Caracterização da caatinga e comportamento ingestivo de caprinos / Characterization of the caatinga and ingestive behavior of goats

Oliveira, Fábio Luiz de

30 July 2018

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The aim of this work was to evaluate the influence of different seasons on the ingestive behavior, on the botanical composition of the diet of goats grazing in the caatinga and on the availability and quality of forage of the caatinga. Four castrated male goats were used, with a mean weight of 30.2 kg and mean age of 20 months. The experiment had a duration of 12 months, comprising two rainy seasons and one dry season, and the treatments consisted of the three seasons (the two rainy seasons were treated separately) with 3 repetitions per season. Each animal was always accompanied by the same observer. The observed behaviors were feeding, idleness, rumination, displacement, social interaction and water intake. Forage collections were performed at 30 points in the area, considering a maximum collection height of 1.5m. All the forage collected and classified in the different strata (herbaceous, woody and litter), after the analysis was performed to know the bromatological composition of these. Non-parametric tests of Kruskal-Wallis (5%) and Nemenyi (5%) were performed in order to identify differences in the occurrence of behaviors between each season of the year. There was no significant difference (P≥0.05) between rumination, displacement and others (sum of social interaction and water intake) in the different seasons. However, a significant difference was observed in the occurrence of feeding and idleness (P = 0.0015 and P = 0.0001, respectively). In the dry season, a higher feeding occurrence and less occurrence of idleness occurred, contrary to what occurred in the rainy season/18 where there was greater occurrence of idleness and less feeding. The woody stratum presented the best bromatological composition, however the stratum was less present, and the herbaceous stratum was more available during the experimental period. The species whose consumption was recorded were: pinhão (jatropha molissima), velande (Croton heliotropiifolius), catingueira (Poincianella pyramidalis), marmeleiro (Croton blanchetianus), pereiro (Aspidosperma pyrifolium), macambira (Bromelia laciniosa), umburana (Commiphora leptophloeos) maniçoba (Manihot glaziovii), besides the herbaceous stratum, litter and cactaceae, the latter consisting of clusters of species of the same habit of growth. Most of the food in the rainy season/17 consisted of the herbaceous stratum (67.47%), in the dry season consisted of litter (56.12%) and in the rainy season/18 consisted of macambira (61.13%). The seasons influenced the pattern of behavior, the choice of food and the availability and quality of forage found in the caatinga. / O objetivo deste trabalho foi avaliar a influência de diferentes estações no comportamento ingestivo, na composição botânica da dieta de caprinos pastejando na caatinga e na disponibilidade e qualidade de forragem da caatinga. Foram utilizados 4 caprinos machos castrados sem raça definida, com peso médio de 30,2 Kg e idade média de 20 meses. O experimento teve um período de duração de 12 meses, englobando duas estações chuvosas e uma seca, sendo que os tratamentos consistiram nas 3 estações (as duas estações chuvosas foram tratadas de forma separada) com 3 repetições por estação. Cada animal foi sempre acompanhado pelo mesmo observador. Os comportamentos observados foram alimentação, ócio, ruminação, deslocamento, interação social e ingestão de água. Coletas de forragem foram realizadas em 30 pontos na área, considerando uma altura máxima de coleta de 1,5m. Toda a forragem coletada e classificada nos diferentes estratos (herbáceo, lenhoso e liteira), após foi realizada a análise para se conhecer a composição bromatológica destes. Foram realizados os testes não paramétricos de Kruskal-Wallis (5%) e Nemenyi (5%) com o intuito de identificar diferenças na ocorrência dos comportamentos entre cada estação do ano. Não foi observada diferença significativa (P≥0,05) entre a ruminação, deslocamento e outros (soma da interação social e ingestão de água) nas diferentes estações. Contudo, observou-se diferença significativa na ocorrência de alimentação e ócio (P=0,0015 e P=0,0001, respectivamente) sendo que na estação seca se observou maior ocorrência de alimentação e menor ocorrência de ócio, ao contrário do que ocorreu na estação chuvosa/18 onde houve maior ocorrência de ócio e menor alimentação. O estrato lenhoso apresentou a melhor composição bromatológica, contudo foi o estrato menos presente, estando o estrato herbáceo em maior disponibilidade durante o período experimental. As espécies cujo consumo foi registrado foram: pinhão (jatropha molissima), velande (Croton heliotropiifolius), catingueira (Poincianella pyramidalis), marmeleiro (Croton blanchetianus), pereiro (Aspidosperma pyrifolium), macambira (Bromelia laciniosa), umburana (Commiphora leptophloeos), maniçoba (Manihot glaziovii), além do estrato herbáceo, liteira e cactáceas, consistindo estas últimas em conjuntos de espécies de mesmo hábito de crescimento. A maior parte do alimento na estação chuvosa/17 consistiu no estrato herbáceo (67,47%), na estação seca consistiu na liteira (56,12%) e na estação chuvosa/18 consistiu na macambira (61,13%). As estações influenciaram o padrão de comportamento, na escolha dos alimentos e na disponibilidade e qualidade da forragem encontrada na caatinga. / São Cristóvão, SE

Comportamento de animais

Alimentação e rações

Caprinos

Forragem

Caatinga

Etologia

Preferência alimentar

Semiárido

Serrapilheira

Ethology

Food preference

Semi-arid climate

CIENCIAS AGRARIAS::ZOOTECNIA

Etude de la recharge artificielle des nappes en zone semi-aride : application au bassin du Souss-Maroc / Study of artificial recharge in semiarid : application of Morocco Souss- Basin

Bouragba, Latifa

02 February 2011

La plaine du Souss est délimitée au nord par le Haut-Atlas, au sud par l’Anti-Atlas et à l’estpar le massif cristallin de Siroua. Les principales formations géologiques sont des marnocalcaireset conglomérats assez perméables, les calcaires du Turonien qui leur sont sousjacentset le lit fossile de l’oued Souss composé d’alluvions sablo-graveleuses trèsperméables.La nappe du Souss est la plus importante du sud du Maroc, elle est très exploitée par unsecteur agricole exportateur, la surexploitation de la nappe s’est traduite par une baissecontinue des niveaux. Depuis 1970, les prélèvements dépassent de loin les ressourcesrenouvelables de la nappe (déficit : 185 Mm3 en 1976, 358 Mm3 en 1998, 228 Mm3 en 2003).Le barrage d’Aoulouz est principalement destiné à la recharge artificielle de la nappe par deslâchers d’eaux stockées pendant les périodes pluvieuses. En zone semi-aride, une estimationprécise de la recharge est souvent délicate, la variabilité spatio-temporelle de la recharge étantgénéralement forte et les processus variés.Ce travail a permis de mieux caractériser l’impact de la recharge sur la nappe et d’évaluer letemps de séjour et le renouvellement des eaux souterraines.L’évolution de la piézométrie à la suite des lâchers d’eau à partir du barrage Aoulouz montredes remontées locales du niveau piézométrique sur la haute plaine, environ 85% des eauxlâchées à partir du barrage d’Aoulouz s’infiltrent 80 km entre Aoulouz et Taroudant.Toutefois, le niveau général de la nappe continue de baisser.Le faciès géochimique est principalement bicarbonaté calcique (dissolution des carbonates), etpar endroits sulfaté calcique (évaporites au pied du Haut-Atlas). Les eaux de surface ont unfaciès bicarbonaté calcique et magnésien acquis lors de leur circulation sur des calcaires et desdolomies.[...] / The Souss valley is bounded to the North by the High Atlas, to the South by the Anti-Atlasand to the East by the Siroua crystalline massif. The main geological formations arecalcareous marls of the Plio-Quaternary, the Turonian limestones that underlie them, and thefossil bed of River Souss formed by sands, sandstones and gravels from high permeabilityalluvium.The Souss aquifer is the most significant aquifer in southern Morocco, highly exploited by anagricultural exporting activity. Groundwater overexploitation induced a decreases ofpiezometric heads. Since 1970, water demand far exceeds renewable groundwater resources(balance defecit: 185 Mm3 in 1976, 358 Mm3 in 1998, and 228 Mm3 in 2003).The mean role of the Aoulouz dam is the artificial recharge of the Souss plain by release ofwater stored during rainy periods in the plain.In semi-arid areas, estimating recharge is often difficult, the spatial and temporal variabilitiesof recharge are generally high, and processes are varied.This work has enabled to characterize the impact of artificial recharge and to estimate therenewal of water in the aquifer.Water releases from Aoulouz dam has permitted an increase of the piezometric level on thehigh plain, about 85% of the water released are unfiltered in the first 80 Km between Aoulouzand Taroudant cities. However, the general water level decline goes on.The geochemical facies is mainly calcium bicarbonate type (dissolution of limestone), andlocally calcium sulphate type (evaporites of the High Atlas). Surface waters are a calcium andmagnesium bicarbonate types, acquired during their flow through limestones and dolomitesoutcrops.[...]

Recharge artificielle

Climat semi-aride

Souss amont

Eaux souterraines

Hydrogéochimie

Isotopes stables

Radiocarbone

Artificial recharge

Semi-arid climate

Upstream Souss

Groundwater

Hydrogeochemistry

Stable isotopes

Radiocarbon

577.6

Impact of Carbon Sinks on Urban Heat Island Effects : Assessment Using Satellite Data in Water Scarce Region of the Thesis

Macauley, Nadine

January 2020

Urbanization modifies the thermal characteristics of the land and makes way for a succession of transformations in the urban environmental system. This phenomenon, known as Urban Heat Island (UHI), is characterized by elevated temperatures in urban areas that negatively impact on the quality of life and environment in urban areas including, increased emissions of Green House Gases (GHGs) and rising energy consumption. These impacts add to global climate change and thus, mitigating UHI is essential to mitigating global climate change. One GHG, Carbon Dioxide (CO2), accounts for about half of the Earth’s anthropogenic GHG emissions. Terrestrial ecosystems can act as Carbon sinks (C sinks), i.e. natural vegetation reservoirs that absorb more C than they release. Thus, C sinks play an essential and critical function in lowering CO2. Furthermore, providing appropriate C sinks at both the building and urban scales can decrease UHI and contribute to reduction in energy consumption. This study used Landsat 8 imagery of the site, Al Bayt Stadium in Qatar, to investigate the effects of surface UHI by computing the Land Surface Temperature (LST) difference of the site---pre- and post-construction, as well as examine the correlation between natural vegetation abundance and temperature in ten locations within the site’s vicinity. Results show that minimum, maximum and mean LST of the case study area (2014 vs. 2020) decreased 2.80 oC, 5.5 oC and 2.3 oC, respectively, as well as a decreasing trend in the LST as a function of increasing C Sinks. These results demonstrate the importance of introducing C sinks to lower LST and mitigate UHI. Mitigating UHI also has a direct effect on Energy Consumption Balance (ECB). This equilibrium is achieved not only through the introduction of C sinks, but balancing C sinks with high albedo materials and natural ventilation.  Thus, this study also investigated the site’s various design aspects (e.g. cooling technology, structure and surface albedo materials, landscaping) and found that Al Bayt Stadium’s design successfully incorporates strategies to reduce energy consumption at both the urban (macro) and building (micro) scales.

Urban Heat Island

Carbon Sinks

Qatar

Satellite Remote Sensing

Al Bayt Stadium

Energy Systems

Energy Use

Sustainability

LST

Hot Arid Climate

Energy Systems

Energisystem

Model transportu látek v nesaturované zóně ve vertisolech v semiaridním klimatu / Model of transport in vadose zone in vertisols under semiarid climate.

Weiss, Tomáš

January 2015

Vertisols cover a hydrologically very significant area of semi-arid regions, and thus understanding of water flow and solute accumulation is very relevant to agricultural activity and water resources management. Previous works suggest a conceptual model of desiccation-crack-induced salinization where salinization of sediment in deep section of the vadose zone (up to 4 m) is induced by subsurface evaporation due to convective air flow in desiccation cracks. This thesis presents a conceptual model of water flow and solute transport in vertisols, and its numerical implementation. The model uses a single-porosity material but unconventionally prescribes a boundary condition representing a deep crack in soil and uses the unsaturated hydraulic conductivity as one of the fitting parameters. The numerical model is bound to one location close to a dairy farm waste pond, but the application of the suggested conceptual model could be possibly extended to all semi-arid regions with vertisols. Simulations were conducted using several modelling approaches with an ultimate goal of fitting the simulation results to the controlling variables measured in the field: water content, and chloride salinity of pore water. The development of the model was engineered in numerous steps; all computed as forward solutions by...

Urban heat Island mitigation strategies in an arid climate. In outdoor thermal comfort reacheable / Réduction des ilots de chaleur urbains sous climat aride. Le confort extérieur est-il possible

Ridha, Suaad

28 April 2017

De nombreuses études au cours des dernières décennies ont porté sur l'effet l’îlot de chaleur urbain (ICU). Les efforts initiaux visant à comprendre les facteurs qui influent sur l’ICU ont contribué à la mise en place de solutions et de stratégies d'atténuation adaptées. Les stratégies d'atténuation comprennent généralement l'augmentation de l'albédo urbain (réflectivité au rayonnement solaire) et l'évapotranspiration. Les augmentations d'albedo sont obtenues grâce à des technologies de toiture et de pavage ayant un albédo élevé. Une augmentation de l'évapotranspiration est obtenue par une combinaison de la diminution de la fraction de surfaces imperméables et la plantation de végétation dans les zones urbaines. Le confort thermique extérieur est défini à partir d’indices prenant en compte différents paramètres physiques et traduit la perception et la satisfaction des piétons. Ce confort est très difficile à obtenir en climat chaud et aride. Par conséquent, le travail présenté dans ce document met l'accent sur les méthodes appropriées pour réduire l’ICU et ainsi améliorer le confort thermique en plein air des piétons. Jusqu’à présent, peu de recherches ont été menées sur le confort thermique extérieur dans un climat chaud et aride. Les études sur l'atténuation de l'ICU et le confort thermique extérieur sont pratiquement inexistantes pour la ville de Bagdad. Bagdad a un tissu urbain complexe avec des constructions modernes, des maisons traditionnelles et des éléments caractéristiques du patrimoine local. Le climat en été est chaud, et les mois d'été sont considérés comme la plus longue saison avec près de 7 mois de l'année. Dans un premier temps, cette étude se concentre sur l'étude des stratégies d'atténuation à envisager afin d’évaluer comment le confort des piétons est affecté par les choix de conception des constructions, en comparant un quartier traditionnel à un quartier moderne. L’étude envisage ensuite la façon dont la végétation et les ombrages contribuent à réduire l'effet de l'ICU et à améliorer le confort thermique extérieur. Quatre scénarios différents sont élaborés pour évaluer le rôle d’éléments végétaux tels que les arbres, l'herbe et les différents modèles d'ombrage. L'évaluation a été effectuée le jour le plus chaud de l'été, la température radiante moyenne, l'humidité spécifique, la température de l'air et les distributions de la vitesse du vent ont été analysées à l'aide du logiciel ENVI-met. Le confort thermique est ensuite évalué à l'aide des indices thermiques de la température équivalente physiologique PET et du PMV étendu aux ambiances extérieures. En outre, une proposition de solution est abordée afin d’étudier son impact sur le confort thermique pour la journée la plus chaude (situation extrême) et une journée typique d’été. Les résultats ont révélé une amélioration du confort thermique dans la journée typique d’été. L'étude montre comment les facteurs urbains tels que le rapport d'aspect, la couverture végétale, les ombres et la géométrie du quartier sont des éléments cruciaux que les urbanistes et les municipalités doivent prendre en compte, en particulier pour les nouveaux aménagements urbains dans un climat chaud et aride. Une proposition d’aménagement global pour atténuer les ICU dans le cas d’un nouveau quartier sous climat aride, est détaillée en fin de mémoire. / Numerous studies over the past several decades focused on the effect of the Urban Heat Island. Initial efforts on understanding the factors affecting UHI contributed to proceed the appropriate solutions and mitigation strategies. Mitigation strategies comprise increase both urban albedo (reflectivity to solar radiation), and evapotranspiration. Albedo increases are obtained through high albedo roofing and paving technologies. An increase in evapotranspiration is achieved through a combination of decreasing the fraction of impervious surfaces and planting vegetation in urban areas. The outdoor thermal comfort is influenced by the perception and satisfaction of the pedestrians, especially in hot and arid climates. Consequently, this work focuses on the appropriate methods for reducing the Urban Heat Island and thus to enhance the pedestrians outdoor thermal comfort. However, there is limited research conducted on the outdoor thermal comfort in hot and arid climate. The studies on the mitigation the Urban Heat Island and the outdoor thermal comfort are almost non-existent for Baghdad city. Baghdad has a complex urban fabric with modern design constructions buildings, traditional and heritage houses. The climate in summer is hot, and summer months are considered the longest season with nearly 7 months of the year. This study focuses on investigating possible mitigation strategies to ensure how pedestrian comfort is affected by the constructions design choices comparing a traditional district to a modern one, and on how vegetation and shading patterns contribute to reducing the effect of UHI and improving the outdoor thermal comfort. Four different scenarios are designed to assess the role of vegetation elements such as trees, grass, and different shading patterns. The evaluation was performed on the hottest day in summer, the mean radiant temperature, specific humidity, air temperature, and wind speed distributions have been analyzed using ENVI-met software. Thermal comfort is assessed using the thermal indices the Physiological Equivalent Temperature PET and the Predicted Mean Vote PMV. Also, a proposal model is designed to evaluate the thermal comfort on the hottest day and the typical day in summer. The results revealed an improvement on thermal comfort in the typical day in summer. The study shows how the urban factors such as the aspect ratio, vegetation cover, shadings, and geometry of the canyon are crucial elements that urban planners and municipalities have to take into account, especially for new urban developments in hot, arid climate.

Îlot de chaleur urbain (ICU)

Albédo

Végétation

Climat chaud et aride

ENVI-met

PMV

UHI

Mitigation Strategies

Arid climate

ENVI-met

Thermal comfort

PMV

PET

624

624.18

Évolution géomorphologique quaternaire de la Haute Vallée de l'Elqui : répartition spatio-temporelle des formes, modelés sédimentaires et interprétation paléoenvironnementale : cordillère de l'Elqui (Chili semi-ardie, Norte-Chico) / Quaternary geomorphological evolution of the high Elqui cordillera

Houbart, Anthony

21 November 2014

Le Norte-Chico constitue une zone tampon ayant enregistrée les fluctuations climatiques quaternaires. La fraîcheur des modelés et des formes présents dans la haute cordillère de l’Elqui, va nous permettre de tenter d’expliquer le calendrier de mise en place des éléments du relief. Les indices de terrain nous permettent de mettre en évidence un enchaînement de processus faisant intervenir la notion de relais et de zones tampons dans le transit sédimentaire. Les crises morphogéniques à l’origine des formations de versant et de fond de vallée actuellement visibles résultent d’une réponse plus ou moins directe de l’orogène Andin aux épisodes climatiques ; par conséquent, les résultats obtenus sont confrontés aux résultats d’autres études et dans des sites proches ou non de notre lieu d’étude afin d’apporter des exemples et des arguments aux hypothèses actuelles sur l’évolution des conditions climatiques quaternaires du Norte-Chico. La complexité de la mise en place des éléments du relief nécessite en premier lieu une explication des différentes phases orogéniques ainsi que des évolutions morphoclimatiques ayant abouti à la mise en place des conditions actuelles. Ensuite, la méthodologie nécessaire au travail de terrain et à l’obtention de résultats cohérents est définie et expliquée. Une dernière partie est consacrée à la synthèse de l’enchaînement de mise en place des formations de fond de vallée ; les résultats de cette étude sont également replacés dans un débat scientifique plus large permettant d’appréhender les potentialités apportées par la géomorphologie dans l’étude des paléoenvironnements quaternaires dans le Norte-Chico comme à l’échelle planétaire. / Norte Chico is a buffer zone having registered Quaternary climatic fluctuations. The preservation of landforms and relief present in the Elqui cordillera, make it a rich geomorphological study area, which may provide answers to many of the assumptions Quaternary calendar climate of the region. Freshness and modeled forms present in the high Andes of Elqui, coupled with the presence of datable organic matter, will allow us to to explain the timing of implementation of the elements of relief. Field indices surveys allow us to highlight a series of processes involving the notion of relay and buffer zones in the sediment transport. Morphogenic crises originally training slope and valley floor currently visible result of a more or less direct answer of the Andean orogen to climatic events, so the results are compared with the results of other studies and in sites close or not our place of study to provide examples and arguments to current hypotheses on the evolution of the Quaternary climatic Norte Chico and multiscale way. The complexity of the implementation of the relief units, requires firstly an explanation of the different orogenic phases and developments morphoclimatic leading to the gradual development of current conditions. Second, the methodology necessary fieldwork and consistent results is defined and explained. A final section presents the synthesis of the series of training implementation valley bottom; the results of this study are also viewed in a broader scientific debate to apprehend the potential provided by the geomorphology in the Quaternary paleoenvironmental study of the Norte Chico as globally.

Norte-Chico

Climat semi-aride

Géomorphologie

Formes

Modelés

Quaternaire

Transit sédimentaire

Crises morphogéniques

Paléoenvironnements

Chili

Norte-Chico

Semi-arid climate

Geomorphology

Landforms

Quaternary

Sediment transport

Morphogenic crises

Paleoenvironments

Chile

Caractérisation des processus de transferts et d’interactions entre les compartiments hydrologiques, hydrogéologiques et cryosphériques d’un bassin versant andin semi-aride soumis à une forte variabilité climatique (Vallée de l’Elqui – Chili) / Characterization of water transfers and interactions processes between hydrologic, hydrogeologic and cryospheric compartments of an Andean, semi-arid watershed, affected by a strong climatic variability (Elqui Valley – Chile)

Pourrier, Jonathan

15 December 2014

Le nord du Chili est soumis à un contexte climatique aride à semi-aride présentant une variabilité saisonnière et inter-annuelle forte. Dans cette région les zones de haute altitude soutiennent les parties plus basses des bassins versants, mais la ressource en eau reste malgré tout limitée. Afin d'améliorer les méthodes de gestion de l'eau dans ces bassins versants, il est important de préciser le rôle des zones de haute altitude dans le soutien des parties basses, mais aussi de caractériser les modalités de transfert et d'interaction entre les compartiments constitutifs de l'hydrosystème. Ce travail porte sur la caractérisation du fonctionnement hydrologique du bassin versant de l'Elqui depuis la tête de bassin, située au cœur de la cordillère des Andes, jusqu'aux vallées de la zone inférieure situées entre 500 et 2000 mètres d'altitude. En tête de bassin, les processus d'interaction entre les compartiments cryosphériques, hydrologiques et hydrogéologiques, et leurs impacts sur le transfert des masses d'eau vers l'aval de la zone d'étude sont caractérisés. Le comportement hydrologique des sous bassins versant partiellement ou non‑englacés est également étudié. Dans la zone inférieure du bassin, l'étude porte principalement sur les processus d'interactions surface-souterrain en contexte semi‑aride et sur les impacts des forçages climatiques et anthropiques sur ces derniers. Cette étude s'appuie sur plus de 40 ans de données hydro-météorologiques disponibles sur la zone inférieure du bassin, complétés par des mesures hydrologiques sur la zone supérieure (> 2000 mètres d'altitude) et des prélèvements chimiques (majeurs et traces) et isotopiques (²D, 18O) sur la totalité de la zone d'étude, réalisés entre 2011 et 2013.Ces travaux ont montré que le modèle conceptuel de fonctionnement du bassin versant de l'Elqui généralement accepté était incomplet. Dans la zone supérieure, l'étude d'un bassin versant englacé a permis de montrer que le rôle de la cryosphère dépasse la fonction de production d'eau, avec certains compartiments stockant temporairement de l'eau en période humide et la libérant en période sèche. Ce processus permet d'amortir la variabilité temporelle des précipitations et du taux de fonte en altitude. Les analyses physico-chimiques réalisées dans le bassin versant ont également permis d'identifier des compartiments aquifères ignorés jusqu'à maintenant, comme les compartiments volcanique et plutonique. En améliorant les connaissances sur les processus d'interactions entre compartiments cryosphériques, hydrologiques et hydrogéologiques, les résultats de ce travail ont apporté des précisions sur le fonctionnement hydrologique de la zone de haute altitude. Cela a permis l'estimation des impacts potentiels de la variabilité climatique sur ces processus d'interactions et leurs conséquences sur la disponibilité et la qualité de la ressource. Dans la zone inférieure, la caractérisation des interactions surface-souterrain a montré qu'il existe un fort potentiel d'interaction entre le compartiment hydrologique et le compartiment alluvial, mais également entre le compartiment alluvial et le socle plutonique. L'étude des données hydrologiques et physico-chimiques a permis de caractériser le type d'échanges se déroulant entre les compartiments. Dans certains secteurs le processus dominant est la recharge du compartiment alluvial par le compartiment hydrologique, tandis que pour d'autres il existe une alternance entre période de drainage du compartiment alluvial par le compartiment hydrologique et période de recharge du compartiment alluvial. La réponse de ces processus face aux impacts des forçages climatiques et anthropiques contraindra la disponibilité et la qualité de la ressource dans les années à venir. Ainsi, les résultats apportés par ce travail permettront certainement de mieux anticiper les modifications futures du fonctionnement hydrologique des bassins versant montagneux en contexte semi-arides. / The north Chile is affected by an arid to semi-arid climate, associated with a strong seasonal to inter-annual variability. In this region, while mountainous areas are supporting low areas, the availability of water resources remains limited. In order to improve the water management in these basins, it is necessary to precise how the high areas support the low areas, and to characterize water transfers and interaction processes between the constitutive compartments of the hydrosystem. This work concern the characterization of the hydrodynamic behavior of the Elqui watershed from the headwaters, in the Andes, to the valleys, ranging between 500 and 2000 m.a.s.l.In the headwaters, the interactions processes between cryospheric and hydrologic compartments and their impact on water transfers to the low areas are characterized. The behavior of unglacierized or partially glacierized watershed is also studied. In the low area of the watershed, the study mainly considers groundwater-surface water interactions under semi-arid context and the impact of the climatic variability on these processes. This study is based on more than 40 years of hydro-meteorological data available in the lower zone of the basin, completed by hydrological measurements in the upper zone (> 2000 m.a.s.l.) and chemical (majors and traces elements) and isotopic samples (²D, 18O) over the whole study area realized between 2011 and 2013.This work demonstrated that the conceptual model of the Elqui basin hydrological behavior, generally accepted, was incomplete. In the high area (> 2000 m.a.s.l.), the study of a glacierized watershed show that the function of the cryosphere overpass the water production with some compartments storing water during humid periods and draining their water content during dry periods. This process buffers the temporal variability of precipitations and melting rates in the high area. Physico-chemical analysis, allows to identify some ignored aquifer compartments, as the volcanic and plutonic compartments. The results of this study improve the knowledge about interactions processes between cryospheric, hydrologic and hydrogeologic compartments, which precise the hydrological functioning of the high area. The interpretation of the hydrological behavior of the high altitude area allows to better understand the way that it support the low area, and the way that climate variability may affects it.In the low area, results show that the groundwater-surface water interaction potential is good between alluvial and hydrological compartments, but also between the plutonic and the alluvial compartments. The study of hydro-meteorological and physico-chemical data allowed to characterize the type of exchanges that take place between groundwater and surface water. In some sectors the main process is the recharge of the alluvial compartment by the hydrological compartment, while in other sectors the processes show a seasonal variability with periods of alluvial compartment recharge and periods of hydrological compartment support. The answer of these processes face to climatic and anthropic forcing will constrain the evolution of the availability and quality of the water resources in the Elqui basin. Finally, the results of this study will certainly allow to better anticipate the future modifications of the semi-arid mountainous watershed hydrological functioning.

Interactions cryosphère-Hydrosphère

Interactions surface-Souterrain

Bassin versant de montagne

Traceurs naturels et artificiels

Climat semi aride

Variabilité climatique

Cryosphere-Hydrosphere interactions

Groundwater- surface water interactions

Mountainous watershed

Natural and artificial tracers

Semi-Arid climate

Climatic variability