Das Bundesministerium für Bildung und Forschung (BMBF) hat im Jahr 2015 die Fördermaßnahme „Regionales Wasserressourcen-Management für den nachhaltigen Gewässerschutz (ReWaM)“ auf den Weg gebracht. Insgesamt förderte das BMBF 15 Verbundprojekte und ein begleitendes Vernetzungs- und Transfervorhaben. Der Förderzeitraum endete jeweils nach drei Jahren in 2018 bzw. 2019. ReWaM ist Teil des BMBF-Förderschwerpunkts „Nachhaltiges Wasser-management (NaWaM)“ im Rahmenprogramm „Forschung für Nachhaltige Entwicklung (FONA3)“. Alle ReWaM-Projekte adressieren die vielfältigen Herausforderungen des regionalen Wasserressourcen-Managements in Regionen mit Modellcharakter. In der ReWaM-Produktbibliothek können Sie nach Publikationen und Ergebnissen aus ReWaM recherchieren. Neben der Wasserrahmenrichtlinie und der Hochwasserrisikomanagement-Richtlinie gibt es eine Vielzahl wasserbezogener Richtlinien, die den Umgang mit den Wasserressourcen sowie deren Bewirtschaftung und Nutzung vorgeben. Ziel von ReWaM war es, Wege zu untersuchen und aufzuzeigen, wie sich verschiedene Nutzungsformen und Rahmenbedingungen von Gewässern mit ihrem Schutz in Einklang bringen lassen, um die Vielfalt und Leistungsfähigkeit der unterschiedlichen Gewässerökosysteme dauerhaft zu erhalten. Dies betraf sowohl ländliche, stadtnahe als auch urbane Regionen. Die Verbundprojekte bearbeiteten dabei ein breites Themenspektrum von der Gewässerentwicklung und Wasserbewirtschaftung, über Gewässermonitoring und gewässerökologischen Bewertungsverfahren bis zum Management der Wasserqualität. Projektübersicht: In_StröHmunG, KOGGE, NiddaMan, StucK, WaSiG, BOOT-Monitoring, HyMoBioStrategie, RiverView, GroundCare, RESI, CYAQUATA, FLUSSHYGIENE, MUTReWa, PhosWaM, SEEZEICHEN
A marine physical biogeochemical model simulation was performed with the model MOM-ERGOM for the years 1985 to 2014 covering the Baltic Sea. Previously, MOM-ERGOM had been initialized for several decades. The model output has been validated with measurement data of the "IOW Baltic Monitoring and long-term data program" (https://www.io-warnemuende.de/iowdb.html) and from the HELCOM database (http://ocean.ices.dk/helcom/Helcom.aspx). The years 1995 to 2014 are available here. The model simulation was forced by coastDat2 COSMO-CLM data (doi: 10.1594/WDCC/coastDat-2_COSMO-CLM). Riverine phosphorus input of the Warnow River was calculated with the Soil & Water Assessment Tool (SWAT; Bauwe et al., 2019, doi: 10.1016/j.ecohyd.2019.03.003). Phosphorus from the Warnow River has been tagged in the model simulation according to a method by Menésguen et al. (2006, 10.4319/lo.2006.51.1_part_2.0591). Therefore, all phosphorus-containing model variables exist twice in the output: once as regular variables and once as tagged variable. The default phosphorus input by the Warnow River based on real phosphorus release patterns and real atmospheric conditions was used (PhosWaM SWAT case "ist"). The turnover of phosphorus compounds in the Unterwarnow was calculated based on the “Unterwarnow turnover estimation v04” (see final project report of PhosWaM for details).The work was performed within the project PhosWaM funded by the German Federal Ministry of Education and Research (BMBF, FKZ 033W042, https://www.phoswam.de). PhosWaM is one of 15 joint research projects in the funding measured ReWaM of the funding priority NaWaM in BMBF framework program FONA (details in the project description). The simulation was performed at the North-German Supercomputing Alliance (HLRN). The model output data were processed and evaluated on servers provided by the project 'PROSO - Prozesse von Spurenstoffen in der Ostsee' (FKZ 03F0779A).
A marine physical biogeochemical model simulation was performed with the model MOM-ERGOM for the years 1985 to 2014 covering the Baltic Sea. Previously, MOM-ERGOM had been initialized for several decades. The model output has been validated with measurement data of the "IOW Baltic Monitoring and long-term data program" (https://www.io-warnemuende.de/iowdb.html) and from the HELCOM database (http://ocean.ices.dk/helcom/Helcom.aspx). The years 1995 to 2014 are available here. The model simulation was forced by coastDat2 COSMO-CLM data (doi: 10.1594/WDCC/coastDat-2_COSMO-CLM). Riverine phosphorus input of the Warnow River was calculated with the Soil & Water Assessment Tool (SWAT; Bauwe et al., 2019, doi: 10.1016/j.ecohyd.2019.03.003). Phosphorus from the Warnow River has been tagged in the model simulation according to a method by Menésguen et al. (2006, 10.4319/lo.2006.51.1_part_2.0591). Therefore, all phosphorus-containing model variables exist twice in the output: once as regular variables and once as tagged variable. The default phosphorus input by the Warnow River based on real phosphorus release patterns and real atmospheric conditions was used (PhosWaM SWAT case "ist"). The turnover of phosphorus compounds in the Unterwarnow was calculated based on the “Unterwarnow turnover estimation v04” (see final project report of PhosWaM for details).The work was performed within the project PhosWaM funded by the German Federal Ministry of Education and Research (BMBF, FKZ 033W042, https://www.phoswam.de). PhosWaM is one of 15 joint research projects in the funding measured ReWaM of the funding priority NaWaM in BMBF framework program FONA (details in the project description). The simulation was performed at the North-German Supercomputing Alliance (HLRN). The model output data were processed and evaluated on servers provided by the project 'PROSO - Prozesse von Spurenstoffen in der Ostsee' (FKZ 03F0779A).
A marine physical biogeochemical model simulation was performed with the model MOM-ERGOM for the years 1985 to 2014 covering the Baltic Sea. Previously, MOM-ERGOM had been initialized for several decades. The model output has been validated with measurement data of the "IOW Baltic Monitoring and long-term data program" (https://www.io-warnemuende.de/iowdb.html) and from the HELCOM database (http://ocean.ices.dk/helcom/Helcom.aspx). The years 1995 to 2014 are available here. The model simulation was forced by coastDat2 COSMO-CLM data (doi: 10.1594/WDCC/coastDat-2_COSMO-CLM). Riverine phosphorus input of the Warnow River was calculated with the Soil & Water Assessment Tool (SWAT; Bauwe et al., 2019, doi: 10.1016/j.ecohyd.2019.03.003). Phosphorus from the Warnow River has been tagged in the model simulation according to a method by Menésguen et al. (2006, 10.4319/lo.2006.51.1_part_2.0591). Therefore, all phosphorus-containing model variables exist twice in the output: once as regular variables and once as tagged variable. The phosphorus input by the Warnow River based on real phosphorus release patterns and real atmospheric conditions was modified in order to comply with BASP (Baltic Sea Action Plan) targets (PhosWaM SWAT case "15"). The turnover of phosphorus compounds in the Unterwarnow was calculated based on the "Unterwarnow turnover estimation v04" (see final project report of PhosWaM for details).The work was performed within the project PhosWaM funded by the German Federal Ministry of Education and Research (BMBF, FKZ 033W042, https://www.phoswam.de). PhosWaM is one of 15 joint research projects in the funding measured ReWaM of the funding priority NaWaM in BMBF framework program FONA (details in the project description). The simulation was performed at the North-German Supercomputing Alliance (HLRN). The model output data were processed and evaluated on servers provided by the project 'PROSO - Prozesse von Spurenstoffen in der Ostsee' (FKZ 03F0779A).
A marine physical biogeochemical model simulation was performed with the model MOM-ERGOM for the years 1985 to 2014 covering the Baltic Sea. Previously, MOM-ERGOM had been initialized for several decades. The model output has been validated with measurement data of the "IOW Baltic Monitoring and long-term data program" (https://www.io-warnemuende.de/iowdb.html) and from the HELCOM database (http://ocean.ices.dk/helcom/Helcom.aspx). The years 1995 to 2014 are available here. The model simulation was forced by coastDat2 COSMO-CLM data (doi: 10.1594/WDCC/coastDat-2_COSMO-CLM). Riverine phosphorus input of the Warnow River was calculated with the Soil & Water Assessment Tool (SWAT; Bauwe et al., 2019, doi: 10.1016/j.ecohyd.2019.03.003). Phosphorus from the Warnow River has been tagged in the model simulation according to a method by Menésguen et al. (2006, 10.4319/lo.2006.51.1_part_2.0591). Therefore, all phosphorus-containing model variables exist twice in the output: once as regular variables and once as tagged variable. The phosphorus input by the Warnow River based on real phosphorus release patterns and real atmospheric conditions was calculated and a Maximum Technical Feasible Reduction (MTFR) approach was applied (PhosWaM SWAT case "35"). The turnover of phosphorus compounds in the Unterwarnow was calculated based on the "Unterwarnow turnover estimation v04" (see final project report of PhosWaM for details).The work was performed within the project PhosWaM funded by the German Federal Ministry of Education and Research (BMBF, FKZ 033W042, https://www.phoswam.de). PhosWaM is one of 15 joint research projects in the funding measured ReWaM of the funding priority NaWaM in BMBF framework program FONA (details in the project description). The simulation was performed at the North-German Supercomputing Alliance (HLRN). The model output data were processed and evaluated on servers provided by the project 'PROSO - Prozesse von Spurenstoffen in der Ostsee' (FKZ 03F0779A).