Erfassung und Verwaltung von Dokumenten zu Deichbauwerken, integriert in das Cardo-GIS Inhalt: Stammdaten der Bauwerke, Dokumente, Geometrien verwendete Standards: PDF, DXF, DWG, doc, doxc, JPG, PNG, TIF, Shape, Viewer, WMS, Datenbankanbindung Formen: Applikation im Web-GIS (Auskunftssystem Cardo) Bemerkung: Funktionalitäten durch Zusatzmodule erweiterbar
Die Datensammlung enthält Literaturangaben etc., die für den Fachbereich Naturschutz von Bedeutung sind.
Führen des Geologischen Archivs, der Geologischen Landessammlung und der Fachinformationssysteme des Bodeninformationssystems MV.
Das Projekt "Aufkommen und Verwertung von Verpackungsabfällen in Deutschland im Jahr 2019" wird vom Umweltbundesamt gefördert und von GVM Gesellschaft für Verpackungsmarktforschung mbH durchgeführt. Nach der EU-Richtlinie 94/62/EG über Verpackungen und Verpackungsabfälle vom 20.12.1994 in Verbindung mit der Richtlinie 2018/852 vom 30. Mai 2018 sind die EU-Mitgliedstaaten verpflichtet, jährlich über Verbrauch und Verwertung von Verpackungen zu berichten. Der Bericht hat auf der Grundlage der Entscheidung der Kommission vom 22.03.2005 zur Festlegung der Tabellenformate (2005/270/EG), zuletzt geändert durch den Durchführungsbeschluss (EU) 2019/665 vom 17. April 2019, zu erfolgen. Die Studie bestimmt die in Deutschland in Verkehr gebrachte Menge an Verpackungen (Verpackungsverbrauch) für die Materialgruppen Glas, Kunststoff, Papier / Karton, Aluminium, Eisenmetalle, Holz und Sonstige. Zur Verbrauchsberechnung wurden neben der in Deutschland eingesetzten Menge von Verpackungen auch die gefüllten Exporte und die gefüllten Importe ermittelt. Zur Bestimmung der Verwertungsmengen und Verwertungswege wurden die vorliegenden Daten von Verbänden, der Entsorgungswirtschaft und der Umweltstatistik systematisch zusammengetragen und dokumentiert. Der Verpackungsverbrauch zur Entsorgung stieg 2019 im Vergleich zum Vorjahr um 0,2 % bzw. um 47 kt auf 18,91 Mio. Tonnen an. Insgesamt 18,33 Mio. Tonnen Verpackungsabfälle wurden 2019 verwertet, 13,53 Mio. Tonnen stofflich und 4,8 Mio. Tonnen energetisch. Darüber hinaus dokumentiert der Bericht auch die Verbrauchs- und Recyclingmengen nach der Berechnungsmethode des Durchführungsbeschlusses (EU) 2019/665, die für die Meldung an die Europäische Kommission maßgebend sind. Der Verpackungsverbrauch ändert sich im Gesamtergebnis nicht. Die Recyclingmenge reduziert sich im Vergleich zur bisherigen Berechnungsmethode um 1,4 Mio. Tonnen auf 12,1 Mio. Tonnen. Die Menge der energetisch verwerteten Verpackungen erhöht sich um 1,2 Mio. Tonnen auf 6 Mio. Tonnen.
Das Projekt "Identifying the Predominant Sources of Atmospheric Dust to the Antarctic using Peat Cores from Ombrotrophic Sphagnum Bogs in Patagonia" wird vom Umweltbundesamt gefördert und von Universität Heidelberg, Institut für Umwelt-Geochemie durchgeführt. Antarctic ice cores document considerable variation in the fluxes of atmospheric soil dust, volcanic ash particles, and trace metals, but the records are incomplete and the predominant sources of these aerosols are poorly characterised with respect to space and time. Ombrotrophic peat bogs are excellent archives of most atmospheric particles and a wide range of trace metals, and are abundant in Tasmania, New Zealand and Patagonia. The study proposed here will represent the first complete, long term (13.000 yr), high resolution reconstruction of atmospheric dust and trace metal deposition for the southern hemisphere. Conservative, lithogenic trace metals (Ti, Y, Zr, Hf, REE) will be used to quantify the changing rates of atmospheric soil dust deposition, and the ration of these elements to Sc will document changes in mineralogy and particle size. Lead and Sr isotope data will be used to identify changes in predominant dust source areas which will provide new insight into Holocene climate change in the southern hemisphere. Arsenic, Ag, Cd, Sb and Pb will be used to estimate anthropogenic contributions to the metal fluxes. In addition, trace elements supplied by volcanoes will be identified using changes in Au and Bi concentrations, and cosmogenic dust using Os and Ir. These new terrestrial records will complement the existing trace metal and dust records from Antarctica snow and ice archives, and fill in a number of important research gaps.
Das Projekt "Asessing the potential of various instruments for sutainable consumption practises and greening of the market (ASCEE)" wird vom Umweltbundesamt gefördert und von Institut für ökologische Wirtschaftsforschung (IÖW) GmbH durchgeführt. The main objectives are : - to identify, structure and assess instruments addressing and promoting sustainable consumption and greening of the market; - to identify and evaluate best practice examples; - to develop policy strategies for transferring best practices; - to carry out a workshop; - to finalise insights by preparing a guideline for policy makers; - to prepare a scientific report and a summary. After a prephase connected with an internal kick-off meeting, the first phase analyses policy instruments, measures and actions and the gained experiences in WP 2 ' Basic instrumental overview . The instrumental overview is intended to be of a broader nature to collect insights into existing, but also discussed, proposed and/or rejected tools which have lead or could lead to a greening of the markets by addressing supply and/or demand. We will concentrate on promising tools and actions. The gained and collected information will be assessed along certain criteria developed beforehand in WP 3 'Assessment . WP 4 'Best practises and market transformation patterns will bring together the most instructive findings and consider what could be learned from them. The key question behind that approach is to look for the patterns behind successful greening strategies. The second phase is dedicated to the potentials for transferring of the results and their dissemination. WP 5 'Extension and transfer strategies picks up the results of the preceding work. It considers the findings and prepares strategies for the transfer of promising approaches. Results and proposals will be documented and discussed at a one-day workshop (WP 6 'Workshop ) which will collect insights, opinions and experiences of a broader auditorium. The discussion and results of the workshop will be documented and will contribute to the update of the preliminary findings. WP 7 'Dissemination brings together all findings and insights. Here we will prepare guidelines, a report, including a summary. Prime Contractor: Institut für Ökologische Wirtschaftsforschung GgmbH; Berlin; Germany.
Das Projekt "Culture experiments on the gamma 13C values recorded in tests of benthic foraminifera from methane sources at high latitudes" wird vom Umweltbundesamt gefördert und von Stiftung Alfred-Wegener-Institut für Polar- und Meeresforschung e.V. in der Helmholtz-Gemeinschaft (AWI) durchgeführt. Since methane is a powerful greenhouse gas, significant releases of methane from instable submarine CH4 clathrates into the atmosphere have been hypothesized as a cause of past and possibly future climate changes (IPCC, 2007). The carbon isotope signature of benthic foraminifers, especially that of Fontbotia wuellerstorfi, has been considered a proxy to detect such clathrate dissociation induced climate changes. However, it has never been experimentally verified to what extent the foraminiferal ä13C signature reflects the release of methane. This is the goal of this project. The necessary experimental preconditions were successfully achieved during the current grant: (1) We established a unique 'high-pressure deep-sea cultivation laboratory' that allows culturing living benthic foraminifers in their original surrounding environment under in-situ (high-pressure) conditions using a newly developed autoclave system. (2) For the first time, this enabled both methane-related high-pressure cultivation experiments and successful reproduction of barophilic F. wuellerstorfi, one of the most important signal-carrier in palaeoceanography. Our future experiments are designed to (1) improve our understanding about the process of ä13C signal transfer from the methane source into the foraminiferal shell; (2) document to what extent the foraminiferal ä13C reflects the biological conversion from the CH4 source into the bottom water, which is measured by the ä13C of the dissolved inorganic carbon; and (3) examine the importance of the food source on the ä13C shell signature.
Das Projekt "Recrystallization regimes in an ice sheet - Towards a microstructure-based law of ice" wird vom Umweltbundesamt gefördert und von Universität Heidelberg, Interdisziplinäres Zentrum für Wissenschaftliches Rechnen durchgeführt. A detailed understanding of the dynamics of polar ice sheets is essential for an accurate climate reconstruction and for the prediction of sea-level fluctuations. Today, the required simulations of ice movement are based on general, empirical material properties of ice. A more accurate description of these properties has to be extracted from the ice micro-structure over the entire ice sheet. This project will provide the necessary data-set for a quantitative parameterization of the entire grain boundary network based on microscopic image sequence analysis. Owning to the complexity and scope of the image data, specific and efficient methods of digital image processing (DIP) have to be developed and verified. Initially, the DIP methodology will be applied to the entire length of the East Antarctic EDML ice core, where the main emphasis will be the data reduction with regard to geometric parameters of grains and the evolution of grain boundaries. One goal is to document the extend to which the depth profiles of these micro-structural parameters are coupled with profiles of tracers and climate proxies in ice cores. The variability of subgrain boundaries with regard to the change of dislocation density represents a first indications of the depth dependence of ice viscosity and thus the rate of deformation. In this project, we will perform a semi-quantitative analysis of this aspect of micro-structural influence on ice dynamics.
Das Projekt "Earthquakes, tsunamis and landslides in the Corinth rift, Greece A multidisciplinary approach for measuring, modelling, and predicting their triggering mode and their effects (3HAZ-CORINTH)" wird vom Umweltbundesamt gefördert und von Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum durchgeführt. The project will contribute to better measure, model, and predict the processes leading to earthquakes, andslides, submarine slides, and tsunamis, and their effect in terms of hazard. The target area is the rift of Corinth,well known for its exceptional activity with respect to these hazards. This work will focus on the western end of the rift, close to the cities of Patras and Aigion, where the risk is highest. We will study the short term seismic hazard with methods involving seismology, geodesy, geophysics, and geochemistry. In addition to strong motion analysis and prediction, transient processes (seismic swarms, 'silent' earthquakes, fluid transients) will be studied, for a better modelling fault mechanics and earthquake preparation processes. In addition to the existing monitoring arrays and data base, specific new instrumentation will be built. Near-real time alarms systems for significant earthquakes will be developed and tested. For the long term seismic hazard, the seismic potential of active faults will be assessed on land and offshore. For submarine slope failures, places of past and future potential slumps will be mapped, and complemented by marine sediment coring and dating on selected places. Scenarios of slope failure and of coseismic displacement of the sea floor will be the inputs for tsunami modelling. The latter will be implemented using the existing high resolution bathymetry for modelling of the wave run up. Early warning alarms will be developed and tested. For landslides, the main objective is to monitor and model the perturbation of the sliding of a well documented active landslide, in response to ground shaking from local earthquakes. Continuous GPS, seismic and tilt monitoring, and repeated advanced geodesy, will quantify sliding rates and constrain first order models. The feasibility of alarm systems will be studied. Prime Contractor: Institut de Physique du Globe de Paris, Sismogénèse, Department de Sismologie; Paris; France.
Das Projekt "Support to Member States in improving waste management based on assessment of Member States' performance" wird vom Umweltbundesamt gefördert und von BIPRO Beratungsgesellschaft für integrierte Problemlösungen GmbH durchgeführt. Implementation of EU waste legislation shows large differences in the EU Member States especially with regard to municipal waste management. Major discrepancies prevail particularly in the implementation and application of the Waste Framework Directive and proper transposition of EU requirements into national legislation. The waste management performance of all EU Member States was subject to screening to identify those Member States with the largest implementation gaps, in particular in relation to municipal waste management. For screening the main elements and legal requirements stemming from EU waste directives (mainly from the Waste Framework and the Landfill Directive) were considered for the design of suitable criteria. These core elements comprise the practical implementation of the waste management hierarchy, application of economic and legal instruments to move up the waste hierarchy, sufficiency of treatment infrastructure and quality of waste management planning, the fulfilment of targets and infringement procedures. These elements were assessed by 18 criteria for each Member State taking into account information sources at EU, national or regional level. Latest available statistical data and data of former years for comparison of development within a country were extracted from the EUROSTAT database. References comprised reports published by the European Commission, the European Topic Centre on Sustainable Consumption and Production, internal working documents of EUROSTAT and the EU Commission as well as national/regional Waste Management Plans. Where available also Waste Prevention Programmes were screened. The screening results confirmed the assumption of large differences within the EU-27 with regard to treatment of municipal waste, compliance with the WFD and Landfill Directives and application of legal or economic instruments as well as planning quality. For each criterion two, one or zero points could be achieved, leading to maximum points of 42 for all criteria. The methodology includes weighting of results for three selected criteria related to the application of the treatment options recycling, energy recovery and disposal of municipal waste.