aquifer and a valley mire in the Massif Central France Duranel
aquifer and a valley mire in the Massif Central France Duranel
12 jan. 2021 aquifer and a valley mire in the Massif Central France ... Duranel
aquifer and a valley mire in the Massif Central France Duranel
There are two main types of peatlands – bogs (mires) and fens: Hydrology and Hydrological Modelling of Acidic Mires in Central France.
cal conditions of fen mires and fen meadows that are highly valued in nature conservation due on hydrologic conditions reflecting the central role of.
2 avr. 2013 Hydrology and hydrological modelling of acidic mires in Central France. London University College London
Re-instating the hydrological balance of the mire . central pillar of the EU's nature conservation policy. ... mires in France (Dupieux 1998).
6 It is recommended that `mire' should embrace both wetlands on peat and related communities on mineral soils that `bog' (unqualified) should encompass both.
15 déc. 2018 France. Rapport d'installation des équipements ... Hydrology and hydrological modelling of acidic mires in central France (PhD thesis).
Hydrological modelling of acidic valley mires in granitic uplands using MIKE SHE and HYLUC: application to water balance estimation and impact assessment of catchment afforestation
[1] Duranel (2015) Hydrology and hydrological modelling of acidic mires in central France PhD thesis UCL [2] Feydel (2003) La dynamique spatio-temporelle des landes
Sphagnum birch woods acidic fens and transition mires The mire’s catchment is dominated by semi-natural beech (Fagus sylvatica) oak (Quercus robur) and chestnut (Castanea sativa) woodlands with some permanent acidic grassland and 10 heathland patches scattered across the site
Modelling the hydrological interactions between a ?ssured granite aquifer and a valley mire in the Massif Central France Arnaud Duranel12 Julian R Thompson1 Helene Burningham1 Philippe Durepaire3 Stéphane Garambois4 Robert Wyns5 and Hervé Cubizolle2 1UCL Department of Geography University College London London WC1E 6BT United
[4] Duranel (2015) Hydrology and hydrological modelling of acidic mires in central France PhD thesis UCL Conceptual hydrogeological model of stratiform hard-rock aquifers[1] View of the
Integrated hydrological mo dels able to represent groundwater flow in fractured media are still scarce (Brunner and Simmons 2012) and the hydrodynamic properties of the 15 fissured zone are extremely difficult to characterise at high resolution (Singhal and Gupta 2010)
The Abstract and Introduction have been recast to focus more explicitly on the central issues related to the hydrology of the type of wetland considered in our study 5 Methods The “Hydrometeorological monitoring” section has been moved forward to improve the manuscript’s readability
Modelling the hydrological impacts of catchment afforestation on a headwater peatland in central France Geophysical Research AbstractsVol 19 EGU2017-10351-2 2017EGU General Assembly 2017 Author(s) 2017 CC Attribution 3 0 License Modelling the hydrological impacts of catchment afforestation on aheadwater peatland in central France
Hydrology of an acidic valley mire in a granitic headwater catchment of the French Massif Central Arnaud Duranel (12) Julian R Thompson (2) Helene Burningham (2) Hervé Cubizolle (1) and Philippe Durepaire (3) (1) Univ Lyon CNRS EVS-ISTHME UMR 5600 UJM-Saint-Etienne Saint-Etienne France
Overview of Hydrology with Hydrological Models and Modeling Amitkumar B Ranit1 Dr P V Durge2 Mrs Sangita A Ranit3 1Dept of Civil Engineering PRMCEMBadnera 2Dept of Civil EngineeringG H Raisoni College of Engg & ManagementAmravti Abstract --The growing pressure on the world‘s fresh water
12 mires for the hydrology study •Aapa mire distribution is controlled by climate and local hydrological conditions •Mire hydrology is difficult to measure directly since mires seldom discharge via single outlets •We thus modelledthe runoff from aapa mires based on temperature and precipitation data •Years 1962 –2099 •‘CPI
The groundwater contributions estimated through both hydrological modelling and isotopic analysis are compared with plant and bryophyte communities in order to identify the potential of ecological indicators for assessing groundwater dependence within these ecologically important habitats