References
- Basset, A. & Glazier, D.S. (1995). Resource limitation and intraspecific patterns of weight- length variation among spring detrivores. Hydrobiologia 316: 127–137.
- Basset, A. & Rossi, L. (1990). Competitive trophic niche modifications in three populations of detritivores. Functional Ecology 4: 685–693.
- Bij de Vatte, A., Jazdzewski, K., Ketelaars, H., Gollasch, S. & Van der Velde, G. (2002). Geographical patterns in range extensions of macroinvertebrate Ponto-Caspian species in Europe. Can. J. Fish. Aquat. Sci 59: 1159–1174.
- Bäthe, J. & Coring, E. (2011). Biological effects of antropogenic salt-load on the aquatic Fauna: A synthesis of 17 years of biological survey on the rivers Werra and Weser. Limnologica 41: 125–133.
- Calow, P. & Forbes, V.E. (1998). How do physiological responses to stress translate into ecological and evolutionary process? Comparative Biochemistry and Physiology Part A 120: 11–16.
- Carlton, J.T. (1985). Transoceanic and interoceanic dispersal of coastal marine organisms: the biology of ballast water Oceanogr. Mar. Biol. Ann. Rev 23: 313–373.
- Carlton, J.T. & Geller, J.B. (1993). Ecological roulette: the global transport of nonindigenous marine organisms. Science 261: 78–82.
- Chubarenko, I. & Tchepikova, I. (2001). Modelling of man-made contribution to salinity increase into the Vistula Lagoon (Baltic Sea). Ecological Modelling 138: 87–100.
- Dobrzycka-Krahel, A. & Surowiec, J. (2011). Osmoregulation of Pontogammarus robustoides (G.O.Sars) (Amphipoda) and its distribution in the brackish waters of northern Poland. Crustaceana 84: 1755–1767.
- Dobrzycka-Krahel, A., Tarała, A. & Chabowska, A. (2013). Expansion of alien gammarids in the Vistula Lagoon and the Vistula Delta (Poland). Environ. Monit. Assess 185(6): 5165–5175. DOI: 10.1007/s10661-012-2933-1.
- Dobrzycka-Krahel, A. & Graca, B. (2014). Laboratory study of the effect of salinity and ionic composition of water on the mortality and osmoregulation of the gammarid amphipod Dikerogammarus haemobaphes (Eichwald, 1841): implications for understanding its invasive distribution pattern. Mar. Freshwater Behav. Physiol 47(4): 227–238. DOI: 10.1080/10236244.2014.932141.
- Dobrzycka-Krahel, A, Melzer, M. & Majkowski, W. (2015). Range extension of Dikerogammarus villosus (Sowinsky, 1894) in Poland (the Baltic Sea basin) and its ability to osmoregulate in different environmental salinities. Oceanological and Hydrobiological Studies 44(3): 294–304. DOI: 10.1515/ohs-2-15-0028.
- Dobrzycka-Krahel, A., Majkowski, W. & Melzer, M. (2016). Length-weight relationships of Ponto-Caspian gammarids that have overcome the salinity barrier of the southern Baltic Sea coastal waters. Mar. Freshwater Behav. Physiol 49(6): 407–413. DOI: 10.1080/10236244.2016.1244948.
- Dobrzycka-Krahel, A. & Graca, B. (2018). Effect of salinity on the distribution of Ponto- Caspian gammarids in a non- native area – environmental and experimental study. Marine Biology Research 14(2): 183–190. DOI: 10.1080/17451000.2017.1406666.
- Dodd, J.A., Dick, J.T.A., Alexander, M.E., MacNeil, C., Dunn, A.M. et al. (2014). Predicting the ecological impacts of a new freshwater invader: functional responses and prey selectivity of the ‘killer shrimp’, Dikerogammarus villosus compared to the native Gammarus pulex. Freshwater Biology 59(2): 337–352.
- Färber-Lorda, J. (1994). Length-weight relationships and coeffcient of condition of Euphausia superba and Thysanoessa macrura (Crustacea: Euphausiacea) in southwest Indian Ocean during summer. Marine Biology 118: 645–650.
- Grabowska, J. & Grabowski, M. (2005). Diel-feeding activity in early summer of racer goby Neogobius gymnotrachelus (Gobbidea): a new invader in Baltic basin. J. Appl. Ichthyol 21: 282–286.
- Grabowski, M., Konopacka, A., Jazdzewski, K. & Janowska, E. (2006). Invasions of alien gammarid species and retreat of natives in the Vistula Lagoon (Baltic Sea, Poland). Helgoland Marine Research 60(2): 90–97.
- Grabowski, M, Bacela, K. & Konopacka, A. (2007). How to be an invasive gammarid (Amphipoda: Gammaroidea) – comparison of life history traits. Hydrobiologia 590: 75–84.
- Grabowska, J, Grabowski, M. & Kostecka, A. (2009). Diet habits of monkey goby Neogobius fluviatilis in a newly invaded area. Biol. Inv 11: 2161–2170.
- Grabowski, M, Bacela, K, Konopacka, A. & Jazdzewski, K. (2009). Salinity-related distribution of alien amphipods in rivers provides refugia for native species. Biol. Inv 11: 2107–2117.
- Gross, L. (2006). Modeling alien invasions: plasticity may hold the key to prevention. PLOS Biology 4(11): 1888–1890.
- Guerlet, E., Ledy, K. & Giamberini, L. (2008). Is the freshwater gammarid, Dikerogammarus villosus a suitable sentinel species for the implementation of histochemical biomarkers? Chemospere 72: 697–702.
- Jakob, E.M., Marshall, S.D. & Uetz, G.W. (1996). Estimating fitness: a comparison of body condition indices. Oikos 77: 61–67.
- Jacobsen, R. & Forbes, V.E. (1997). Clonal variation in life-history traits and feeding rates in the gastropod, Potamopyrgus antipodarum performance across a salinity gradient. Functional Ecology 11: 260–267.
- Janas, U. (2005). Distribution and individual characteristics of the prawn Palaemon elegans (Crustacea, Decapoda) from the Gulf of Gdansk and the Dead Vistula River. Oceanological and Hydrobiological Studies 34(Supplement 1): 83–91.
- Jazdzewski, K. & Konopacka, A. (2000). Immigration history and present distribution of alien crustaceans in Polish waters, Proc. 4th Int. Crustacean Cong., Brill, Leiden, Vol.2, J. C. von Vaupel Klein & F.R. Schram (Eds). Crustacea Iss 12: 55–64.
- Jazdzewski, K., Konopacka, A. & Grabowski, M. (2002). Four Ponto-Caspian and one American gammarid species (Crustacea, Amphipoda) recently invading Polish waters. Contributions to Zoology 71: 115–122.
- Jazdzewski, K., Konopacka, A. & Grabowski, M. (2004). Recent drastic changes in the gammarid fauna of the Vistula River deltaic system in Poland caused by alien invaders. Diversity & Distributions 10(2): 81–88.
- Jermacz, Ł., Dzierzynska, A., Kakareko, T., Poznanska, M. & Kobak, J. (2015). The art of a choice: predation risk changes interspecific competition between freshwater amphipods. Behavioral Ecology 26(2): 656–664.
- Kinzler, W., Kley, A., Mayer, G., Waloszek, D. & Maier, G. (2009). Mutual predation between and cannibalism within several freshwater gammarids: Dikerogammarus villosus versus one native and three invasive. Aquatic Ecology 43: 457.
- Klekot, L. (1972). Bottom fauna of the Dead Vistula. Polskie Archiwum Hydrobiologii 19: 151–166.
- Klekot, L. (1973). Martwa Wisła zbiornikiem słonawowodnym. Studia i Materiały Oceanologiczne 3: 159–162.
- Konopacka, A. (2004). Inwazyjne skorupiaki obunogie (Crustacea, Amphipoda) w wodach Polski. Przeglad Zoologiczny 48(3–4): 141–162. (In Polish).
- Launiainen, J. & Vihma, T. (1990). Meteorological, ice and water exchange conditions. Second periodic assessment of the state of the marine environment of the Baltic Sea, 1984–1988. Baltic Sea Environment Proceedings 35B: 22–23.
- Leuven, R.S.E.W., Brock, T.C.M. & Druten, H.A. (1985). Effects of preservation on dry and ash free dry weight biomass of some common aquatic macroinvertebrates Hydrobiologia 127: 151–159.
- Lindqvist, O.V. & Lathi, E. (1983). On the sexual dimorphism and condition index in the crayfish, Astacus astacus L., in Finland. Freshw. Crayfish 5: 3–11.
- Malmberg, S.A. & Svansson, A. (1982). Variations in the physical marine environment in relation to climate. ICESCM 1982/ Gen: 4. Mini symposium.
- Matthäus, W. & Schinke, H. (1994). Mean atmospheric circulation patterns associated with major Baltic inflows. Deutsche Hydrographische Zeitschrift 46: 321–339.
- Miyasaka, H., Genkai-Kato, M., Miyake, Y., Kishi, D., Katano, I. et al. (2008). Relationships between length and weight of freshwater macroinvertebrates in Japan. Limnology 9: 75–80.
- Mordukhaj-Boltovskoj, F.D., Greze I.I. & Vasilenko, S.V. (1969). Otrjad amfipody ili raznonogie – Amphipoda Latreille, 1816-1817. In V.A. Vodjanickij V.A. (Ed.), Opredelitel fauny Chernogo i Azovskogo morej. Izd. Naukova Dumka (pp. 440–524) Kiev. (In Russian).
- Morris, D.J., Watkins, J., Ricketts, L.C., Buchholz, F. & Priddle, J. (1988). An assessment of the merits of length and weight measurements of Antarctic krill Euphausia superba. Br. Antarct. Surv. Bull 79: 27–50.
- Nalepa, T.F., Hartson, D.J., Buchanan, J., Cavaletto, J.F., Lang, G.A. et al. (2000). Spatial variation in density, mean size and physiological condition of the Holarctic amphipod Diporeia spp. in Lake Michigan. Freshwater Biology 43: 107–119.
- Panov, V., Alexandrov, B., Arbaciauskas, K., Binimelis, R., Copp, G.H. et al. (2009). Assessing the Risks of Aquatic Species Invasions via European Inland Waterways: From Concepts to Environmental Indicators. Integrated Environmental Assessment and Management 1: 110–126.
- Pauly, D. (1979). Gill size and temperature as governing factors in fish growth: A generalization of Von Bertalanffy’s growth formula. Berichte Institut fur Meereskunde Universitat Kiel 63: 1–156.
- Pauly, D. (2010). Gasping Fish and Panting Squids: Oxygen, Temperature and the Growth of Water-Breathing Animals International Ecology Institute. Oldendorf/Luhe, Germany.
- Peacor, S.D., Allesina, S., Riol, R.L. & Pascual, M. (2006). Phenotypic plasticity opposes species invasions by altering fitness. PLOS Biology 4(11): 2112–2120.
- Petruck, A. & Stöffer, U. (2011). On the history of chloride concentrations in the River Lippe (Germany) and the impact on the macroinvertebrates. Limnologica 41: 143–150.
- Piscart, C., Kefford, B.J. & Beisel, J.N. (2011). Are salinity tolerances of non-native macroinvertebrates in France an indicator of potential for their translocation in a new area? Limnologica 41: 107–112.
- Pruszak, Z., van Ninh, P., Szmytkiewicz, M., Manh Hung, N. & Ostrowski, R. (2005). Hydrology and morphology of two river mouth regions (temperate Vistula Delta and subtropical Red River Delta). Oceanologia 47(3): 365–385.
- Rajasilta, M., Hänninen, J. & Vuorinen, I. (2014). Decreasing salinity improves the feeding conditions of the Baltic herring Clupea harengus membras during spring in the Bothnian Sea, northern Baltic. ICES Journal of Marine Science 1–5.
- Rosati, I., Barbone, E. & Basset, A. (2012). Length-mass relationships for transitional water benthic macroinvertebrates in Mediterranean and Black Sea ecosystems. Estuarine, Coastal and Shelf Science 113: 231–239.
- Siegel, V. (1982). Relationship of various length measurements of Euphausia superba Dana. Meeresforsch 29: 114–117.
- Siegel, V. (1989). Winter and spring distribution and status of the krill stock in Antarctic peninsula waters. Arch. Fisch. Wiss 39: 45–72.
- Sogard, S.M. (1992). Variability in growth rates of juveniles fishes in different estuarine habitats. Marine Ecology Progress Series 85: 35–53.
- Wijnhoven, S., Van der Riel, M.C. & van der Velde, G. (2003). Exotic and indigenous freshwater gammarid species: physiology tolerance to water temperature in relation to ionic content of the water. Aquatic Ecology 37: 151–158.
- Vuorinen, I., Hänninen, J., Viitasalo, M., Helminen, U. & Kuosa, H. (1998). Proportion of copepod biomass declines with decreasing salinity in the Baltic Sea. ICES Journal of Marine Science 55: 767–774.