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  • Channel metamorphosis, floodplain disturbance, and vegetation development: Ain River, France
  • Ain ; Biodiversité ; Cours d'eau ; Crue ; Dynamique de la végétation ; Dynamique fluviale ; France ; Hydrologie fluviale ; Lit fluvial ; Phytosociologie ; Plaine d'inondation ; Rhône-Alpes ; Végétation
  • Ain ; Biodiversity ; Flood ; Floodplain ; Fluvial dynamics ; Fluvial hydrology ; France ; Phytosociology ; Rhône-Alpes ; River bed ; Stream ; Vegetation ; Vegetation dynamics
  • This paper describes and explains channel metamorphosis of the Ain River in east-central France and the effects of this metamorphosis on floodplain disturbance and vegetation development: relationship between channel dynamics and hydrology
  • , and floodplain vegetation mosaics.
  • Geomorphological controls on coastal vegetation at the Virginia Coast Reserve
  • Biodiversité ; Dynamique de la végétation ; Eau souterraine ; Ecosystème ; Etats-Unis ; Littoral ; Niveau marin ; Salinité ; Virginia ; Végétation
  • Biodiversity ; Coastal environment ; Ecosystem ; Groundwater ; Salinity ; Sea level ; United States of America ; Vegetation ; Vegetation dynamics ; Virginia
  • Bassin-versant ; Crue ; Dynamique de la végétation ; Erosion des sols ; Etats-Unis ; Feu ; Forêt ; Géomorphologie ; Hydrologie ; Ruissellement ; Virginia ; Végétation
  • Fire ; Flood ; Forest ; Geomorphology ; Hydrology ; Rill wash ; Soil erosion ; United States of America ; Vegetation ; Vegetation dynamics ; Virginia ; Watershed
  • , and to identify vegetation change in uplands and bottomlands. Results suggest that change to hillslope landforms has been minor since 1949, but have occured seemingly during flow events of 1952, 1955, and 1985. Change in areal extent of forest types
  • Asie ; Bilan sédimentaire ; Biogéographie ; Biomasse ; Dendrologie ; Dynamique de la végétation ; Erosion des sols ; Etats-Unis ; Feu ; Forêt ; Géochimie ; Himalaya ; Montagne ; Phytosociologie ; Propriétés du sol ; Risque naturel ; Rocky Mountains
  • ; Télédétection ; Végétation
  • ; Vegetation ; Vegetation dynamics
  • River stabilisation due to changing climate and vegetation during the late Quaternary in western Tasmania, Australia
  • Australie ; Berge ; Cours d'eau ; Datation C 14 ; Dynamique de la végétation ; Dynamique fluviale ; Forêt ; Géochronologie ; Lit fluvial ; Paléo-environnement ; Plaine d'inondation ; Quaternaire ; Stratigraphie ; Tardiglaciaire ; Tasmania
  • Australia ; C 14 dating ; Climatic variation ; Floodplain ; Fluvial dynamics ; Forest ; Geochronology ; Lateglacial ; Palaeo-environment ; Quaternary ; River bed ; Stratigraphy ; Stream ; Tasmania ; Vegetation dynamics
  • Berge ; Capacité de charge ; Cours d'eau ; Dynamique de la végétation ; Ecosystème ; Etats-Unis ; Forêt ; Géométrie hydraulique ; Lit fluvial ; Modèle ; Montagne ; Oregon ; Plaine d'inondation ; Profil longitudinal ; Réseau de drainage
  • Carrying capacity ; Channel geometry ; Drainage network ; Ecosystem ; Floodplain ; Forest ; Longitudinal section ; Model ; Mountain ; Oregon ; River bed ; Stream ; United States of America ; Vegetation dynamics
  • Modelling the links between vegetation and landforms
  • Changement global ; Couverture végétale ; Domaine méditerranéen ; Erosion des sols ; Evapotranspiration ; Microrelief ; Modèle ; Propriétés du sol ; Ruissellement ; Variation climatique ; Vitesse d'érosion ; Végétation
  • Climatic variation ; Erosion rate ; Evapotranspiration ; Global change ; Mediterranean area ; Microrelief ; Model ; Plant cover ; Rill wash ; Soil erosion ; Soil properties ; Vegetation
  • Vegetation is the most important intermediate through which climate and land use modify geomorphological processes and landforms. In this paper the AA. explore three types of model which attempt to simulate the links to uncultivated vegetation, all
  • sharing a common basis in hydrology. In all cases, the model leads to a unique stable vegetation cover, irrespective of the initial conditions, but it is recognised that there may be better model parameterisations.
  • Geomorphology, disturbance, and the soil and vegetation of two subtropical wet steepland watersheds of Puerto Rico
  • Bassin-versant ; Biomasse ; Forêt ; Mouvement de masse ; Nutriment ; Ouragan ; Pente de versant ; Porto Rico ; Propriétés du sol ; Variation spatiale ; Végétation ; Zone intertropicale
  • Biomass ; Forest ; Hurricane ; Mass movement ; Nutrient ; Puerto Rico ; Slope gradient ; Soil properties ; Spatial variation ; Tropical zone ; Vegetation ; Watershed
  • This paper quantifies the distribution of soil nutrients, natural and anthropogenic disturbances, and vegetation structure at the scale of patches that exist within a landscape of relatively uniform aspect, elevation, climate, and bedrock geology.
  • Woody vegetation and channel morphogenesis in low-gradient, gravel-bed streams in the Ozark Plateaus, Missouri and Arkansas
  • Arbre ; Arkansas ; Capacité de charge ; Crue ; Etats-Unis ; Fluviatile ; Géométrie hydraulique ; Lit fluvial ; Missouri ; Plaine d'inondation ; Végétation
  • Arkansas ; Carrying capacity ; Channel geometry ; Flood ; Floodplain ; Fluvial processes ; Missouri ; River bed ; Tree ; United States of America ; Vegetation
  • This paper presents the results of a study of relations between woody vegetation and channel morphogenesis in gravel-bed streams of the Ozark Plateaus. These results have implications for general models of channel morphogenesis in gravel-bed streams
  • Interactions between semi-natural vegetation and hydrogeomorphological processes
  • Bassin-versant ; Bruyère ; Conservation des sols ; Couverture végétale ; Ecosystème ; England ; Forêt ; Gestion des ressources ; Hydrologie ; Royaume-Uni ; Utilisation du sol ; Végétation
  • Ecosystem ; England ; Forest ; Heath ; Hydrology ; Land use ; Plant cover ; Resource management ; Soil conservation ; United Kingdom ; Vegetation ; Watershed
  • This paper reports on hydrogeomorphological research undertaken within a drainage basin, in the New Forest, which contains two types of semi-natural vegetation cover which are a diminishing resource within the UK: lowland heath and floodplain forest
  • . This research investigates interactions between vegetation and hydrogeomorphological processes, but also focuses more specfically on developing a fuller understanding of the hydrogeomorphological functioning of drainage basins under these two diminishing cover
  • Effects of vegetation change on interrill runoff and erosion, Walnut Gulch, southern Arizona
  • Arizona ; Bassin-versant ; Couvert végétal ; Erosion des sols ; Etats-Unis ; Formation arbustive ; Formation herbacée ; Ruissellement ; Variation spatiale ; Végétation
  • Arizona ; Grassland ; Plant canopy ; Rill wash ; Scrub ; Soil erosion ; Spatial variation ; United States of America ; Vegetation ; Watershed
  • Biogéographie ; Echelle ; Ecosystème ; Erosion des sols ; Etats-Unis ; Littoral ; North Carolina ; Paysage ; Plaine d'inondation ; Quaternaire ; Végétation
  • Biogeography ; Coastal environment ; Ecosystem ; Floodplain ; Landscape ; North Carolina ; Quaternary ; Scale ; Soil erosion ; United States of America ; Vegetation
  • theoretical perspectives on scale linkage between geomorphic and ecological (principally vegetation) processes and responses. Then, he will apply them to problems on the coastal plain of the southeastern United States.
  • Bilan sédimentaire ; Biogéographie ; Erosion des sols ; Etang ; Etats-Unis ; Milieu humide ; Montagne ; Montana ; Qualité de l'eau ; Versant ; Végétation
  • Biogeography ; Humid environment ; Montana ; Mountain ; Pond ; Sediment budget ; Slope ; Soil erosion ; United States of America ; Vegetation ; Water quality
  • Spatial patterns of hydrology, geomorphology, and vegetation o the floodplain of the Amazon River in Brazil from a remote sensing perspective
  • Amazonas rio ; Biodiversité ; Brésil ; Cours d'eau ; Drainage ; Géomorphologie ; Hydrologie ; LANDSAT ; Lit fluvial ; Milieu humide ; Plaine d'inondation ; Statistique ; Thematic Mapper ; Télédétection ; Variation spatiale ; Végétation
  • Amazonas River ; Biodiversity ; Brazil ; Drainage ; Floodplain ; Geomorphology ; Humid environment ; Hydrology ; LANDSAT ; Remote sensing ; River bed ; Spatial variation ; Statistics ; Stream ; Thematic Mapper ; Vegetation
  • Using semivariance statistics, the AA. analyze the spatial relationship between the hydrogeomorphology and the pattern of vegetation cover of the Amazon River floodplain in Brazil during high water. Classified Landsat images for three reaches
  • of the river that represent the geomorphology of thhe channel-floodplain system were analysed to show the upstream to downstream variation in the spatial heterogeneity of the floodplain environments. In addition to hydrogeomorphic inluence, vegetation
  • Mapping the response of riparian vegetation to possible flow reductions in the Snake River, Idaho
  • Berge ; Cartographie ; Cours d'eau ; Ecologie ; Ecoulement fluvial ; Etats-Unis ; Hydrologie fluviale ; Idaho ; Lit fluvial ; Système d'information géographique ; Végétation
  • Cartography ; Ecology ; Fluvial hydrology ; Geographical information system ; Idaho ; River bed ; Stream ; Stream flow ; United States of America ; Vegetation
  • This paper presents the results of the subproject to map portions of the riverbed which may be sensitive to vegetation expansion if flows are reduced in the future. One flow reduction scenario was developed and examined by combining field
  • measurements of riparian vegetation gradients and river cross-sections, digital elevation modeling, and a geographic information system.
  • Canada ; Ecosystème ; Formation arbustive ; Hydrologie lacustre ; Lac ; Niveau lacustre ; Québec ; Rivage ; Variabilité climatique ; Végétation
  • Canada ; Climatic variability ; Ecosystem ; Lake ; Lake hydrology ; Lake level ; Lake shore ; Quebec ; Scrub ; Vegetation
  • ; Végétation
  • Amazonas River ; America ; Biodiversity ; Brazil ; Discharge ; Ecosystem ; Fauna ; Floodplain ; Fluvial hydrology ; Fluvial processes ; Mississippi ; Model ; Papua New Guinea ; River bed ; Seasonal variability ; United States of America ; Vegetation