l’étude des transferts air-eau et la quantification de flux, un suivi spatio-temporel de la contamination a tout d’abord été réalisé le long de la rivière et une première approche de calcul de flux de polluants à l’interface a été appliquée. / Atmospheric sources of persistent organic pollutants (POPs) are relatively well known. Once in this compartment under both gas and particulate forms, these compounds are carried on more or less long range. Then, pollutants are eliminated by dry (aerosol) or wet (rain, snow) depositions according to meteorological conditions. The global planetary distribution of POPs affects all environments and mountain aquatic environments are not spared. Several studies on European high altitude mountain lakes have reported the presence of Polychlorinated Biphenyls (PCBs) and Polycyclic Aromatic Hydrocarbons (PAHs). In these remote areas, the atmospheric compartment is the unique source of pollution. Few studies were conducted in order to understand and identify transfer mechanisms at the air-water interface in mountain. So, this thesis focused on POP exchanges at the air-water interface. In order to characterize atmospheric influence on aquatic compartment and calculate pollutant fluxes, two separate water systems were studied: a high altitude lake (Muzelle lake, Oisans) and an alpine river (Arc, Maurienne valley). Two POP families were targeted for their different physicochemical properties: PAHs and PCBs.In these mountain environments with limited access and energy, passive sampling strategy was chosen. Samplers were improved, developed in the lab or used to distinctly collect all POP forms in the air (gas, particulate, dry and wet depositions) and water (dissolved, particulate). A comparison of different atmospheric passive samplers was conducted to define the most reliable and representative. The air-water transfer studies were realized on the high altitude lake over two summer periods (2014 and 2015) and over a two years monitoring (2014 to 2016) in the alpine river. So, the atmospheric role on the alpine lake in summer was defined and air-water flux exchanges were calculated. As the alpine river is a more complex water system for the air-water transfers study and quantification, in a first time a space-time contamination monitoring was conducted along the river and a first approach was applied to calculate pollutant fluxes at the interface. Transfert Interface air-eau Polychlorobiphényles (PCB) Lac d'altitude Rivière alpine Transfers Air-water interface Polycyclic aromatic hydrocarbons (PAHs) Polychlorinated biphenyls (PCBs) High altitude lake Alpine river 628.5

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