References

  1. R. Adrian, C.M. O’Reilly, H. Zagarese, S.B. Baines, D.O. Hessen, W. Keller, D.M. Livingstone, R. Sommaruga, D. Straile, E. van Donk, G.A. Weyhenmeyer, M. Winder, Lakes as sentinels of climate change, Limnol. Oceanogr., 54 (2009) 2283–2297.
  2. C.E. Williamson, J.E. Saros, W.F. Vincent, J.P. Smol, Lakes and reservoirs as sentinels, integrators, and regulators of climate change, Limnol. Oceanogr., 54 (2009) 2273–2282.
  3. Ch. Doulgeris, D. Papadimos, J. Kapsomenakis, Impacts of climate change on the hydrology of two Natura 2000 sites in Northern Greece, Reg. Environ. Change, 16 (2016) 1941–1950.
  4. J.M. García-Ruiz, J.I. López-Moreno, S.M. Vicente-Serrano, T. Lasanta–Martínez, S. Beguería, Mediterranean water resources in a global change scenario, Earth Sci. Rev., 105 (2011) 121–139.
  5. M. Milano, D. Ruelland, S. Fernandez, A. Dezetter, J. Fabre, E. Servat, J.-M. Fritsch, S. Ardoin-Bardin, G. Thivet, Current state of Mediterranean water resources and future trends under climatic and anthropogenic changes, Hydrol. Sci. J., 58 (2013) 498–518.
  6. W.F. Vincent, Effects of Climate Change on Lakes, G.E. Likens, Ed., Encyclopedia of Inland Waters, Pollution and Remediation, Elsevier, Oxford, 2009, pp. 55–60.
  7. E. Dimitriou, E. Moussoulis, Hydrological and nitrogen distributed catchment modeling to assess the impact of future climate change at Trichonis Lake, Western Greece, Hydrogeol. J., 18 (2010) 441–454.
  8. S. Fatorić, R. Morén-Alegret, C. Kasimis, Exploring climate change effects in Euro-Mediterranean protected coastal wetlands: the cases of Aiguamolls de l’Empordà, Spain and Kotychi-Strofylia, Greece, Int. J. Sustainable Dev. World, 21 (2014) 346–360.
  9. M. Niedda, M. Pirastru, M. Castellini, F. Giadrossich, Simulating the hydrological response of a closed catchment-lake system to recent climate and land-use changes in semi-arid Mediterranean environment, J. Hydrol., 517 (2014) 732–745.
  10. D. Su, X. Hu, L. Wen, S. Lyu, X. Gao, L. Zhao, Z. Li, J. Du, G. Kirillin, Numerical study on the response of the largest lake in China to climate change, Hydrol. Earth Syst. Sci., 23 (2019) 2093–2109.
  11. Ch. Doulgeris, A. Argyroudi, Contribution to decision-making on establishing the maximum water level for Lake Vegoritida, Lakes Reservoirs, 24 (2019) 24–36.
  12. V. Paraschoudis, Th. Georgakopoulos, X. Stavropoulos, Hydrogeological Study of the Wider Basin of Vegoritida: Hydrogeological Report, Prefectural Self-Administration of Florina, Athens, 2001 (in Greek).
  13. Z.V. Antonopoulos, K.S. Gianniou, Simulation of water temperature and dissolved oxygen distribution in Lake Vegoritis, Greece, Ecol. Modell., 160 (2003) 39–53.
  14. E. Charou, M. Stefouli, D. Dimitrakopoulos, E. Vasiliou, O.D. Mavrantza, Using remote sensing to assess impact of mining activities on land and water resources, Mine Water Environ., 29 (2010) 45–52.
  15. D. Dimitrakopoulos, Water Balance of the Wider Hydrological Catchment of Lake Vegoritida, Proceedings of 2nd Scientific Meeting “Sustainable Development and Environment in Lake Vegoritida”, Association for the Protection of Vegoritida, 19 November 2006, Edessa, Greece (in Greek).
  16. EEA, CORINE Land Cover – Coordination of Information on the Environment, European Environment Agency, Europe, 1995. Available at: https://www.eea.europa.eu/publications/ COR0-landcover
  17. Hellenic Statistical Authority. Available at: http://www. statistics.gr/en/home
  18. National Water Monitoring Network. Available at: http:// nmwn.ypeka.gr/en
  19. Ch. Doulgeris, P. Georgiou, A. Apostolakis, D. Papadimos, D. Zervas, O. Petriki, D. Bobori, D. Papamichail, V. Antonopoulos, C. Farcas, P. Stålnacke, Assessment of the Environmentally Minimum Lake Level Based on Morphological Features, European Water, 58 (2017) 197–202.
  20. Ministry of Development, Development of Water Resources Management Model, Volume II: Water District of Western Macedonia, Project: Water Management Plans of Water Districts - Development of Water Resources Management Systems and Tools of Water Districts of Western Macedonia, Central Macedonia, East Macedonia and Thrace, Athens, Greece, 2007 (in Greek).
  21. G.H. Hargreaves, Z.A. Samani, Estimating potential evapotranspiration, J. Irrig. Drain. Eng., 108-IR3 (1982) 223–230.
  22. D.O. Rosenberry, T.C. Winter, D.C. Buso, G.E. Likens, Comparison of 15 evaporation methods applied to a small mountain lake in the north-eastern USA, J. Hydrol., 340 (2007) 149–166.
  23. N.P.A. Vieira, S.B. Pereira, M.A. Martinez, D.D. da Silva, F.B. Silva, Evaporation estimates for Sobradinho and Tres Marias reservoirs through different methods, J. Braz. Assoc. Agric. Eng., 36 (2016) 433–448.
  24. S.A. Nielsen, E. Hansen, Numerical simulation of the rainfall runoff process on a daily basis, Nord. Hydrol., 4 (1973) 171–190.
  25. Ch. Doulgeris, P. Georgiou, D. Papadimos, D. Papamichail, Ecosystem approach to water resources management using the MIKE 11 modeling system in the Strymonas River and Lake Kerkini, J. Environ. Manage., 94 (2012) 132–143.
  26. Available at: www.dhigroup.com
  27. Ch. Doulgeris, P. Georgiou, D. Papadimos, D. Papamichail, Water allocation under deficit irrigation using MIKE BASIN model for the mitigation of climate change, Irrig. Sci., 33 (2015) 469–482.
  28. P. Samuelsson, C.G. Jones, U. Will´En, A. Ullerstig, S. Gollvik, U. Hansson, E. Jansson, C. Kjellstrom, G. Nikulin, K. Wyser, The Rossby Centre Regional Climate model RCA3: model description and performance, Tellus A Dyn. Meteorol. Oceanogr., 63 (2011) 4–23.
  29. T. Koenigk, L. Brodeau, R.G. Graversen, J. Karlsson, G. Svensson, M. Tjernström, K. Wyser, Arctic climate change in 21st century CMIP5 simulations with EC-Earth, Clim. Dyn., 40 (2013) 2719–2743.
  30. G.M. Martin, N. Bellouin, W.J. Collins, I.D. Culverwell, P.R. Halloran, S.C. Hardiman, T.J. Hinton, C.D. Jones, R.E. McDonald, A.J. McLaren, F.M. O’Connor, M.J. Roberts, J.M. Rodriguez, S. Woodward, M.J. Best, M.E. Brooks, A.R. Brown, N. Butchart, C. Dearden, S.H. Derbyshire, I. Dharssi, M. Doutriaux-Boucher, J.M. Edwards, P.D. Falloon, N. Gedney, L.J. Gray, H.T. Hewitt, M. Hobson, M.R. Huddleston, J. Hughes, S. Ineson, W.J. Ingram, P.M. James, T.C. Johns, C.E. Johnson, A. Jones, C.P. Jones, M.M. Joshi, A.B. Keen, S. Liddicoat, A.P. Lock, A.V. Maidens, J.C. Manners, S.F. Milton, J.G.L. Rae, J.K. Ridley, A. Sellar, C.A. Senior, I.J. Totterdell, A. Verhoef, P.L. Vidale, A. Wiltshire, The HadGEM2 family of Met Office Unified Model climate configurations, Geosci. Model Dev., 4 (2011) 723–757.
  31. W.J. Collins, N. Bellouin, M. Doutriaux-Boucher, N. Gedney, P. Halloran, T. Hinton, J. Hughes, C.D. Jones, M. Joshi, S. Liddicoat, G. Martin, F. O’Connor, J. Rae, C. Senior, S. Sitch, I. Totterdell, A. Wiltshire, S. Woodward, Development and evaluation of an Earth-System model – HadGEM2, Geosci. Model Dev., 4 (2011) 1051–1075.
  32. M.A. Giorgetta, J. Jungclaus, C.H. Reick, S. Legutke, J. Bader, M. Böttinger, V. Brovkin, T. Crueger, M. Esch, K. Fieg, K. Glushak, V. Gayler, H. Haak, H.‐D. Hollweg, T. Ilyina, S. Kinne, L. Kornblueh, D. Matei, T. Mauritsen, U. Mikolajewicz, W. Mueller, D. Notz, F. Pithan, T. Raddatz, S. Rast, R. Redler, E. Roeckner, H. Schmidt, R. Schnur, J. Segschneider, K.D. Six, M. Stockhause, C. Timmreck, J. Wegner, H. Widmann, K.‐H. Wieners, M. Claussen, J. Marotzke, B. Stevens, Climate and carbon cycle changes from 1850 to 2100 in MPI-ESM simulations for the coupled model intercomparison project phase 5, J. Adv. Model. Earth Syst., 5 (2013) 572–597.
  33. L.P. Graham, J. Andréasson, B. Carlsson, Assessing climate change impacts on hydrology from an ensemble of regional climate models, model scales and linking methods — a case study on the Lule River basin, Clim. Change, 81–S1 (2007) 293–307.
  34. B.M. Fiseha, S.G. Setegn, A.M. Melesse, E. Volpi, A. Fiori, Impact of climate change on the hydrology of upper Tiber River Basin using bias corrected regional climate model, Water Resour. Manage., 28 (2014) 1327–1343.
  35. G. Arampatzis, A. Panagopoulos, V. Pisinaras, E. Tziritis, F. Wendland, Identifying potential effects of climate change on the development of water resources in Pinios River Basin, Central Greece, Appl. Water Sci., 8 (2018) 51.
  36. K. Fytianos, H. Muntau, Evaluation of chemical parameters in Lake Vegoritis, Northern Greece, Toxicol. Environ. Chem., 70 (1999) 95–102.
  37. N. Skoulikidis, H. Kaberi, D. Sakellariou, Patterns, origin and possible effects of sediment pollution in a Mediterranean lake, Hydrobiologia, 613 (2008) 71–83.