Your search found 2 records
1 Butterworth, J. A.; Dziegielewska-Geitz, M.; Wagner, I.; Sutherland, A.; Manning, Nadia; Da Silva, C.; Verhagen, J. 2008. Learning alliances for innovation in urban water management. Paper presented at the thematic workshop Water and Cities at the Water Tribune Expo Zaragoza, Spain, 25-28 July 2008.
(Location: IWMI HQ Call no: IWMI 363.61 G000 BUT Record No: H041563)
http://www.switchurbanwater.eu/outputs/pdfs/WP6-2_PAP_LA_for_innovation_in_UWM.pdf
https://vlibrary.iwmi.org/pdf/H041563.pdf
https://vlibrary.iwmi.org/pdf/H041563.pdf
2 Zalewski, M.; Kiedrzynska, E.; Wagner, I.; Izydorczyk, K.; Boczek, J. M.; Jurczak, T.; Krauze, K.; Frankiewicz, P.; Godlewska, M.; Wojtal-Frankiewicz, A.; Lapinska, M.; Urbaniak, M.; Bednarek, A.; Kaczkowski, Z.; Gagala, I.; Serwecinska, L.; Szklarek, S.; Wlodarczyk-Marciniak, R.; Font-Najera, A.; Mierzejewska, E.; Polatynska-Rudnicka, M.; Belka, K.; Jarosiewicz, P. 2021. Ecohydrology and adaptation to global change. Ecohydrology and Hydrobiology, 17p. (Online first) [doi: https://doi.org/10.1016/j.ecohyd.2021.08.001]
Ecology ; Hydrology ; Ecosystems ; Climate change ; Adaptation ; River basins ; Sustainability ; Biodiversity ; Water quality ; Water management ; Catchment areas ; Reservoirs ; Sewage ; Wastewater treatment plants / Poland
(Location: IWMI HQ Call no: e-copy only Record No: H050579)
(5.25 MB)
Ecohydrology is a transdisciplinary sustainability science based on an understanding of hydrosphere/ecosphere interactions from the molecular to catchment scale, developed within the framework of the UNESCO Intergovernmental Hydrological Programme (UNESCO IHP). This paper introduces a broad range of Ecohydrological Nature-Based Solutions (EH-NBS) that have been developed based on dual regulation considering understanding of reciprocal H B (Hydrogeology Biocenosis) and B H interactions. EH-NBS are particularly effective at reducing various dispersed impacts especially non-point source pollution, which generate up to 50% of nutrient pollution load from the catchment. The importance of methodology, integration of ecological and hydrological disciplines which reduces impact and increases landscape water and nutrients retention and freshwater ecosystem resiliencewhich is becoming important element of Integrated Water Resource Management (IWRM) was also presented. Considering the above, implementation of ecohydrology aims to increase catchment sustainability potential, expressed by water, biodiversity, ecosystem services and resilience (WBSR). Due to the specific nature of dispersed impact generated by human factor in the catchment, it is crucial to engage society through culture and education (CE) to ensure the implementation and long-term efficiency.
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