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Clean Sky Technology Eco Design (Clean Sky ECO)

Das Projekt "Clean Sky Technology Eco Design (Clean Sky ECO)" wird vom Umweltbundesamt gefördert und von Airbus Helicopters Deutschland GmbH durchgeführt. The Eco-Design ITD (ED-ITD) gathers and structures from one side activities concerned specifically with development of new material and process technologies and demonstration on airframe and rotorcraft related parts stressing the ecolonomic aspects of such new technologies; from the other side, activities related to the All Electrical Aircraft concept related to small aircraft. ED-ITD is directly focused on the last ACARE goal: 'To make substantial progress in reducing the environmental impact of the manufacture, maintenance and disposal of aircraft and related products'. Reduction of environmental impacts during out of operation phases of the aircraft lifecycle can be estimated to around 20 % reduction of the total amount of the CO2 emitted by all the processes (direct emissions and indirect emissions i.e. produced when producing the energy) and 15 % of the total amount of the energy used by all the processes. In addition, expected benefit brought by the All Electric Aircraft concept to be highlighted through the conceptual aircraft defined in the vehicle ITDs is estimated to around 2% fuel consumption reduction due to mass benefits and better energy management. The status of the global fleet in the year 2000 constitutes the baseline against which achievements will be assessed. Progress toward these goals will result not only from ED internal activities but also from the collaboration with the relevant cross-cutting activities in GRA , GRC, SFWA (business jet platform) and SGO (electrical systems).

D 6.1: Improving fruit set and quality standards of mango in the mountainous area of Vietnam

Das Projekt "D 6.1: Improving fruit set and quality standards of mango in the mountainous area of Vietnam" wird vom Umweltbundesamt gefördert und von Universität Hohenheim, Institut für Kulturpflanzenwissenschaften, Fachgebiet Ertragsphysiologie der Sonderkulturen (340f) durchgeführt. A major problem in mango production in Northern Vietnam is a premature fruit drop. However, the underlying plant processes in response to environmental and/or crop management factors are not understood. There is a general belief that this phenomenon is caused by different combinations of stressing factors which may vary between different regions and sites. In the mountainous area of northern Vietnam (Son La Province), fruit drop in mango may be caused by relatively hot, dry prevailing winds which typically occur in February/March. Consequently, it has to be determined which plant process responds sensitively to specific environmental conditions and subsequently causes, through its alteration, premature fruit drop. The identification of the physiological basis of premature fruit drop not only is of scientific interest but also of commercial significance, allowing the development of effective, fruit drop reducing crop management strategies and thus ensuring a economically sustainable cultivation of mango in this region. The research project has two main parts; environmental crop physiology and fruit quality. The environmental crop physiology part investigates whether premature fruit drop is caused by high temperature/vapour pressure deficit (VPD) conditions and related to: 1. temperature dependence of pollen tube growth and flower quality; 2. altered carbon fixation and carbon partitioning between sources (leaves) and sinks (fruit), thus possible limitations of carbon supply to developing mango fruit; 3. altered basipetal auxin export from fruit and fruit ethylene concentration. The fruit quality part will primarily carry out sensory fruit analyses and establish harvest quality criteria with the aim to improve the economic returns and thereby the economic situation of the fruit growers in the long-term.

Element cycles in mountain regions under various land use

Das Projekt "Element cycles in mountain regions under various land use" wird vom Umweltbundesamt gefördert und von Universität Bayreuth, Fachgruppe Geowissenschaften, Bayreuther Zentrum für Ökologie und Umweltforschung (BayCEER), Lehrstuhl für Agrarökosystemforschung durchgeführt. Research question: What is the role of agricultural land use in changes of nutrient cycles and losses dependingon surface slope and climate? Approach: Annual balance of main nutrients for 3-4 main agricultural farms based on fertilizer input, partitioning of nutrients in above and below ground plant parts, output with harvest, losses with DOM and erosion (in collaboration with other TP). The balances will be done depending on agricultural practices in Eger and Haean Catchment and will be compared with adjacent grassland and forest. Obtained element cycles will be upscaled from farm area to the level of both catchments basins depending on specific land use, surface slope and climate. Research question: Can we reconstruct previous erosion and nutrient losses and separate them under forest and under agricultural use? Approach: Undisturbed sediment cores (7 for Eger and 7 for Haean) will be taken from the lakes and soils of landscapes subordinated to agricultural fields. Three radiocarbon data of wood particles at increasing depth for each sediment core will be used as references. The age of the bottom sediment layer should be less than 1000 years. The total content of C, N, P, K, Mg, Ca, Si will be analyzed in individual laminae or sediment layers. Conclusions will be drawn based on the thickness of the laminae, their elements content and the ratio between nutrients and Si. The conclusions will be proven by 13C (vegetation change) and 15N (N input by fertilizers) of individual laminae. Research question: What are the best management practices for sloping uplands? Approach: Measured element cycles and losses under various agriculture practice will be analysed and practices with the least nutrient losses and erosion will be selected. The best management practices for landscapes with different slopes will be elaborated.

Impacts of Solar Home System Usage in Rural Burkina Faso

Das Projekt "Impacts of Solar Home System Usage in Rural Burkina Faso" wird vom Umweltbundesamt gefördert und von Rheinisch-Westfälisches Institut für Wirtschaftsforschung e.V. RWI, Kompetenzbereich Umwelt und Ressourcen durchgeführt. In remote areas with low electrification rates, Solar Home Systems (SHS) can be seen as a promising alternative to the investment-intensive extension of the electricity grid. The Dutch Ministry of Foreign Affairs provides funding to a project in Burkina Faso that offers SHS to rural households using a market-based approach. The SHS that are distributed can provide electric lighting and - depending on the chosen capacity of the system - allow for the usage of small electric appliances up to colored television. As part of the series of impact evaluations of development activities supported by the Netherlands on behalf of the Dutch Ministry of Foreign Affairs, RWI and ISS assess the socio-economic impact of the usage of SHS such as improved living conditions, time savings, increased security, better health conditions, and educational attainment trough extended study hours. The idea is to conduct a difference-in-difference approach based on household surveys before and after the intervention, in combination with propensity score matching (PSM) to better match control and treatment households on pre-program characteristics (e.g. education, socio-economic status, income, asset-ownership, characteristics of the villages they live in). Following the roll-out plan of Yeelen Ba's activities, a baseline survey was conducted in November 2010 based on a random sample of villages that are in the program's catchment area. In total, 1,200 households in 40 villages (30 households per village) were interviewed. A particular focus was on the use of appliances and energy expenditures, as well as convenience and comfort aspects before and after the SHS was installed. For the difference-in-difference approach the sample will be divided into a treatment group consisting of households who will have obtained an SHS in the meantime and a control group consisting of untreated households. The follow-up survey will be conducted two years after the baseline survey in November 2012. All households will be revisited and differences in the changes in the outcome variables between the treatment group and the control group will be assessed, providing insights about how ownership of an SHS changes the socio-economic living conditions of the households.

B 3.1: Efficient water use of mixed cropping systems in watersheds of Northern Thailand highlands

Das Projekt "B 3.1: Efficient water use of mixed cropping systems in watersheds of Northern Thailand highlands" wird vom Umweltbundesamt gefördert und von Universität Hohenheim, Institut für Kulturpflanzenwissenschaften (340), Fachgebiet Düngung und Bodenstoffhaushalt (340i) durchgeführt. Worldwide an important part of agricultural added value is produced under irrigation. By irrigation unproductive areas can be cultivated, additional harvests can be obtained or different crops can be planted. Since its introduction into Northern Thailand lychee has developed as one of the dominating cash crops. Lychee is produced in the hillside areas and has to be irrigated during the dry season, which is the main yield-forming period. Water therefore is mainly taken from sources or streams in the mountain forests. As nowadays all the available resources are being used do to increased production, a further increase in production can only be achieved by increasing the water use efficiency. In recent years, partial root-zone drying has become a well-established irrigation technique in wine growing areas. In a ten to fifteen days rhythm one part of the root system is irrigated while the other dries out and produces abscisic acid (ABA) a drought stress hormone. While the vegetative growth and thus labor for pruning is reduced, the generative growth remains widely unaffected. Thereby water-use efficiency can be increased by more than 40Prozent. In this sub-project the PRD-technique as well as other deficit irrigation strategies shall be applied in lychee and mango orchards and its effects on plant growth and yield shall be analyzed. Especially effects of this water-saving technology on the nutrient balance shall be considered, in order to develop an optimized fertigation strategy with respect to yield and fruit quality. As shown in preliminary studies, the nutrient supply is low in soils and fruit trees in Northern Thailand (e.g. phosphate) and even deficient for both micronutrients boron (B) and zinc (Zn). Additionally, non-adapted supply of nitrogen (mineralization, fertilization) can induce uneven flowering and fruit set. Therefore, improvement is necessary. For a better understanding of possible influence of low B and Zn supply on flowering and fruit set, mobility and retranslocation of both micronutrients shall be investigated for mango and lychee. Finally, the intended system of partial root-zone fertigation (PRF) shall guarantee an even flowering and a better yield formation under improved use of the limited resource water. As this modern technique, which requires a higher level of irrigation-technology, cannot be immediately spread among the farmers in the region, in a parallel approach potential users shall be integrated in a participative process for adaptation and development. Water transport and irrigation shall be considered, as both factors offer a tremendous potential for water saving. Local knowledge shall be integrated in the participatory process (supported by subproject A1.2, Participatory Research) in order to finally offer adapted technologies for application within PRF systems for the different conditions of farmers in the hillsides of Northern Thailand.

C-STAR: Coastal Sediment Transport Assessment Using SAR Imagery

Das Projekt "C-STAR: Coastal Sediment Transport Assessment Using SAR Imagery" wird vom Umweltbundesamt gefördert und von Universität Hamburg, Zentrum für Meeres- und Klimaforschung, Institut für Meereskunde (IfM) durchgeführt. C-STAR was a joint European project, carried out by ten partner institutions in the Netherlands, Belgium, Great Britain, and Germany; financially supported by the Commission of the European Community as a part of the Marine Science and Technology (MAST) program under contract no. MAS3-CT95-0035.. C-STAR was devoted to an improved theoretical understanding of the radar imaging of underwater bottom topography in tidal waters and to an investigation of the potential of inverse models which retrieve topographic maps from radar images, for morphological research and monitoring applications. C-STAR included a major field experiment off the Dutch coast, which was carried out in April, 1996. The activities of the Satellite Oceanography group of the University of Hamburg within C-STAR focused on the improvement of theoretical models for the hydrodynamic wave-current interaction and for the radar backscattering at the sea surface, which appears to be described relatively well by the existing composite surface model.

B 2: Lateral water flow and transport of agrochemicals - Phase 1

Das Projekt "B 2: Lateral water flow and transport of agrochemicals - Phase 1" wird vom Umweltbundesamt gefördert und von Universität Hohenheim, Institut für Bodenkunde und Standortslehre durchgeführt. The project aims at developing a model of the dynamics of agrochemicals (fertilisers, pesticides) and selected heavy metals on a regional scale as a function of cropping intensity in the highland areas of Northern Thailand. The model shall predict the effects of cropping intensity on mobility and leaching of agrochemicals in the agriculturally used system itself but also on the chemical status of neighbouring ecosystems including downstream areas. The methods for measuring and estimating the fluxes of agrochemicals in soils will be adapted to the conditions of the soils and sites in Northern Thailand. Fluxes of agrochemicals will be measured in fruit tree orchards on the experimental sites established together with projects B1, C1 and D1. Also, processes governing the dynamics of agrochemicals will be studied. The objectives for the first phase are as follows: - To identify suitable study sites - To establish the methods for measuring the fluxes of agrochemicals in the study sites - To adopt the analytical procedures for pesticides - To identify and parametrise the processes governing the mobility of agrochemicals - To identify the major chemical transformation processes for agrochemicals in the soils of the project area - To establish models of the fate of agrochemicals an the plot scale. Dynamics of agrochemicals include processes of mobilisation/immobilisation, degradation and transport. Both, experiments and field inventories are needed to elucidate the complex interaction of the various processes. Field measurements of the fluxes of nutrient elements (N, P, K, Ca, Mg, Mn, Zn, Cu), pesticides and some heavy metals will be conducted at different regional scales (plot, agricultural system, small catchment, region). Laboratory and field experiments consider chemical, physicochemical and biological processes. Biological processes and degradation of pesticides will not be considered in the first phase of the project, however, they should be included later on. The project as a whole is broken down into three essential parts, which consecutively follow each other. The subproject is methods- and processes-orientated. Methods, which were developed in Hohenheim to quantify the fluxes of chemicals in soils have to be adapted to meet the requirements of the specific conditions in the study area. Recently, these methods are already under development in tropical environments (Vietnam, Costa Rica). After adaptation the methods will be used to yield flux data on the plot scale. These data are needed to help deciding which of the hypothesised processes are of major importance for modelling the dynamics of agrochemicals. The final outcome of this project phase are models of the fate of agrochemicals as a function of management intensity on the plot scale.

SP 3.1 Economic analysis on the effects of management and policy measures aiming at a reduction of the environmental burden from high-level agricultural production in the North China Plain

Das Projekt "SP 3.1 Economic analysis on the effects of management and policy measures aiming at a reduction of the environmental burden from high-level agricultural production in the North China Plain" wird vom Umweltbundesamt gefördert und von Universität Hohenheim, Institut für Landwirtschaftliche Betriebslehre (410), Fachgebiet Landwirtschaftliche Betriebslehre (410b) durchgeführt. In the second phase of subproject 3.1 is envisaged to model representative farms. The models will be structured in a way that not only the production but also the material balances can be represented. In particular the nitrogen balance, the carbon balance and the water balance will be incorporated. Gas and particulate matter emissions can be considered as well, as far as there are sufficient data available. The modelling aims at integrating on farm level all baseline data surveyed in other sub-projects and at quantifying and valuating at farm level the already worked out management measures for reducing environmental burden while increasing production efficiency. The focus will be on measures for reducing nitrogen fertilisation, the interrelation between management activities and carbon/nitrogen balance, effects of nitrogen deposition on the operational nutrient management, water efficiency, etc. Another part for the impact analysis shall be the extent to which cropping practices elaborated in other sub-projects can be alternatives for the prevailing wheat-maize-rotation. Thereby cotton, groundnuts, soybeans, vegetables, and row intercropping are to be analysed and valued on farm level. Furthermore, the sub-project shall provide other sub-projects with indicators which are necessary in order to optimise breeding and management programmes under consideration of economic factors. Another aim of the sub-project is to carry out economic impact analyses of possible policy measures. To do so, realistic concepts of the Chinese agricultural policy as e.g. a reduction of the subsidies on means of production, in particular on nitrogen, water, etc. and their possible impact on quantities produced, input quantities applied, nutrient and water efficiency, income and other criteria are to be investigated. Furthermore, the influence of stages of an increasing mechanisation on production, income and structural changes can be investigated. Finally, open questions and approaches for further research will be derived through a sensitivity analysis.

C3: Market inclusion of ecosystem services: A viable option to achieve sustainable land use in the tropics?

Das Projekt "C3: Market inclusion of ecosystem services: A viable option to achieve sustainable land use in the tropics?" wird vom Umweltbundesamt gefördert und von Technische Universität München, Wissenschaftszentrum Weihenstephan für Ernährung, Landnutzung und Umwelt, Fachgebiet für Waldinventur und nachhaltige Nutzung durchgeführt. The concept of ecosystem services (ES) links ecosystem functioning and human wel-fare to achieve sustainable land use. However, the success of this concept will critically depend on sources to finance the provision of ES (possibly mobilized by means of markets for ES), on credibility of ES values and on willingness of ES providers to ac-cept financial compensation. Our proposal addresses these aspects: The first part investigates how the land use in Ecuador would change if ES were actually acknowl-edged as economic values. We will use and develop a risk sensitive economic modeling approach to integrate the uncertainty of expected economic values for ES. The aim is to explore how the uncertainty of ES values would affect investments into specific ecosystem types and the connected conversion processes from tropical forest lands to other land use types and vice versa. The second proposal part investigates the willing-ness to accept financial compensation for providing ES. In this part we adapt a risk-sensitive bioeconomic farm model that combines various productive but sustainable land management options to real farm situations. The farm level modeling builds upon the effects of risk compensation from diversified land use by means of a land use port-folio approach. It will be used to derive acceptable individual and thus effective conser-vation payments.

Non-exchangeable NH4-N in the subsoil:Significance for the N nutrition of plants (NitroNex)

Das Projekt "Non-exchangeable NH4-N in the subsoil:Significance for the N nutrition of plants (NitroNex)" wird vom Umweltbundesamt gefördert und von Universität Bonn, Institut für Nutzpflanzenwissenschaften und Ressourcenschutz - Pflanzenernährung (Prof. Werner) durchgeführt. The project is dealing with the contribution of non-exchangeable NH4-N in the subsoil for the N nutrition of plants. It is divided into two main parts: In part 1 the content of nonexchangeable NH4-N in the subsoil of the Central field experiment (CeFiT) under different crops and influencing factors will be investigated. Special consideration will be given to the drilosphere, where easily mineralizable organic material is translocated into deeper soil layers and NH4+-ions, formed after mineralization may be specifically bound in interlayers of 2:1 clay minerals in the vicinity of biopores. Furthermore attention will be given to the reduction of NO3-, translocated into the subsoil, to NH4+ as a source for NH4+-fixation. In part 2 the amounts of non-exchangeable NH4-N released from subsoils throughout the growing season will be quantified. Special attention will be given to the influence of the root system on the mobilization of NH4+-ions from the interlayers of clay minerals. Partially interlayers of clay minerals will be labelled with 15NH4+. Under field conditions, in the Central microcosm experiment (CeMiX) as well as in model experiments with special containers, that allow to take soil samples from defined distances from the root system, depletion curves of nonexchangeable NH4-N will be created.

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