The project aims at achieving a better understanding of the processes that drive or limit the response of grassland systems in a world of increasing atmospheric pCO2. We will test the hypothesis that the previously shown increase in below-ground allocation of C under elevated pCO2 provides the necessary energy excess and will stimulate free-living N2 fixers in a low N grassland environment. The project thus aims at assessing the occurrence and importance of free-living N2 fixers under elevated pCO2 and identify the associated microbial communities involved in order to better understand ecosystems response and sustainability of grassland systems. This project had the last opportunity to obtain soil samples from a grassland ecosystem adapted to long-term (10 year) elevated atmospheric pCO2 as the Swiss FACE experiment. The project aims to identify the relevant components of free-living diazotrophs of the microbial community using 15N stable isotope - DNA probing.
In contrast to their advances in other areas, weather forecast models have not been successful in improving the Quantitative Precipitation Forecast during the last 16 years. One reason for this stagnation is the lack of comprehensive, high-quality data sets usable for model validation as well as for data assimilation, thus leading to improved initial fields in numerical models. Theoretical analyses have identified the requirements measured data have to meet in order to close the gaps in process understanding. In field campaigns, it has been shown that the newest generation of remote sensing systems has the potential to yield data sets of the required quality. It is therefore time to combine the most powerful remote sensing instruments with proven ground-based and airborne measurement techniques in an Intensive Observations Period (IOP). Its goal is to serve as a backbone for the SPP 1167 by producing the demanded data sets of unachieved accuracy and resolution. This requires a sophisticated scientific preparation and a careful coordination between the efforts of the institutions involved. For the first time, the pre-convective environment, the formation of clouds and the onset and development of precipitation as well as its intensity will be observed in four dimensions simultaneously in a region of sufficient size. This shall be achieved by combining the IOP with international programs and by collaboration between leading scientists in Europe, US and other countries. Thus, the IOP is a unique opportunity to make Germany the setting of an international field campaign featuring the newest generation of measurement systems such as scanning radar and lidar and leading to outstanding advances in atmospheric sciences.
The HyFLEET:CUTE project involves the operation of 47 hydrogen powered buses in regular public transport service in 10 cities on three continents. The Project aims to diversify and reduce energy consumption in the transport system by developing new, fuel efficient hydrogen powered bus technology, and clean, efficient and safe ways of producing and distributing hydrogen fuel. Objectives: - Develop hydrogen powered bus technology in order to reduce the consumption of fuel and energy in the whole transportation system. - Develop efficient and environmentally 'friendly' ways to produce hydrogen. - Research the technology and development needs to establish a hydrogen refueling infrastructure. - Inform the community and key decision-makers about the potential advantages of a hydrogen-based transport system and how they can help to develop it.
The objective of MATISSE is to achieve a step-wise advance in the science and application of Integrated Sustainability Assessment (ISA) of EU policies. In order to reach this objective the core activity of the MATISSE project is to improve the tool kit available for conducting Integrated Sustainability Assessments, resulting in four main project activities: 1. A common conceptual framework for ISA development, implementation and evaluation will be developed. This will be related to the assessment of the current status of ISA and its pattern of use in relation to different domains and contexts. 2. MATISSE will deliver a future tool portfolio for ISA. It will improve and interlink existing tools and methods for ISA with the focus on quantitative tools. In addition, new methods and tools will be developed that capture the multi-domain, multi-level and multi-actor complexity of ISA. 3. In four case studies the improved and new ISA tools will be applied and tested. The case studies are designed to cover the broad spectrum of domains and contexts of ISA in the EU. The themes are: i) agriculture, forestry and land-use, ii) resource use, waste and dematerialisation, iii) water, and, iv) sustainable environmental technology development. 4. The involvement and engagement of stakeholders and policy makers will be secured throughout all activities of the project. This covers crosscutting capacity-building, communications and outreach tasks. To this purpose, external guidelines for ISA will be developed that will support the future use and application of tools and methods for ISA across a wide range of contexts. The resulting improved tools portfolio and ISA Guidelines will form the primary deliverables of the project. The major focus will be on ISA-modelling tools in relation to ISA-participatory methods, which will be made suitable for use by the European Commission and other actors that seek to apply ISA through a comprehensive dissemination programme. Prime Contractor: Erasmus Universiteit Rotterdam; Rotterdam; Netherlands.
Aquifers are the main source of water in most semi-arid areas of the Mediterranean basin. As a result of over-exploitation hydrologic deficits of varying acuity prevail in these areas. Seawater intrusion and pollution have been identified as the primary factors for quality degradation. Further deterioration can be expected based on trends in the precipitation regime attributed to climate change. The objective of this project is to identify alternative sources of water and to investigate the feasibility, both environmental and economic of their utilization. Alternative water sources to be artificially recharged comprise: surface water runoff, treated effluent, and imported water. Furthermore, brackish water bodies, present in many aquifers could be utilised after desalination. The project structured into eight work-packages comprehensively addresses all issues related to the problem: expected precipitation rates, recharge and water budgets, identification of potential alternative water sources and technologies for their utilization, development of tools for the management of groundwater resources under artificial recharge conditions, aquifer vulnerability assessment, characterization of the unsaturated zone, and mixing effects. Four test sites have been selected for practical application of the approach. Substantial field testing, integration of technologies and findings to ensure optimal implementations of aquifer recharge alternatives, quantification of socio-economic impacts and development of dissemination platform are planned. Finally a carefully designed project management shall drive and accompany the project execution in order to ascertain consistency and efficiency.
Objective: New process route for lightweight, unbreakable and economically feasible solar panels on the basis of amorphous silicon. Results: From a number of canditates enamel-coated steel sheet as substrate and an organic barrier as protective layer was chosen as an alternative to the dual glass panels. Criteria were vacuum compatibility, surface rougness and insulating properties. This concept requires that the production order of the thin film solar cell is reversed into back electrode, active stack, front transparent electrode. Inverted processes and low temperature processes were investigated in parallel. Protection against damage due to permeating water was reduced with an improved organic barrier coating. Also, less vulnerable back electrode materials were studied. Fluorine doped tin oxide, tin-doped indiumoxide and aluminium-doped zinc oxide were studied. However, the best and most economical results were optained with ITO. For monolithic integration mechanical masking and laser scribing were investigated. Mechanical masking failed due to the uneveness of the enamel surface. Laser scribing is possible due to the diminished power need with each consecutive layer. Some concepts for better light capture (texturing, optical coatings) were investigated. Based on the inverted process route small scale and full scale panels were manufactured and tested. Ultimately, the full scale failed due to the built-up of stress which caused delamination and could not sufficiently be reduced. The panel costs of the new route proved very similar to the existing product, but required an additional investment in vacuum deposition equipment. Surprisingly, ITO with recycling proved to be the most cost effective transparent electrode material.
Article 16 of the Water Framework Directive (WFD, Directive 2000/60/EC) lays down the Community Strategy for the establishment of harmonised quality standards and emission controls for the priority substances and other substances posing a significant risk to, or via, the aquatic environment. In order to achieve the protection objectives of the WFD, the Commission shall (i) submit proposals for quality standards applicable to the concentrations of the priority substances in surface water, sediment or biota, and (ii) identify the appropriate cost-effective and proportionate level and combination of product and process controls for both point and diffuse sources. Proposals for environmental quality standards and emission controls for point sources shall be submitted within 2 years of the inclusion of the substance concerned on the list of priority substances (European Parliament and Council Decision No. 2455/2001/EC), i.e. in December 2003. This study is part of the preparatory work of the Commission and its overall objectives are: - The development and description of a concept which enables the European Commission to submit proposals for quality standards applicable to the concentrations of the priority substances of the Water Framework Directive (2000/60/EC) and those substances not on the priority list but regulated in the 'daughter directives' of Directive 76/464/EEC (on pollution caused by certain dangerous substances discharged into the aquatic environment of the Community) in water, sediment and biota, as required by Articles 16(7) and 16(10) of the Water Framework Directive. - Elaboration of proposals for quality standards for the priority substances of the Water Framework Directive and recommended values for other substances of concern (see footnote 1) with regard to surface water, sediment, biota, and human health as objectives of protection. Conclusions: The elaboration of quality standards with the developed methodological framework clearly showed that the proposed approach is applicable for the derivation of specific quality standards addressing the particular objectives of protection as well as for the identification of the overall quality standard that finally may be imposed to safeguard the entire set of objectives of protection. Also, with regard to the effort required to work with the concept, it can be considered as economic. This is attributable to the fact that despite the comprehensive consideration of all relevant routes of exposure and objectives of protection the different quality standards for the specific objectives are normally only derived if certain pre-defined trigger values are exceeded. This avoids the assessment of irrelevant exposure routes and the calculation of unnecessary standards. Problems encountered during the elaboration of the standards were in general not attributable to the suggested methodological framework but mostly to the limited availability of data or to the limitations of the available data.
In order to study the effects of parasitoid associated factors on lepidopteran larval hosts we used g-irradiation of sterilize females of the braconid parasitoid Glyptapanteles liparidis. Along with eggs, G. liparidis females inject a secrete of the calyx gland containing particles of a symbiotic virus, the polydnavirus (PDV) and venom into the host. These associated factors are known from other host-parasitoid systems to suppress the immune system of the host and cause alterations in its development. g-irradiation should sterilize the eggs inside the wasp's ovary, so that sterile eggs are oviposited together with PDV and venom and the influence of parasitoid larvae inside the host is excluded. We irradiated G. liparidis females with different doses, ranging from 2.4 to 10.5 krad, in a Co60 g-irradiator. L. dispar larvae were stung by such irradiated wasps as well as untreated wasps, and the development of hosts and parasitoid progeny was controlled by rearing and dissections of hosts. Also G. liparidis were reared under controlled conditions to measure the effect of irradiation on their longevity and oviposition. A sting by an irradiated wasp (= pseudoparasitization) caused prolonged development and supernumerary molts of L. dispar larvae, and lead to the production of heavier pupae. However, such pseudoparasitized hosts suffered from higher pupal mortality due to incomplete larval-pupal molts or incomplete hardening of pupal cuticle. Effects on the host immune system were studied indirectly using an additional infection with the entomopathogenic microsporidium Vairimorpha sp. Pseudoparasitized hosts died earlier from the microsporidiosis and showed infections of higher intensity. For G. liparidis adults the g-irradiation caused no marked reduction in lifespan, except at the highest dose of 10.5 krad, but irradiated females laid significantly fewer eggs. The treatment did not result in complete sterilisation; about 10 to 20 percent of parasitoid eggs did hatch and such G. liparidis were able to complete their development to adults. Further studies will investigate the incomplete sterilization of G. liparidis eggs by g-irradiation. We will test whether these synovigenic wasps can recover after a certain time after irradiation and produce fertile eggs again. Consequently, we aim to develop a protocol of dose and timing of g-irradiation to give the best results for using it as a tool in studying the effects of PDV and venom of G. liparidis.
Der oekologische Landbau laesst aufgrund der systemeigenen spezifischen Fruchtfolgen, Duengemassnahmen und Bodenbearbeitung positive Auswirkungen auf die Entwicklung d arbuskulaeren Mykorrhiza und die Kolonisierung der Kulturpflanzen erwarten. Diese positiven Auswirkungen wurden in vergleichenden Untersuchungen ueber die Auswirkungen einzelner Kulturmassnahmen auf die arbuskulaere Mykorrhiza in konventionell und nachhaltig bewirtschafteten Standorten nachgewiesen. Wenn in der Zukunft eine Verringerung des Eintrages an Agrochemikalien in die Kulturlandschaften angestrebt wird, muss der Bedeutung der arbuskulaeren Mykorrhiza eine hoehere Aufmerksamkeit gewidmet werden. Um die positiven Auswirkungen der arbuskulaeren Mykorrhiza in landwirtschaftlichen Produktionssystemen optimal zu nutzen, ist die Verwendung von geeigneten Duengemitteln in adaequater Menge, ein groesstmoeglicher Verzicht auf einen Pestizideinsatz und eine entsprechende Fruchtfolgegestaltung mit einem Minimum an Bodenbearbeitung und der Vermeidung von Schwarzbrache sicherzustellen. Ziel dieses Projektes ist die Optimierung der Lebensbedingungen und Leistungen der arbuskulaeren Mykorrhiza im oekologischen Landbau zur Optimierung des Pflanzenwachstums und der Sicherung der Ertraege. Dabei wird im Rahmen von Feldversuchen der Einfluss von acker- und pflanzenbaulichen Massnahmen (Fruchtfolge, Duengung, Bodenbearbeitung) sowie der Dauer der oekologischen Bewirtschaftung auf die arbuskulaere Mykorrhiza untersucht.
Die Forschungsinitiative Biologischer Landbau (FBL) Österreich besteht seit dem Jahr 1991 als informeller Zusammenschluß von im Biologischen Landbau tätigen Wissenschaftlern mit dem Ziel, den Erfahrungsaustausch auch zwischen fachlich auseinanderliegenden Disziplinen innerhalb der Forschung im Biologischen Landbau zu fördern. In den Jahren 1994/95 erfolgte von seiten des BMLF und des BMWFK die Finanzierung eines acht-monatigen Forschungsprojektes zu grundlegenden Fragen der Forschung im Biologischen Landbau ( Erarbeitung integraler Schwerpunktthemenbereiche und Methodikkriterien für die Forschung im Biologischen Landbau in Österreich). Unter Mitwirkung von Wissenschaftlern aus Deutschland und der Schweiz sowie unter Einbeziehung eines erweiterten Expertenkreises fand im Rahmen der FBL eine intensive Diskussion über die zukünftige Ausrichtung der Forschung im Biologischen Landbau statt. Dabei erfolgte ein umfassender Diskurs über aktuelle Forschungsdefizite, interdisziplinär auszurichtende Schwerpunktthemen, über Methodikkriterien sowie über Kriterien zur Beurteilung der Dringlichkeit und Systemgerechtheit von Forschungsthemen im Biologischen Landbau in Österreich. Des weiteren wurden schlußfolgernd aus dieser Arbeit Forderungen der Forscher, die im Biologischen Landbau aktiv sind, an die Institutionen der Forschungsförderung zur Optimierung der wissenschaftlichen Weiterentwicklung dieser Landbaumethode formuliert. Grundlage der Diskussion über die zukünftige Forschung im Biologischen Landbau in Österreich sind die Prinzipien des Biologischen/Ökologischen Landbaus: Das Streben nach weitgehend geschlossenen Stoffkreisläufen im Betrieb, der schonende Umgang mit nicht erneuerbaren Rohstoff- und Energieressourcen, die Stärkung und Nutzung natürlicher Selbstregulationsmechanismen sowie die Erhaltung und Verbesserung der Vielfalt der Arten und des Landschaftsbildes. Diese Leitlinien der Biologischen Landwirtschaft werden im Rahmen der vorliegenden Studie (als Folge der Diskussion in der FBL) präzisiert und zu Strategien, Schwerpunktthemen, Forschungsdefiziten sowie Methodikkriterien für die Forschung im Biologischen Landbau ausgeweitet. Damit soll letztlich eine effektive ökosystemorientierte Weiterentwicklung dieser Landbaumethode sichergestellt werden.
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