Skip Ribbon Commands
Skip to main content

Institute of Soil Landscape Research

Institute of Land Use Systems

Institute of Landscape Biogeochemistry

Institute of Landscape Systems Analysis

Institute of Landscape Hydrology

Institute of Socio-Economics

Suche
Breadcrumb Navigation

Project Details

Hauptinhalt der Seite
idTitel_deuTitel_engProjekt_StartProjekt_EndeProjektstatusProjektstatus_enZALF_InstituteZALF_Institute_enIdxiZALF_PersonenIdxpLabelDetailsHomepageStartjahrSuchfeldZielsetzung_deuZielsetzung_engZALF_Institute_htmlZALF_Istitute_ENG_htmlZALF_Personen_htmlProjektleiterProjekt_Leiter_htmlProgrammbereich_htmlProgrammbereich_eng_htmlIdx_ProgrambereichProjektpartner_htmlIdx_ProjektpartnerFoerderer_htmlSchlagworteProjekttraegerProjekttraeger_htmlProjektmitarbeiter_extern_htmlProjektstatus_SortProjektstatus_en_SortAnlagen
1379Coupled soil-plant water dynamics-Environmental drivers and species effectsCoupled soil-plant water dynamics-Environmental drivers and species effects01/03/2011 00:00:0031/08/2014 00:00:00abgeschlossencompletedInst. für LandschaftsbiogeochemieInst. of Landscape Biogeochemistryx6xEwald, Christine; Geßler, Arthur; Haberer, Kristinex568x1085x1275x<div class='ntm_LBG'>LBG</div> <a href="http://www.cosper.de/">http://www.cosper.de/</a><BR />2011 Coupled soil-plant water dynamics-Environmental drivers and species effects Coupled soil-plant water dynamics-Environmental drivers and species effects Inst. für Landschaftsbiogeochemie Ewald, Christine; Geßler, Arthur; Haberer, Kristine Drittmittel Inst. of Landscape Biogeochemistry completed abgeschlossen <div class="ExternalClass45727CD1-8BAB-4676-A0B6-BB52AACF6A8A"><ul><li>2014 Biodiversität und Landschaftsfunktionen - biotische und abiotische Interaktionen und Stoffdynamik über Skalenebenen</li></ul></div> <div class="ExternalClass1610110E-2702-4D9F-AECF-E2D3EC5A8FA6"><ul><li>ALU - Albert-Ludwigs-Universität Freiburg, Breisgau</li></ul></div> <div class="ExternalClass625DFA93-3660-4B1A-AFB1-993CD5EBDB33"></div> <div class="ExternalClass8DE723DE-3E85-4213-AEB1-D5D45B8541D6"><ul><li>DFG - Deutsche Forschungsgemeinschaft</li></ul></div> <div class="ExternalClassE462F6DE-BDAC-4CF4-A1B8-291A7DF4C44A"><ul><li>Professor Markus Weiler</li><li>Till Volkmann</li></ul></div> <div class="ExternalClass49B4FBFBC2AD4A03AA6ADBDC37FA0022">The predicted climate and land-use changes could have dramatic effects on the water balance of the soil-vegetation system in particular under drought conditions. However, information is scarce on temporal and spatial dynamics of soil water in the rooted soil horizons, the dynamics of plant water acquisition and on transpiration from plant leaves that will allow characterizing the effects of the predicted changes. The central aim of the planned project is to quantitatively characterise the interaction between plant water use – as affected by rooting patterns and physiology of different plant functional groups – and the hydrological water balance of an ecosystem. A main emphasis will be put on the effects of droughts and rewetting on this interaction. We will focus on the morphological and physiological parameters and on functional adaptations of plants to changes in soil water supply and stand specific proprieties, which drive water uptake capacity and actual water uptake. The effect of plants and vegetation on preferential flow paths, soil water storage, hydraulic redistribution and water infiltration capacity is in the second focus of this project. Until present short-term spatial and temporal dynamics of soil water movement and plant water uptake have never been characterised continuously in high temporal resolution. Such high-resolution approaches are, however, a prerequisite for understanding the water balance in ecosystems subjected to drought-rewetting transitions. As a consequence a methodological focus of thisproject is the further development and application of new innovative techniques that allow the continuous tracing of isotope signatures in soil water and transpiration.</div><div class="ExternalClass97FA8725-BBC6-4441-B899-54AC62C5F123"><ul><li>Inst. für Landschaftsbiogeochemie</li></ul></div><div class="ExternalClass4D672F79-4F70-40D8-BB4D-3CF5F6E1F505"><ul><li>Inst. of Landscape Biogeochemistry</li></ul></div><div class="ExternalClass1AECDDCA-10E8-48CB-9918-1EB553744B4D">Christine Ewald; Prof. Dr. Arthur Geßler; Dr. Kristine Haberer</div>Geßler, Arthur<div class="ExternalClassB8EDCEB0-1124-4AC5-A340-83D281CD5276"><a title="e-mail" target="_blank" href="mailto:Arthur.Gessler@zalf.de">Prof. Dr. Arthur Geßler</a></div><div class="ExternalClass45727CD1-8BAB-4676-A0B6-BB52AACF6A8A"><ul><li>2014 Biodiversität und Landschaftsfunktionen - biotische und abiotische Interaktionen und Stoffdynamik über Skalenebenen</li></ul></div> x236x<div class="ExternalClass1610110E-2702-4D9F-AECF-E2D3EC5A8FA6"><ul><li>ALU - Albert-Ludwigs-Universität Freiburg, Breisgau</li></ul></div>x1143x  DFG - Deutsche Forschungsgemeinschaft<div class="ExternalClass8DE723DE-3E85-4213-AEB1-D5D45B8541D6"><ul><li>DFG - Deutsche Forschungsgemeinschaft</li></ul></div><div class="ExternalClassE462F6DE-BDAC-4CF4-A1B8-291A7DF4C44A"><ul><li>Professor Markus Weiler</li><li>Till Volkmann</li></ul></div>33 
Fusszeile der Seite
YouTube
Twitter
Facebook
© Leibniz-Zentrum für Agrarlandschaftsforschung (ZALF) e. V. Müncheberg