Das Projekt "Contribution of ectomycorrhizal fungi to the formation and mobilization of soil organic matter (SOM)" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Helmholtz-Zentrum für Umweltforschung GmbH - UFZ, Department Umweltmikrobiologie.In forest ecosystems ectomycorrhizal fungi are responsible for the mobilization of mineral nutrients from soil organic matter (SOM) resulting in a marked increase in productivity of their symbiotic host plants. In return the fungi obtain a significant amount of photosynthetic products from these plants, allowing the formation of an extensive hyphal system. These hyphae constitute a major part of soil biomass and, ultimately, a major source for SOM formation. While plant-fungal nutrient exchange has been analyzed extensively, this proposal is focused on the fungal contribution to SOM formation and on the processes leading to the acquisition of nutrients by the fungi. These two processes will be studied separately and in a quantitative way using isotopic labeling in soil bioreactors. Analysis of the fate of 13C labeled fungal material (Laccaria bicolor) in soil bioreactors will tell how fast and to what extent the various fractions of hyphal biomass are transformed into non-living SOM. As potential molecular or structural markers for SOM formation from fungal hyphae we will analyze characteristic remnants of fungal hyphae in SOM using scanning electron microscopy, DNAfragments using a PCR approach for the fungal rRNA internal transcribed spacerregions and biochemical markers like fatty acids and ergosterol. The impact of ectomycorrhizal mycelia supported by Pinus sylvestris plantlets on 13C- and 15N-labeled SOM and on microbial biomass will be analyzed in separate soil bioreactor experiments.
Das Projekt "Quantification of small-scale physicochemical properties of intact macropore surfaces in structured soils" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Leibniz-Zentrum für Agrarlandschaftsforschung (ZALF) e.V., Institut für Bodenlandschaftsforschung.In structured soils, the interaction of percolating water and reactive solutes with the soil matrix is mostly restricted to the surfaces of preferential flow paths. Flow paths, i.e., macropores, are formed by worm burrows, decayed root channels, cracks, and inter-aggregate spaces. While biopores are covered by earthworm casts and mucilage or by root residues, aggregates and cracks are often coated by soil organic matter (SOM), oxides, and clay minerals especially in the clay illuviation horizons of Luvisols. The SOM as well as the clay mineral composition and concentration strongly determine the wettability and sorption capacity of the coatings and thus control water and solute movement as well as the mass exchange between the preferential flow paths and the soil matrix. The objective of this proposal is the quantitative description of the small-scale distribution of physicochemical properties of intact structural surfaces and flow path surfaces and of their distribution in the soil volume. Samples of Bt horizons of Luvisols from Loess will be compared with those from glacial till. At intact structural surfaces prepared from soil clods, the spatial distribution (mm-scale) of SOM and clay mineral composition will be characterized with DRIFT (Diffuse reflectance infrared Fourier transform) spectroscopy using a self-developed mapping technique. For samples manually separated from coated surfaces and biopore walls, the contents of organic carbon (Corg) and the cation exchange capacity (CEC) will be analyzed and related to the intensities of specific signals in DRIFT spectra using Partial Least Square Regression (PLSR) analysis. The signal intensities of the DRIFT mapping spectra will be used to quantify the spatial distribution of Corg and CEC at these structural surfaces. The DRIFT mapping data will also be used for qualitatively characterizing the small scale distribution of the recalcitrance, humification, and microbial activity of the SOM from structural surfaces. The clay mineral composition of defined surface regions will be characterized by combining DRIFT spectroscopic with X-ray diffractometric analysis of manually separated samples. Subsequently, the spatial distribution of the clay mineral composition at structural surfaces will be determined from the intensities of clay mineral-specific signals in the DRIFT mapping spectra and exemplarily compared to scanning electron microscopic and infrared microscopic analysis of thin sections and thin polished micro-sections. The three-dimensional spatial distribution of the total structural surfaces in the volume of the Bt horizons will be quantified using X-ray computed tomography (CT) analysis of soil cores. The active preferential flow paths will be visualized and quantified by field tracer experiments. These CT and tracer data will be used to transfer the properties of the structural surfaces characterized by DRIFT mapping onto the active preferential flow paths in the Bt horizons.
Das Projekt "Methodologies for dealing with uncertainties in landscape planning and related modeling; Uncertainty of predicted hydro-biogeochemical fluxes and trace gas emissions on the landscape scale under climate and land use change" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Universität Gießen, Institut für Landschaftsökologie und Ressourcenmanagement, Professur für Landschafts-, Wasser- und Stoffhaushalt.Water, carbon and nitrogen are key elements in all ecosystem turnover processes and they are related to a variety of environmental problems, including eutrophication, greenhouse gas emissions or carbon sequestration. An in-depth knowledge of the interaction of water, carbon and nitrogen on the landscape scale is required to improve land use and management while at the same time mitigating environmental impact. This is even more important under the light of future climate and land use changes.In the frame of the proposal 'Uncertainty of predicted hydro-biogeochemical fluxes and trace gas emissions on the landscape scale under climate and land use change' we advocate the development of fully coupled, process-oriented models that explicitly simulate the dynamic interaction of water, carbon and nitrogen turnover processes on the landscape scale. We will use the Catchment Modelling Framework CMF, a modular toolbox to implement and test hypothesis of hydrologic behaviour and couple this to the biogeochemical LandscapeDNDC model, a process-based dynamic model for the simulation of greenhouse gas emissions from soils and their associated turnover processes.Due to the intrinsic complexity of the models in use, the predictive uncertainty of the coupled models is unknown. This predictive (global) uncertainty is composed of stochastic and structural components. Stochastic uncertainty results from errors in parameter estimation, poorly known initial states of the model, mismatching boundary conditions or inaccuracies in model input and validation data. Structural uncertainty is related to the flawed or simplified description of natural processes in a model.The objective of this proposal is therefore to quantify the global uncertainty of the coupled hydro-biogeochemical models and investigate the uncertainty chain from parameter uncertainty over forcing data uncertainty up the structural model uncertainty be setting up different combinations of CMF and LandscapeDNDC. A comprehensive work program has been developed structured in 4 work packages, that consist of (1) model set up, calibration and uncertainty assessment on site scale followed by (2) an application and uncertainty assessment of the coupled model structures on regional scale, (3) global change scenario analyses and finally (4) evaluating model results in an ensemble fashion.Last but not least, a further motivation of this proposal is to provide project results in a manner that they support planning and decision taking under uncertainty, as this proposal is part of the package proposal on 'Methodologies for dealing with uncertainties in landscape planning and related modelling'.
Das Projekt "Uncertainty and the bioeconomics of near-natural silviculture" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Technische Universität München, Wissenschaftszentrum Weihenstephan für Ernährung, Landnutzung und Umwelt, Fachgebiet für Waldinventur und nachhaltige Nutzung.Research in 'silviculture' and 'forest economics' very often takes place largely independent from each other. While silviculture predominantly focuses on ecological aspects, forest eco-nomics is sometimes very theoretic. The applied bioeconomic models often lack biological realism. Investigating mixed forests this proposal tries to improve bioeconomic modelling and optimisation under uncertainty. The hypothesis is tested whether or not bioeconomic model-ling of interacting tree species and risk integration would implicitly lead to close-to-nature forestry. In a first part, economic consequences of interdependent tree species mixed at the stand level are modelled. This part is based on published literature, an improved model of timber quality and existing data on salvage harvests. A model of survival over age is then to be developed for mixed stands. A second section then builds upon data generated in part one and concentrates on the simultaneous optimisation of species proportions and harvest-ing ages. It starts with a mean-variance optimisation as a reference solution. The obtained results are compared with data from alternative approaches as stochastic dominance, down-side risk and information-gap robustness.
Das Projekt "(Vorschlag für ein 'Berliner Protokoll' zur Rahmenkonvention zum Klimaschutz)" wird/wurde gefördert durch: Climate Network Europe (CNE). Es wird/wurde ausgeführt durch: Öko-Institut. Institut für angewandte Ökologie e.V..
Das Projekt "Forschergruppe (FOR) 1525: INUIT - Ice Nuclei research UnIT, Central Coordination and Administration of the INUIT research unit" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Johann Wolfgang Goethe-Universität Frankfurt am Main, Institut für Atmosphäre und Umwelt.Funds for the central coordination of the research unit 'INUIT' (Ice Nucleation research UnIT) are requested within this proposal. The project serves the coordination and administration of the research unit as well as the promotion of cooperation and communication among the individual scientific projects of the unit. An annual status seminar is organized and conducted within this project. The funds for measures to promote gender equality are managed and measures for training of young researchers are coordinated. Within the project special sessions at international conferences or publication of special issues are initiated. A central data base to store and provide the data from all the various field and laboratory activities to all members of the research unit is maintained within the project. A comprehensive inter-comparison of the results of the ice nucleating properties of the common set of test aerosols studied by the various methods is conducted. An INUIT web page is set up and maintained. To support the INUIT spokesperson in conducting these tasks, staffing for a halftime position of a scientific administrator is applied for.
Das Projekt "Technical Support for the revision of ecolabel and green public procurement GPP Criteria Lot 1" wird/wurde ausgeführt durch: Öko-Institut. Institut für angewandte Ökologie e.V..The project's objective is to support JRC IPTS in revising the existing Ecolabel and GPP criteria of personal computers and notebook computers. The priority in this revision process is to first analyse which of the existing criteria and the supporting evidence are still valid and to identify the additional research that should be carried out. Potential additional criteria can be developed, if identified as necessary in the course of the study. The study starts with a definition of the scope; the necessarity for new or revised Ecolabel and GPP criteria is based on a market analysis and a technical analysis with research on the most significant environmental impacts during the whole life cycle of the products. This also includes the application of a consistent methodological approach regarding the hazardous substances criteria. Based on these findings, the improvement potential will be derived resulting in a proposal for a revised Ecolabel and GPP criteria set for desktop and notebook computers which will be discussed in a European stakeholder process.
Das Projekt "Änderungen der Cant Speicherung und Änderungen in den Bildungsraten für Zwischen- Tiefen- und Bodenwasser im globalen Ozean, 1982 - 2015" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Universität Hamburg, Fachbereich Erdsystemwissenschaften, Institut für Meereskunde.Die erste Antragsphase war auf die Bildungsraten und die Speicherung von anthropogenem Kohlenstoff (Cant) im Antarktischen Zwischenwasser (AAIW) fokussiert. Mit Hilfe von Freon (CFC) Daten konnten wir eine signifikante Reduktion der AAIW Bildungsrate von den 1990ern zu den 2000ern Jahren feststellen. Dies führte zu einer geringeren Steigerung der Cant Speicherung als vom atmosphärischen Cant Anstieg und einem unveränderten Ozean zu erwarten war. Um den Schwierigkeiten mit den Randbedingungen auszuweichen (Pazifisches AAIW strömt über die Drake Passage auch in den Atlantik und weiter in den Indischen Ozean) planen wir nun ein globales Vorgehen um in allen Ozeanen die Bildungsraten und Cant Speicherungen in den Zwischen- Tiefen- und Bodenwassermassen zu berechnen. Darüber hinaus wird der Zeitraum bis 2015 ausgedehnt, und wo immer die Datenlage es zulässt, Pentaden- anstatt Dekadenmittelwerte gebildet. Verwendet wird der aktualisierte GlODAPv2 Datensatz und eigene Daten.Die Berechnungen aus den Beobachtungen werden mit den Ergebnissen eines wirbelauflösenden globalen Ozeanmodells (1/10 Grad) kombiniert. Das POP Modell (Los Alamos Laboratory Parallel Ocean Program) mit eines horizontalen Auflösung von 0.1 Grad und 42 Tiefenstufen wird für die letzten 20 Jahre mit einem realistischen Forcing angetrieben und enthält außerdem die Freone als Tracer. Neben dem Vergleich mit einem klimatologischen Antrieb wird das Modell zur Weiterentwicklung der Tracer-Methode verwendet wir z.B. die Unsicherheit von zu wenig Datenpunkten und der Extrpolationsroutine auf die Bildungsraten / Cant Speicherungen. Ein weiterer wichtiger Punkt wird die Bestimmung der TTDs aus Lagrange Trajektorien und der Vergleich mit TTDs aus Tracermessungen sein, sowie die Untersuchung der Rolle der Wirbel, der Vermischung durch Wirbel und der vertikalen Vermischung.
Das Projekt "Technical Support for the revision of ecolabel and green public procurement GPP Criteria Lot 4" wird/wurde ausgeführt durch: Öko-Institut. Institut für angewandte Ökologie e.V..The project's objective is to support JRC IPTS in revising the existing Ecolabel and GPP criteria of televisions. The priority in this revision process is to first analyse which of the existing criteria and the supporting evidence are still valid and to identify the additional research that should be carried out. Potential additional criteria can be developed, if identified as necessary in the course of the study. The study starts with a definition of the scope; the necessarity for new or revised Ecolabel and GPP criteria is based on a market analysis and a technical analysis with research on the most significant environmental impacts during the whole life cycle of the products. This also includes the application of a consistent methodological approach regarding the hazardous substances criteria. Based on these findings, the improvement potential will be derived resulting in a proposal for a revised Ecolabel and GPP criteria set for televisions which will be discussed in a European stakeholder process.
Das Projekt "Design and analysis of unreplicated plant breeding trials" wird/wurde gefördert durch: Deutsche Forschungsgemeinschaft. Es wird/wurde ausgeführt durch: Universität Hohenheim, Institut für Kulturpflanzenwissenschaften, Fachgebiet Biostatistik (340c).Early generation plant breeding trials are often laid out according to unreplicated designs. Replicated checks may be used for error control, for example in augmented designs based on an incomplete block design for checks which are augmented with unreplicated entries. Traditional augmented designs require considerable resources to be spent on genotypes that are not themselves of interest. Therefore, it has been suggested to replace checks with partially replicated entries, leading to so-called prep designs. In the present proposal we suggest combining both ideas to develop what we call augmented prep designs. A non-trivial design problem arises when trials are to be performed at multiple locations. The main challenge then is how to augment the blocks so as to balance the number of pairwise concurrences. This task can be tackled in different ways based on the use (-arrays which are well-known as the basis for (-designs in fully replicated experiments. Furthermore, we also explore the refinement of designs when analysis by spatial models is envisioned. Robustness of the designs to the presence of genotype-environment interaction is also investigated.
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