Coupled hydrological and hydrodynamic modelling application for climate change impact assessment in the Nemunas River watershed–Curonian Lagoon–south-eastern Baltic Sea continuum
Abstract:Abstract. We analyse the cumulative impacts of climate change in a complex basin-lagoon-sea system continuum, which covers the Nemunas River basin, Curonian Lagoon, and the south-eastern part of the Baltic Sea. A unique state-of-the-art coupled modelling system, consisting of hydrological and hydrodynamic models, has been developed and used for this purpose. Results of four regional downscaled models from the Rossby Centre high-resolution regional atmospheric climate model have been bias-corrected using in sit… Show more
“…Sea surface temperatures were projected to increase by 1–5 °C and salinity to decrease with up to 2.2 g kg −1 over the next 30–60 years in the three scenarios. Similar results for temperature and salinity were found for the shallow Curonian Lagoon influenced by large river discharges and low water exchange with the Baltic Sea [ 79 ]. Model projections of the Baltic Sea and North Sea likewise showed a sea water warming of 2–5 °C by the end of 2100 [ 80 , 81 ].…”
Section: Discussionsupporting
confidence: 81%
“…Relay of suspended mussels onto the seafloor as artificial mussel beds is a new production mode, but it is not clear to what extent this will expand to support the future fishery. Previous studies have shown that system responses to climate change are more variable in coastal systems than for open waters due to the more complex geomorphology and influence by freshwater sources [ 5 , 40 , 79 ]. Hence, localized model set-ups and scenarios are needed for coastal ecosystems to achieve more realistic outcomes with higher relevance for the local community.…”
“…Sea surface temperatures were projected to increase by 1–5 °C and salinity to decrease with up to 2.2 g kg −1 over the next 30–60 years in the three scenarios. Similar results for temperature and salinity were found for the shallow Curonian Lagoon influenced by large river discharges and low water exchange with the Baltic Sea [ 79 ]. Model projections of the Baltic Sea and North Sea likewise showed a sea water warming of 2–5 °C by the end of 2100 [ 80 , 81 ].…”
Section: Discussionsupporting
confidence: 81%
“…Relay of suspended mussels onto the seafloor as artificial mussel beds is a new production mode, but it is not clear to what extent this will expand to support the future fishery. Previous studies have shown that system responses to climate change are more variable in coastal systems than for open waters due to the more complex geomorphology and influence by freshwater sources [ 5 , 40 , 79 ]. Hence, localized model set-ups and scenarios are needed for coastal ecosystems to achieve more realistic outcomes with higher relevance for the local community.…”
Abstract. We analyse the cumulative impacts of climate change in a complex basin–lagoon–sea system continuum, which covers the Nemunas river basin, Curonian Lagoon, and the southeastern part of the Baltic Sea. A unique, state-of-the-art coupled modelling system was developed using hydrological and hydrodynamic models. The results of four regional downscaled models from the Rossby Centre high-resolution regional atmospheric climate model have been bias-corrected using in situ measurements and were used as forcing to assess the changes that the continuum will undergo until the end of this century. Results show that the Curonian Lagoon will be subjected to higher river
discharges that in turn increase the outgoing fluxes into the Baltic Sea.
Through these higher fluxes, both the water residence time and saltwater
intrusion into the lagoon event frequency will decrease. Most of these
changes will be more pronounced in the northern part of the lagoon, which is more likely to be influenced by the variations in the Nemunas river
discharge. Its delta area may be susceptible to flooding as a result of the
elevated discharge during winter. The southern part of the lagoon will
experience lesser changes. While water temperatures in the entire lagoon and the southeastern Baltic Sea will steadily increase and salinity will
decrease, the foreseen changes in the physical characteristics will not cause significant shifts in the ecosystem functioning but may affect the nutrient retention capacity. However, some ecosystem services such as ice fishing are expected to vanish completely due to the loss of ice cover.
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