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Global change and biodiversity feedbacks as drivers of the carbon cycle in the plant soil system

Description: Das Projekt "Global change and biodiversity feedbacks as drivers of the carbon cycle in the plant soil system" wird vom Umweltbundesamt gefördert und von Universität Zürich, Geographisches Institut durchgeführt. Research aims - The aim of this project is to demonstrate whether increased biodiversity and net primary production lead to increased carbon storage in the ecosystem, especially in the largest carbon pool, the mineral soil, and thus reduces the release of greenhouse gases. Climate change (nitrogen deposition, summer droughts, vegetation fire) - We will analyse plant-soil feedbacks in laboratory experiments, using our newly build Multi Isotope labelling in Controlled Environment (MICE) facility, and in three of the field sites (tropical, temperate, boreal) using transplanted model mini-ecosystems. Global change includes many processes, and we focus on three processes, key to the terrestrial carbon cycle, i.e. increasing chronic atmospheric nitrogen deposition, widespread summer droughts, and more frequent wildfires, with yet unknown consequences for the carbon cycle. We will use the MICE facility to manipulate mini-ecosystems (plants and soil from the three field sites) and expose them to four climatic scenarios: todays equivalent climate (corresponding to the site), increased nitrogen deposition, drought and post-fire conditions (by pyrolising the plant biomass). The plant-soil system will be labelled with stable isotopes (13C, 15N) in order i) to investigate the changes in organic matter dynamics when climate changes are applied and ii) to produce highly labelled experimental material that could be traced in the field. We will transplant the manipulated mini-ecosystem, from the MICE facility to the three URPP GCB sites Siberia, Laegeren and Borneo (tropical, temperate, boreal). The mini-ecosystems will contain highly labelled material (13C and 15N in fresh biomass and charred biomass) in order to follow fluxes related to C losses from the soil (CO2 and organic matter dissolved in water), as well as processes involved in the stabilisation of soil C (microbial, physical and chemical mechanisms). Using a large number of replicates will allow us to follow the underlying processes of C stabilisation in soil and vegetation at a high spatial and temporal precision. Biodiversity experiment - We will use the MICE chambers to grow different species of trees and grasses labelled with 13C (and potentially 15N, 18O and 2H) under todays climatic conditions. Then we recombine the different species (1, 2, 4, 8 species) and transplant them to the temperate site at Laegeren. In the field we can follow the total carbon fluxes and the contributions from the isotopically labelled decomposing biomass, and the living biomass.

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SupportProgram

Origin: /Bund/UBA/UFORDAT

Tags: Spülsaum ? Bodenvegetation ? Linde ? Anorganischer Werkstoff ? Tierhaltungsanlage ? Baummarder ? Bleichlorid ? Süßgräser ? Lebensmittelzusatzstoff ? Produktkennzeichnung ? Vegetation ? Zierpflanze ? Saumgesellschaft ? Zürich ? Sibirien ? Baum ? Fischer-Tropsch-Verfahren ? Vegetationsbrand ? Skigebiet ? Stickstoff ? Blei ? Treibhausgasemission ? THM-Prozess ? Material ? Organisches Material ? Maus ? Schadstoffdeposition ? Sommer ? Szenario ? Dürre ? Brand ? Feststoff ? Staude ? Technosol ? Absetzbare Stoffe ? Mineralboden ? Gesamtkohlenstoff ? Isotopentechnik ? Gesamter organischer Kohlenstoff ? Laborversuch ? Phytomasse ? Chemikalien ? Ackerland ? Wasser ? Boden ? Ökosystemforschung ? Globale Veränderung ? Standortwahl ? Isotop ? Ökosystemmodell ? Tropengebiet ? Kohlenstoffkreislauf ? Bodenbiodiversität ? Wasserknappheit ? Versuchsanlage ? Biomasse ? Bodenverfestigung ? Feuerung ? Anlage ? Vegetationsgrenze ? Mehrfachnutzung ? Biosphäre ? Mineral ? Biodiversität ? Atmosphärischer Prozess ? Ökosystem ? Klimasystem ? Klimawandel ? Klimaszenario ? Vermehrung ? Saarberg-Hölter-Verfahren ? Flächensanierung ? Adsox-Verfahren ? Stall ? Bram-Verfahren ? Projektstudium ? Bricollare-Verfahren ?

License: cc-by-nc-nd/4.0

Language: Deutsch

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Time ranges: 2013-05-01 - 2017-02-28

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