A Magyar Hidrológiai Társaság XXXIX. Országos Vándorgyűlése (Nyíregyháza, 2022. július 6-8.)
4. szekció - Infrastruktúra-fejlesztés - 4. Füstös Vivien - dr. Erős Tibor - dr. Józsa János (BME): A paksi hűtővíz-bevezetés ökohidraulikai értékelése
Reid A.J., Carlson A.K., Creed I.F., Eliason E.J., Gell P.A., Johnson P.T.J., Kidd K.A., MacCormack T.J., Olden J.D., Ormerod S.J., Smol J.P., Taylor W.W., Tockner K., Vermaire J.C., Dudgeon D., Cooke S.J. (2019): Emerging threats and persistent conservation challenges for freshwater biodiversity. Biological Reviews, 94, 849-873. doi:10.1111/brv.12480 Rice S.P., Ferguson R.I., Hoey T.B. (2006): Tributary control of physical heterogeneity and biological diversity at river confluences. Canadian Journal of Fisheries and Aquatic Sciences, 63 (11), 2553-2566. doi:10.1139/f06- 145 Roy P., Rao I.N., Martha T.R., Kumar K.V. (2022): Discharge water temperature assessment of thermal power plant using remote sensing techniques. Energy Geoscience, 3 (2), 172-181. doi:10.1016/j.engeos.2021.06.006 Schiel D.R., Steinbeck J.R., Foster M.S. (2004): Ten years of induced ocean warming causes comprehensive changes in marine benthic communities. Ecology, 85, 1833-1839. doi:10.1890/03-3107 Szalóky Z., György Á.I., Tóth B., Sevcsik A., Specziár A., Csányi B., Szekeres J., Erős T. (2014): Application of an electrified benthic frame trawl for sampling fish in a very large European river (the Danube River) - Is offshore monitoring necessary? Fisheries Research, 151, 12-19. doi:10.1016/j.fishres.2013.12.004 Széchy M.T.M, Koutsoukos V.S., Barboza C.A.M (2017): Long-term decline of brown algal assemblages from southern Brazil under the influence of a nuclear power plant. Ecological Indicators, 80, 258-267. doi:10.1016/j.ecolind.2017.05.019 Szolnoky Cs., Raum L. (1991): Regulation of the thermal loading by Paks Nuclear Power Station. Periodica Polytechnica Civil Engineering, 35 (1-2), 41-50. Teixeira T.P., Neves L.M, Araújo F.G. (2009): Effects of a nuclear power plant thermal discharge on habitat complexity and fish community structure in Ilha Grande Bay, Brazil. Marine Environmental Research, 68 (4), 188-195. doi:10.1016/j.marenvres.2009.06.004 Teixeira T.P., Neves L.M, Araújo F.G. (2012): Thermal impact of a nuclear power plant in a coastal area in Southeastern Brazil: effects of heating and physical structure on benthic cover and fish communities. Hydrobiologia, 684, 161-175. doi:10.1007/s10750-011-0980-1 Vörösmarty C.J., McIntyre P.B., Gessner M.O., Dudgeon D., Prusevich A., Green P., Glidden S., Bunn S.E., Sullivan C.A., Liermann C.R., Davies P.M. (2010): Global threats to human water security and river biodiversity. Nature, 467, 555-561. doi:10.1038/nature09440 Worthington T.A., Shaw P.J., Daffern J.R., Langford T.E.L. (2015): The effects of a thermal discharge on the macroinvertebrate community of a large British river: implications for climate change. Hydrobiologia, 753, 81-95. doi:10.1007/s10750-015-2197-1 Xu D., Wang H., Han D., Chen A., Niu Y. (2021): Phytoplankton community structural reshaping as response to the thermal effect of cooling water discharged from power plant. Environmental Pollution, 285, 117517. doi:10.1016/j.envpol.2021.117517
