Description: Das Projekt "Carbon, water and nutrient dynamics in vascular plant- vs. Sphagnum-dominated bog ecosystems in southern Patagonia" wird vom Umweltbundesamt gefördert und von Universität Münster, Mathematisch-Naturwissenschaftliche Fakultät, Fachbereich 14 - Geowissenschaften durchgeführt. In bog ecosystems, vegetation controls key processes such as the retention of carbon, water and nutrients. In northern hemispherical bogs, a shift from Sphagnum- to vascular plant-dominated vegetation is often traced back to Climate Change and increased anthropogenic nitrogen deposition and coincides with substantially reduced capacities in carbon, water and nutrient retention. In southern Patagonia, bogs dominated by Sphagnum and vascular plants coexist since millennia under similar environmental settings. Thus, South Patagonian bogs may serve as ideal examples for the long-term effect of vascular plant invasion on carbon, water and nutrient balances of bog ecosystems. The contemporary balances of carbon and water of both a bog dominated by Sphagnum and vascular plants are determined by CO2- H2O and CH4 flux measurements and an estimation of lateral water losses as well as losses via dissolved organic and inorganic carbon compounds. The high time resolution of simultaneous eddy covariance measurements of CO2 and H2O in both bog types and the strong interaction between climatic variables and the physiology of bog plants allow for direct comparisons of carbon and water fluxes during cold, warm, dry, wet, cloudy or sunny periods. By the combination with leaf-scale measurements of gas exchange and fluorescence, plant-physiological controls of photosynthesis and transpiration can be identified. Long-term peat accumulation rates will be determined by carbon density and age-depth profiles including a characterization of peat humification characteristics. A reciprocal transplantation experiment with incorporated shading, liming and labeled N addition treatments is conducted to explore driving factors affecting competition between Sphagnum and vascular plants as well as the interactions between CO2-, CH4-, and water fluxes and decisive plant functional traits affecting key processes for carbon sequestration and nutrient cycling. Decomposition rates and driving below ground processes are analyzed with a litter bag field experiment and an incubation experiment in the laboratory.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Münster ? Fluoreszenz ? Hochmoor ? Kohlenstoffverbindung ? Nährstoffhaushalt ? Pflanzenphysiologie ? Vegetation ? Staugewässer ? Torfmoos ? Kohlenstoff ? Langzeitwirkung ? Moor ? Nährstoff ? Physiologie ? Stickstoff ? Transpiration ? Brunnen ? Kohlenstoffbilanz ? Gelöster organischer Kohlenstoff ? Aufbereitungstechnik ? Bodenkunde ? Kalkung ? Kohlendioxid ? Wasseraufbereitungsanlage ? Nährstoffbilanz ? Photosynthese ? Schadstoffdeposition ? Kohlenstoffsenke ? Siedlungsabfall ? Torf ? Warmwasser ? Wasserbilanz ? Wirkung ? Methan ? Nährstoffkreislauf ? Gasaustausch ? Geographie ? Bewässerung ? Wasseraufbereitung ? Bilanz ? Pflanze ? Wasser ? Verwitterung ? Lebensalter ? Schaden ? Wirkung ? Messung ? Anreicherung ? Erdoberfläche ? Ökosystem ? Forschungseinrichtung ? Freilandversuch ? Umwelt ? Klima ? Klimawandel ? Anthropogener Einfluss ? CCS-Technologie ? SUEDLICH ? VERGLEICH ? DICHTE ? NOERDLICH ? EXPERIMENT ? BESCHREIBUNG ? GELOEST ? ZEITRAEUME ? Bepflanzung ? STARK ? BEISPIEL ? KAELTE ? Bilanz [Betriebswirtschaft] ? KONTROLLE ? UNTER ? ABSCHAETZUNG ? CO2-Speicherung [CCS] ? VERARBEITEN ? DAUER ? LEISTUNGSFAEHIGKEIT ? Vermehrung ? MISCHUNG ?
Region: Nordrhein-Westfalen
Bounding box: 6.76339° .. 6.76339° x 51.21895° .. 51.21895°
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2013-01-01 - 2024-11-29
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