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Integrated project to evaluate impacts of global change on European freshwater ecosystems (EURO-LIMPACS)

Description: Das Projekt "Integrated project to evaluate impacts of global change on European freshwater ecosystems (EURO-LIMPACS)" wird vom Umweltbundesamt gefördert und von Universität für Bodenkultur Wien, Institut für Hydrobiologie und Gewässermanagement durchgeführt. Freshwater ecosystems, already under stress from land-use change and pollution, now face additional pressures from climate change, directly and through interaction with other drivers. Euro-limpacs is concerned with the science required to understand and manage the ecological consequences of these interactions. It is relevant to the EU WFD and other European and wider international directives and protocols and supports the EU's charter on Sustainable Development.Partners and focus The Project brings together a consortium of leading scientists aiming to integrate river, lake and wetland ecosystem science at the catchmentsscale. It focuses on the key drivers of aquatic ecosystem change (land-use, nutrients, acid deposition and toxic substances) and examines their interactions with global, especially climate, change using time-series analysis, space-for-time substitution, palaeolimnology, experiments and process modelling.It considers these interactions at three critical time-scales: - hours/days, concerned with changes in the magnitude and frequency of extreme events; - seasons, concerned with changes in ecosystem function and life-cycle strategies of freshwater biota; - years/decades, concerned with ecological response to environmental pressure, including stress reduction and ecosystem recovery.A central activity is the development of an innovative toolkit for integrated catchmentsanalysis and modelling to simulate hydrological, hydro chemicaland ecological processes at the catchmentsscale for use in assessing the potential impact of global change under different climate and socio-economic scenarios. A unified system of ecological indicators for monitoring freshwater ecosystem health, and new methods for defining reference conditions and restoration strategies will also be developed. These will take into account the probable impacts of future climate change and the need for a holistic approach to restoration based on habitat connectivity.

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SupportProgram

Origin: /Bund/UBA/UFORDAT

Tags: Seen ? Fluss ? Wien ? Klimatologie ? Meteorologie ? Nährstoff ? Süßwasserökosystem ? Umweltauswirkung ? Feuchtgebiet ? Landnutzungsänderung ? Saurer Regen ? Stress ? Süßwasser ? Umweltbelastung ? Zeitreihenanalyse ? Makrozoobenthos ? Süßwasserverunreinigung ? Nachhaltige Entwicklung ? Flächennutzung ? Toxische Substanz ? Limnologie ? Hydrobiologie ? Hydrochemie ? Gewässerschutz ? Aquatisches Ökosystem ? Statistische Analyse ? Ökosystemforschung ? Minderungspotenzial ? Modellierung ? Interdisziplinarität ? Klimafolgen ? Extremwetter ? Ökosystemfunktion ? Hydrologie ? Anthropogener Einfluss ? Globale Aspekte ? Verunreinigung ? Klimawandel ?

License: cc-by-nc-nd/4.0

Language: Deutsch

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Time ranges: 2004-02-01 - 2009-01-31

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