Anastassi Stefanova scite author profile

Coastal areas will be exposed to increasing risks over coming decades due to climate change and sealevel rise. Our study focuses on the Vistula Lagoon located in the south Baltic, whose water regime and ecological status are highly dependent on the river inflow coming from its catchment. Changes in climate may cause variations in water quantity and quality in the rivers and affect the ecological and socioeconomic potential of the lagoon. The climate impact study in this catchment containing more than 20 rivers is challenging as only a few of them are gauged. The impacts were modelled, using the ecohydrological model SWIM, and applying a set of 15 climate scenarios from the ENSEMBLES project. Scenario analysis revealed a projected overall increase in precipitation, as well as in temperature, for the Vistula Lagoon catchment, which cause diverse changes in discharge, water temperature, dissolved nutrient concentrations and loads coming from the rivers.

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Combined Impacts of Medium Term Socio-Economic Changes and Climate Change on Water Resources in a Managed Mediterranean Catchment

Stefanova

Hesse

Krysanova

2015

Water

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Abstract:Climate projections agree on a dryer and warmer future for the Mediterranean. Consequently, the region is likely to face serious problems regarding water availability and quality in the future. We investigated potential climate change impacts, alone (for three scenario periods) and in combination with four socio-economic scenarios (for the near future) on water resources in a Mediterranean catchment, whose economy relies on irrigated agriculture and tourism. For that, the Soil and Water Integrated Model (SWIM) was applied to the drainage area of the Mar Menor coastal lagoon, using a set of 15 climate scenarios and different land use maps and management settings. We assessed the long-term average seasonal and annual changes in generated runoff, groundwater recharge and actual evapotranspiration in the catchment, as well as on water inflow and nutrients input to the lagoon. The projected average annual changes in precipitation are small for the first scenario period, and so are the simulated impacts on all investigated components, on average. The negative trend of potential climate change impacts on water resources (i.e., decrease in all analyzed components) becomes pronounced in the second and third scenario periods. The applied socio-economic scenarios intensify, reduce or even reverse the climate-induced impacts, depending on the assumed land use and management changes. OPEN ACCESSWater 2015, 7 1539

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Assessment of Socio-Economic and Climate Change Impacts on Water Resources in Four European Lagoon Catchments

Stefanova

Hesse

Krysanova

et al. 2019

Environmental Management

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This study demonstrates the importance of considering potential land use and management changes in climate impact research. By taking into account possible trends of economic development and environmental awareness, we assess effects of global warming on water availability and quality in the catchments of four European lagoons: Ria de Aveiro (Portugal), Mar Menor (Spain), Vistula Lagoon (Poland and Russia), and Tyligulskyi Liman (Ukraine). Different setups of the process-based soil and water integrated model (SWIM), representing one reference and four socio-economic scenarios for each study area: the “business as usual”, “crisis”, “managed horizons”, and “set-aside” scenarios are driven by sets of 15 climate scenarios for a reference (1971–2000) and near future (2011–2040) scenario period. Modeling results suggest a large spatial variability of potential impacts across the study areas, due to differences in the projected precipitation trends and the current environmental and socio-economic conditions. While climate change may reduce water and nutrients input to the Ria de Aveiro and Tyligulsyi Liman and increase water inflow to the Vistula Lagoon the socio-economic scenarios and their implications may balance out or reverse these trends. In the intensely managed Mar Menor catchment, climate change has no notable direct impact on water resources, but changes in land use and water management may certainly aggravate the current environmental problems. The great heterogeneity among results does not allow formulating adaptation or mitigation measures at pan-European level, as initially intended by this study. It rather implies the need of a regional approach in coastal zone management.

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