Description: Das Projekt "Biogeochemical fluxes in South-Alpine Lakes: Linking nitrogen and methane dynamics in lacustrine redox-transition zones using a combined stable isotope and molecular approach" wird vom Umweltbundesamt gefördert und von Universität Basel, Umweltgeowissenschaften durchgeführt. Bioavailable nitrogen (N) from anthropogenic sources is an important driver of lacustrine eutrophication. However, N loading in lakes is partially mitigated by microbially mediated processes that take place in redox transition zones (RTZ) within the water column and in sediments. RTZ are also sites of methane (CH4) and nitrous oxide (N2O) production and consumption. As a result of anthropogenic activities, emissions of these greenhouse gases to the atmosphere have significantly increased over the past decades. Lake Lugano is an excellent model system for an anthropogenically impacted lake that represents a hot-spot of quantitative redox-driven transformations involving the green house gases CH4 and N2O, as well as other N species acting as important macro nutrients. Previous studies have revealed that this lake represents an important sink for fixed N and that the anoxic deep-waters and sediments contain high concentrations of CH4. Through the application of stable isotopic, molecular ecological and geochemical techniques, laboratory cultivation and (radio-) tracer studies, the project will try (i) to understand the metabolic pathway involved in N and CH4 elimination in Lake Lugano, (ii) to assess the metabolic rates, at which the respective elimination processes take place, as well as their variability in time and space, (iii) to constrain the isotope effects associated with specific N and CH4 transformations, and (iv) to provide information about the microorganisms involved in these transformations. Thereby, a particularly focus is put on reactions that have essentially been neglected in lacustrine studies thus far, namely the anarobic oxidation of ammonium (anammox) and the anaerobic oxidation of methane (AOM). The project will provide the first comprehensive characterization of early diagenetic reactions in Lake Lugano. Moreover, it may allow insights into novel modes of autotrophic life in lakes. Finally, quantitative estimates of N and CH4 elimination in both the water column and sedimentary RTZ of Lake Lugano will be a prerequisite for ecosystem-scale N and C budgets. Thus, the project will provide important information that is directly pertinent to the health of Lake Lugano in particular, and eutrophied south alpine lakes in general.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Ammonium ? Tierhaltungsanlage ? Ammoniak ? Eutrophierung ? Seen ? Basel ? Lugano ? Treibhausgasemission ? Anaerobe Bedingungen ? Geochemie ? Nährstoff ? Ökologie ? Seensediment ? Stickstoff ? Tracer ? Gewächshaus ? Brunnen ? Umweltchemie ? Lachgas ? Isotopentechnik ? Meereskunde ? Methan ? Wirkung ? Gasförmiger Stoff ? Belastung ? Anwendungstechnik ? Bewässerung ? Emission ? Isotop ? Konsum ? Limnologie ? Management ? Oxidation ? Standortwahl ? Studie ? Mikroorganismen ? Sediment ? Wasser ? Hochgebirge ? Wirkung ? Produktion ? Anthropogener Einfluss ? Atmosphäre ? Gesundheit ? Ökosystem ? Wasserhaushalt ? Treibhausgas ? LIMNISCH ? Verwertung ? Aufladung ? NEU ? BUDGET ? BEWERTEN ? ORTSFEST ? ERGEBNIS ? PFAD ? Entwicklungszone [Biosphärenreservat] ? PROJEKT ? SAEULE ? BIOGEOCHEMISCH ? SEDIMENTAER ? WICHTIG ? GEMISCHT ? SONSTIG ? SPEZIFISCH ? SUEDLICH ? aquatic biogeochemistry ? isotope geochemistry ? BESCHREIBUNG ? See [Binnengewässer] ? Art [Spezies] ? Konzentrat ? Stall ? VERARBEITEN ? VERBRAUCH ? Vermehrung ? LABORTECHNIK ?
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2008-12-01 - 2011-11-30
Accessed 1 times.