Das Projekt "How is the evolution of stratospheric ozone affected by climate change, and how strong is the feedback? (SHARP-OFC)" wird vom Umweltbundesamt gefördert und von Universität Bremen, Institut für Umweltphysik durchgeführt. One major goal of this project is to analyse updated observational trace gas data together with stateof- the art models (CTMs and CCMs) in order to obtain a better understanding of the interaction between ozone and climate change and the underlying dynamical and chemical processes. The extended satellite, balloon and aircraft observations combined with improved model calculations (CTM and CCM) are used to further reduce the uncertainties in the bromine budget, in particular the contribution from VSLS (very short lived substances) and to further elucidate on the role of iodine in the stratosphere. Furthermore detailed studies on the long-term evolution (trends and variability) of observed stratospheric trace gases with foci on profiles of O3, NO2 and aerosols retrieved from SCIAMACHY are proposed. Future evolution of stratospheric ozone will be investigated using updated EMAC CCM model runs, some of them in combination with an interactive atmosphere-ocean feedback. In addition to issues on the climate feedback on future ozone, particular emphasis will be given to the increasing role of N2O and GHG emissions.
Das Projekt "The role of turgor in rain-cracking of sweet cherry fruit" wird vom Umweltbundesamt gefördert und von Leibniz Universität Hannover, Institut für Biologische Produktionssysteme, Fachgebiet Obstbau durchgeführt. Rain-cracking limits the production of many soft and fleshy fruit including sweet cherries world wide. Cracking is thought to result from increased water uptake through surface and pedicel. Water uptake increases fruit volume, and hence, turgor of cells (Pcell) and the pressure inside the fruit (Pfruit) and subjects the skin to tangential stress and hence, strain. When the strain exceeds the limits of extensibility the fruit cracks. This hypothesis is referred to as the Pfruit driven strain cracking. Based on this hypothesis cracking is related to two independent groups of factors: (1) water transport characteristics and (2) the intrinsic cracking susceptibility of the fruit defined as the amount of cracking per unit water uptake. The intrinsic cracking susceptibility thus reflects the mechanical constitution of the fruit. Most studies focussed on water transport through the fruit surface (factors 1), but only little information is available on the mechanical constitution (i.e., Pfruit and Pcell, tensile properties such as fracture strain, fracture pressure and modulus of elasticity of the exocarp; factors 2). The few published estimates of Pfruit in sweet cherry are all obtained indirectly (calculated from fruit water potential and osmotic potentials of juice extracts) and unrealistically high. They exceed those measured by pressure probe techniques in mature grape berry by several orders of magnitude. The objective of the proposed project is to test the hypothesis of the Pfruit driven strain cracking. Initially we will focus on establishing systems of widely differing intrinsic cracking susceptibility by varying species (sweet and sour cherry, Ribes and Vaccinium berries, plum, tomato), genotype (within sweet cherry), stage of development and temperature. These systems will then be used for testing the hypothesis of Pfruit driven strain cracking. We will quantify Pfruit und Pcell by pressure probe techniques and compression tests and the mechanical properties of the exocarp using biaxial tensile tests. When the presence of high Pfruit and Pcell is confirmed by direct measurements, subsequent studies will focus on the mode of failure of the exocarp (fracture along vs. across cell walls) and the relationship between failure thresholds and morphometric characteristics of the exocarp. However, when Pfruit und Pcell are low, the hypothesis of Pfruit driven strain cracking must be rejected and the mechanistic basis for low pressures (presence of apoplastic solutes) clarified on a temporal (in the course of development) and a spatial scale (exocarp vs. mesocarp). We focus on sweet cherry, because detailed information on this species and experience in extending the short harvest period is available. Where appropriate, other cracking susceptible species (sour cherry, plum, Vaccinium, Ribes, tomato) will be included to further extend the experimental period and to maximize the range in intrinsic cracking susceptibility.
Das Projekt "ICCE2008" wird vom Umweltbundesamt gefördert und von Bundesanstalt für Wasserbau durchgeführt. Die 31st International Conference on Coastal Engineering ICCE2008 findet vom 31. August bis 5. September 2008 in Hamburg mit ca. 650 Teilnehmern statt. Schwerpunktthemen sind Küstenprozesse, Häfen und Wasserstraßen, Coastal Environment, Küstenrisiken und Küstenentwicklung. Zusätzlich werden Short Courses zu verschiedenen Themen des Küsteningenieurwesens angeboten, die sich insbesondere an Studenten des Küsteningenieurwesens und des Wasserbaus, Doktoranden und interessierte Teilnehmer aus Praxis und Wissenschaft richten. Die eingereichten Abstracts der zum Vortrag bzw. als Poster akzeptierten Beiträge werden vor der Konferenz (15.08.2008) allen Teilnehmern in geeigneter Weise zur Verfügung gestellt. Vor Konferenzbeginn (31.08.2008) werden zwei Short Courses zu Morphodynamik (Workshop, 9 Referenten) und dem gerade erschienenen European Overtopping Manual (Workshop, 6 Referenten) durchgeführt. Mit dem Druck der 4-bändigen Proceedings (15.09.2008) werden die Konferenzbeiträge nachhaltig gesichert. Deutschland leistet mit Ausrichtung der ICCE2008 einen wichtigen Beitrag zum Küsteningenieurwesen und unterstreicht die Bedeutung deutscher Forschung.
Das Projekt "Durchfuehrung des Projekts 'Umweltbildung in Kur und Erholung'" wird vom Umweltbundesamt gefördert und von Naturschutzbund Deutschland (NABU), Landesverband Baden-Württemberg e.V., NABU-Landesgeschäftsstelle Stuttgart durchgeführt.
Das Projekt "Role of geomagnetic field in atmospheric escape from Earth" wird vom Umweltbundesamt gefördert und von Deutsche Forschungsgemeinschaft durchgeführt. The geomagnetic field prevents the Earth from having its atmosphere swept away by the solar wind. But due to the partial ionization of the upper atmosphere by the sun's short-wavelength radiation electrodynamic forces can move the charged particles upward, against gravity, along open field lines. Already in the early space age it was recognized that considerable amounts of ionospheric ions populate the magnetosphere. In this study we will investigate the acceleration mechanisms of the up-welling ions at source regions altitude. For the first time the role of the neutral particles in the thermosphere are also included in the considerations. For our studies we will make use of data from the satellites CHAMP (400km), GRACE (500km) and DMSP (830km). The space observations shall be augmented by suitable EISCAT radar measurements. As a result the total rates of the different out-flow regions, polar cap, cusp, and auroral region will be quantified and their dependence on geophysical conditions determined.
Das Projekt "AURORa - Investigation of the Radar Backscatter of Rain Impinging on the Ocean Surface" wird vom Umweltbundesamt gefördert und von Universität Hamburg, Zentrum für Meeres- und Klimaforschung, Institut für Meereskunde (IfM) durchgeführt. Over land, observations of rain rates are more or less operational. To obtain information about precipitation at the coastal zones, weather radars are used. However, over the oceans, especially away from the main shipping routes, no direct precipitation measurements are performed. In these regions, satellite data can provide information about precipitation events. Satellites deploying passive and active microwave sensors can operate independently of cloud cover and time of day. Passive microwave sensors give crude estimates of rain rates over large areas but cannot resolve small-scale rain events of short duration as are often observed in the tropics, for example. Active microwave sensors with high resolutions, such as synthetic aperture radars can provide more reliable information. Though the effect of rain on the atmosphere is a very topical area of research, the radar backscattering mechanisms at the water surface during rain events combined with wind are still not well understood. The purpose of this project is to investigate the radar backscattering from the water surface in the presence of rain and wind in order to interpret satellite radar data produced by active microwave sensors. Furthermore, the results should be embedded into models of the radar backscattering from the water surface to allow for estimating rain rates by using satellite data. Research topics: Rain impinging on a water surfaces generates splash products including crowns, cavities, stalks and secondary drops, which do not propagate, and ring waves and subsurface turbulence. We are investigating this phenomena at the wind-wave tank of the University of Hamburg. The tank is fitted with an artificial rain simulator of 2.3 m2 area mounted 4.5 m over the water surface. Rain drops of 2.1 and 2.9 mm in diameter with rain rates up to 100 mm/h have been produced. Wind with speeds 10 m/s and monomolecular slicks act on the water surface. The influence of the rain on the water surface is measured with a resistance type wire gauge, a two dimensional laser slope gauge and an coherent 9.8 GHz (x band) continuous wave scatterometer operating at VV-, HH- and HV-polarization. The influence of rain below the water surface is measured with colored raindrops which are observed with a video camera to investigate the turbulent motion and the depth of the mixed layer. At the North Sea Port of Buesum in Germany, a scatterometer operating at all polarizations and five frequencies will be mounted during summer of this year. The radar backscatter of the sea surface during rain events will be measured in combination with meteorological observations. With help of these measurements, existing radar backscatter models of the water surface will be improved for the presence of rain events. To validate the improved models, ERS-2 SAR-images will be compared with weather radar data.
Das Projekt "Impacts of Pico-photovoltaic Systems Usage" wird vom Umweltbundesamt gefördert und von Rheinisch-Westfälisches Institut für Wirtschaftsforschung e.V. RWI, Kompetenzbereich Umwelt und Ressourcen durchgeführt. In recent years, costs of both LED lighting diodes and photovoltaic (PV) systems have decreased substantially. In widely non-electrified rural Africa, this has induced a silent revolution, the market based dissemination of dry-cell battery or solar driven small LED lanterns in rural areas. These devices are in many cases of a very low quality, which might threat the sustainability of these new markets by a loss of trust among customers. The international community has responded to this development by promoting so-called Pico-PV systems that meet sufficient quality standards. Supported by the Dutch Daey Ouwens Fund, the British company ToughStuff Ltd. has recently started to market such Pico-PV-Systems in Rwanda. The ToughStuff systems include a 1 Watt panel, a small lantern, a mobile phone charger, and a radio. Together with ISS, RWI has been assigned by the Dutch Ministry of Foreign Affairs to evaluate the impacts these systems have on households in rural areas. For this purpose, a Randomized Controlled Trial (RCT) is conducted in 15 remote communities in which households do not have access to electricity and rely on candles and kerosene for lighting and dry-cell batteries for radio usage. Mobile phones can only be charged in the next grid connected area or against charging fees in shops that have a generator or a car battery. After a baseline survey, for which 300 households are interviewed, 150 of them are selected randomly to receive a ToughStuff Pico-PV system for free. The baseline data is used to randomize within similar strata or pairs of households. The 'winners' also receive the same short training on how to use the Pico-PV system as ordinary ToughStuff customers who buy the solar system on the market. A follow-up survey will be conducted 6-12 months after the randomization of the Pico-PV systems. This research set-up allows for two principal research questions to be addressed: First, since the capacity of the Pico-PV system will in most cases not be sufficient to allow full usage of all three energy services - lighting, radio, mobile phone charging - we investigate how people living in absolute energy poverty decide between these three services. Second, the unbiased impact of using a Pico-PV system can be estimated due to the RCT approach. Indicators we examine are energy expenditures, lighting usage, mobile phone usage, and radio usage as well as the knowledge about contraceptive usage, family planning, and malaria prevention, which might be affected through radio information campaigns. In addition to the RCT, a small survey of around 100-150 households in regions in which ToughStuff is already promoting its products on the market is conducted in parallel to the follow-up survey. The purpose is to check the extent to which the usage and impact results in the RCT can be transferred to 'real-world' users.
Das Projekt "Barley dwarfs acting big in agronomy. Identification of genes and characterization of proteins involved in dwarfism, lodging resistance and crop yield" wird vom Umweltbundesamt gefördert und von Deutsche Forschungsgemeinschaft durchgeführt. Barley (Hordeum vulgare) is an important cereal grain which serves as major animal fodder crop as well as basis for malt beverages or staple food. Currently barley is ranked fourth in terms of quantity of cereal crops produced worldwide. In times of a constantly growing world population in conjunction with an unforeseeable climate change and groundwater depletion, the accumulation of knowledge concerning cereal growth and rate of yield gain is important. The Nordic Genetic Resource Center holds a major collection of barley mutants produced by irradiation or chemical treatment. One phenotypic group of barley varieties are dwarf mutants (erectoides, brachytic, semidwarf, uzu). They are characterized by a compact spike and high rate of yield while the straw is short and stiff, enhancing the lodging resistance of the plant. Obviously they are of applied interest, but they are also of scientific interest as virtually nothing is known about the genes behind the development of plant dwarfism. The aim of this project is to identify and isolate the genes carrying the mutations by using state of the art techniques for gene cloning at the Carlsberg Laboratory. The identified genes will be connected with the mutant phenotype to reveal the gene function in general. One or two genes will be overexpressed and the resulting recombinant proteins will be biochemically and structurally characterized. The insights how the mutation effects the protein will display the protein function in particular. Identified genes and their mutant alleles will be tested in the barley breeding program of the Carlsberg brewery.
Das Projekt "Fate of 17-ethinylestradiol in the aqueous environment and the associated effects on organisms" wird vom Umweltbundesamt gefördert und von RWTH Aachen University, Institut für Umweltforschung, Biologie V, Lehrstuhl für Umweltbiologie und -chemodynamik durchgeführt. Introduction: In aquatic systems, the bioavailability of a compound is dependent on numerous factors such as partitioning between water, different organisms and solids, biotransformation and food web transfer. This project dealt with the fate of an important environmental xeno-estrogen, 17-ethinylestradiol (EE2), in the aquatic environment. Therefore, the kinetics of EE2 in indicator species representing the different trophic levels of an ecosystem were assessed. As primary producers, green algae (Desmodesmus suspicatus) were selected. The water flea Daphnia magna and larvae of the midge Chironomus riparius were introduced as primary consumers of the water phase and the sediment, respectively. Finally, water as well as dietary uptake of EE2 were investigated in a target species and secondary consumer: zebrafish (Danio rerio). Methodology: In a first series of experiments, uptake of 14C-labelled EE2 (14C-EE2) from the water phase and elimination by the different organisms were investigated over time. In a second test series, both primary consumers were fed 14C-EE2 spiked algae in order to study bioaccumulation. Uptake of 14C-EE2 by chironomid larvae after water and sediment spiking was compared, including sediments of different composition. In a third series of experiments, male fish were short term (48 h) exposed to 14C-EE2 through different routes: by water exposure (WE) and by dietary exposure (DE) via both contaminated daphnids and chironomid larvae. Distribution of 14C-EE2 in the fish was studied by measuring the amount of radioactivity (RA) in the different fish tissues. Additionally, the effect of EE2 on the vitellogenin (Vtg) induction in male fish was compared after WE and DE in a long term (14 d) experiment. The RA in liquid samples was quantified by means of liquid scintillation counting (LSC). Solid samples were subjected to combustion in a biological oxidiser, trapping (14)CO2, measured with LSC. Water and organism extracts were analysed by means of HPLC with a radiodetector, except for algae extracts that were subjected to TLC. Metabolites were identified with GC-MS, high resolution LC-MS and enzymatic hydrolysis followed by HPLC with radiodetection. Metabolites, detected in the water phase, were tested for estrogenic activity by means of YES and ER-CALUX assays. Results: Accumulation and effects: Of the four organisms mentioned above, bioconcentration of 14C-EE2 was highest in the algae. Whereas the growth rate of D. subspicatus was significantly affected at high EE2 concentrations compared to unexposed algae, EE2 had no acute effects on D. magna and C. riparius. Daphnids showed a higher bioaccumulation potential after exposure via spiked algae. For chironomids, water exposure was the predominant uptake route. The presence of sediment lowered the bioavailability of 14C-EE2 to the larvae after both water and sediment spiking. Nevertheless, uptake was higher when the nutritional quality of the sediment was better. Etc.
Das Projekt "Sub project: Long- and short-term effects of climate variability and physical forcing on the diversity of aquatic organisms" wird vom Umweltbundesamt gefördert und von Universität Oldenburg, Institut für Chemie und Biologie des Meeres (ICBM), Arbeitsgruppe Planktologie durchgeführt. Climate variations over the Northern Hemisphere are to a substantial proportion associated with atmospheric circulations, e.g. the North Atlantic Oscillation (NAO). Recently, many studies have revealed the impact of the NAO on the dynamics of organisms in different ecosystems, especially on the timing of life history events, on the biomass of organisms, and on the biomass of different trophic levels. However, no study has developed a consistent picture on how the NAO affects biodiversity. Here we propose a unique study aiming at analysing long-term data on the diversity of aquatic communities in combination with the prediction of trends in aquatic biodiversity while disentangling long-term and short-term effects of climate variability. To achieve this goal, we will combine databases from different marine and freshwater ecosystems in North-Central Europe. These databases provide long-term time series of species abundance and community composition from lakes, streams and 2 marine sites, comprising a spatial extent from Germany to Northern Sweden. We will use these data to test: 1)Whether there are decadal or yearly trends in the diversity of aquatic communities related to climate variability. 2) Whether asynchrony of species-specific responses leads to shifting community patterns related to climate variability, including information on shifts in seasonal co-occurrence of interacting organisms (match-mismatch), and 3) Whether the short-term variability of climate has an effect on diversity in the ecological time frame of disturbances. We will use this information to predict changes in future biodiversity under changed climate scenarios. This study will result in modelling and experimental approaches to the role of climate forcing for aquatic biodiversity.
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