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Journal articles on the topic 'Echinogammarus ischnus'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Konopacka, Alicja, and Krystyna Jesionowska. "Life History of Echinogammarus Ischnus (Stebbing, 1898) (Amphipoda) From Artificially Heated Lichenskie Lake (Poland)." Crustaceana 68, no. 3 (1995): 341–49. http://dx.doi.org/10.1163/156854095x00520.

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AbstractThe life history of Echinogammarus ischnus was studied in Licheńskie lake, a water basin heated by a big power plant. Results are compared with literature data concerning populations of this species living in its natural habitat.
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2

Palmer, M. E., and Anthony Ricciardi. "Community interactions affecting the relative abundances of native and invasive amphipods in the St. Lawrence River." Canadian Journal of Fisheries and Aquatic Sciences 62, no. 5 (2005): 1111–18. http://dx.doi.org/10.1139/f05-012.

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The Eurasian amphipod Echinogammarus ischnus is reportedly replacing the common native amphipod Gammarus fasciatus in the Great Lakes – St. Lawrence River system. A potential mechanism for this replacement is competition mediated by resident species. Other Eurasian invaders, dreissenid mussels (Dreissena polymorpha and Dreissena bugensis), dominate rocky substrates throughout the system and might be promoting the rapid expansion of E. ischnus by providing habitat and refugia from predation. Using an in-situ predator-exclusion experiment, we tested the hypothesis that E. ischnus is better able than G. fasciatus to use Dreissena spp. colonies as refugia and thus is less susceptible to predators in the St. Lawrence River. Co-occurring E. ischnus and G. fasciatus showed similar increases in density in the presence of Dreissena spp., in spite of E. ischnus having evolutionary experience with Dreissena spp. Predators reduced the density of both amphipod species, but E. ischnus was more susceptible to predation on dreissenid substrates, which suggests that predation mediates the coexistence of G. fasciatus and E. ischnus in the river.
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3

Palmer, M. E., and A. Ricciardi. "Physical factors affecting the relative abundance of native and invasive amphipods in the St. Lawrence River." Canadian Journal of Zoology 82, no. 12 (2004): 1886–93. http://dx.doi.org/10.1139/z04-186.

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The Ponto-Caspian amphipod Echinogammarus ischnus (Stebbing, 1899) is reportedly replacing the North American amphipod Gammarus fasciatus Say, 1818, in the lower Great Lakes, but the two species appear to coexist in the upper St. Lawrence River several years after invasion by E. ischnus. A multi-site survey in the river between Lake Ontario and Montreal (Quebec) found that E. ischnus and G. fasciatus respond differently to substrate characteristics, water chemistry variables, and current velocity. Both species increase in abundance in the presence of dreissenid mussels. However, E. ischnus density is positively correlated with current velocity and an increasing proportion of gravel-sized sediment, while G. fasciatus density is positively correlated with benthic filamentous algal (Cladophora spp.) biomass, macrophyte biomass, and pH. Habitat heterogeneity within the river may be promoting the coexistence of native and exotic amphipods by allowing them to segregate along physicochemical gradients.
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4

Witt, JDS, P. DN Hebert, and W. B. Morton. "Echinogammarus ischnus: another crustacean invader in the Laurentian Great Lakes basin." Canadian Journal of Fisheries and Aquatic Sciences 54, no. 2 (1997): 264–68. http://dx.doi.org/10.1139/f96-292.

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5

Krot, Yu G., A. B. Podruhina, Yu M. Krasiuk, L. S. Kipnis, and M. T. Goncharova. "Physiological Status of Gammarids Echinogammarus ischnus under Decreasing Dissolved Oxygen Concentration." Hydrobiological Journal 57, no. 3 (2021): 55–65. http://dx.doi.org/10.1615/hydrobj.v57.i3.60.

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6

Žganec, Krešimir, Renata Ćuk, and Svjetlana Dekić. "New records of the invasive amphipod Echinogammarus ischnus (Stebbing, 1899) in Croatia." Natura Croatica 24, no. 2 (2015): 247–54. http://dx.doi.org/10.20302/nc.2015.24.15.

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7

Poznańska-Kakareko, Małgorzata, Milena Lis, Tomasz Kakareko, Mateusz Augustyniak, Piotr Kłosiński, and Jarosław Kobak. "Near-shore distribution of alien Ponto-Caspian amphipods in a European dam reservoir in relation to substratum type and occurrence of macroinvertebrate taxa." Knowledge & Management of Aquatic Ecosystems, no. 422 (2021): 5. http://dx.doi.org/10.1051/kmae/2021005.

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Knowledge of habitat requirements and interspecific interactions of invasive species helps predict their impact and spread. We determined the relationships within the invasive freshwater Ponto-Caspian amphipod assemblage, and their associations with macroinvertebrates in the near-shore zone of a central European lowland dam reservoir. We sampled five habitat types: bare sand at the water line, bare sand (0.2 m depth), bare sand (0.5 m depth), macrophyte-overgrown sand (1 m depth), stones (0.3 m depth) on four dates (October 2015–October 2016). Pontogammarus robustoides occurred in all habitats, Dikerogammarus villosus and Echinogammarus ischnus were limited to the stony bottom. Amphipod densities were positively associated with one another except Dikerogammarus juveniles, negatively correlated with adults. The occurrence of D. villosus, juvenile Dikerogammarus and E. ischnus was positively related to the presence of the shelter-forming bivalve Dreissena polymorpha. Pontogammarus robustoides was positively associated with sphaeriid clams and gastropods (shelters), as well as oligochaetes and chironomids (potential prey items). Dikerogammarus villosus and E. ischnus were positively related to chironomids and oligochaetes, respectively. Coexistence of various alien amphipods in the studied area, indicated by prevailing positive relationships in their assemblage, may be enabled by the abundance of shelters and rich food sources allowing habitat partitioning.
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8

Konopacka, Alicja, and Krystyna Jesionowska. "Life History of Echinogammarus Ischnus (Stebbing, 1898) (Amphipoda) From Artificially Heated Lichenskie Lake (Poland)." Crustaceana 68, no. 8 (1995): 341–49. http://dx.doi.org/10.1163/156854095x01466.

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9

Nalepa, Thomas F., Don W. Schloesser, Steve A. Pothoven, et al. "First Finding of the Amphipod Echinogammarus ischnus and the Mussel Dreissena bugensis in Lake Michigan." Journal of Great Lakes Research 27, no. 3 (2001): 384–91. http://dx.doi.org/10.1016/s0380-1330(01)70653-3.

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10

Cristescu, M. E. A., J. D. S. Witt, I. A. Grigorovich, P. D. N. Hebert, and H. J. MacIsaac. "Dispersal of the Ponto-Caspian amphipod Echinogammarus ischnus: invasion waves from the Pleistocene to the present." Heredity 92, no. 3 (2004): 197–203. http://dx.doi.org/10.1038/sj.hdy.6800395.

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11

Limén, Helene, Colin D. A. van Overdijk, and Hugh J. MacIsaac. "Food Partitioning between the Amphipods Echinogammarus ischnus, Gammarus fasciatus, and Hyalella azteca as Revealed by Stable Isotopes." Journal of Great Lakes Research 31, no. 1 (2005): 97–104. http://dx.doi.org/10.1016/s0380-1330(05)70241-0.

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12

Kohn, Jörg, and Arno Waterstraat. "The Amphipod Fauna of Lake Kummerow (Mecklenburg, German Democratic Republic) With Reference To Echinogammarus Ischnus Stebbing, 1899." Crustaceana 58, no. 1 (1990): 74–82. http://dx.doi.org/10.1163/156854090x00787.

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13

Dermott, Ronald, Jonathan Witt, Young M. Um, and Maria González. "Distribution of the Ponto-Caspian Amphipod Echinogammarus ischnus in the Great Lakes and Replacement of Native Gammarus fasciatus." Journal of Great Lakes Research 24, no. 2 (1998): 442–52. http://dx.doi.org/10.1016/s0380-1330(98)70834-2.

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14

Van Overdijk, Colin D. A., Igor A. Grigorovich, Tracy Mabee, William J. Ray, Jan J. H. Ciborowski, and Hugh J. Macisaac. "Microhabitat selection by the invasive amphipod Echinogammarus ischnus and native Gammarus fasciatus in laboratory experiments and in Lake Erie." Freshwater Biology 48, no. 4 (2003): 567–78. http://dx.doi.org/10.1046/j.1365-2427.2003.01041.x.

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15

Bruestle, Eric L., Curtis Karboski, Anna Hussey, et al. "Novel trophic interaction between lake sturgeon (Acipenser fulvescens) and non-native species in an altered food web." Canadian Journal of Fisheries and Aquatic Sciences 76, no. 1 (2019): 6–14. http://dx.doi.org/10.1139/cjfas-2017-0282.

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Lake sturgeon (Acipenser fulvescens) were once abundantly distributed throughout the Laurentian Great Lakes. However, widespread overharvesting and habitat degradation has diminished their numbers. The lower Niagara River contains one of the few remnant lake sturgeon populations in New York State. This study determined the diet of adult lake sturgeon and quantified their trophic position in a food web dominated by non-native species. Stomach content analysis assessed recent diet, and stable isotope analysis (δ15N and δ13C) of blood and fin tissue quantified trophic position and carbon source over varying time scales. Two non-native species dominated the diet of lake sturgeon — the amphipod Echinogammarus ischnus (62% by number) and the round goby (Neogobius melanostomus) (44% by mass). Stable isotope analysis revealed that round goby was the primary contributor to the long-term (i.e., fin) average diet, whereas short-term (i.e., blood) diet was more diverse. In contrast with findings from other systems, we found that adult lake sturgeon in the lower Niagara River were primarily piscivorous, actively targeting live fish prey. The recovery of this population is potentially supported by the high availability of energetically rich but non-native food resources.
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16

González, María J., and Greta A. Burkart. "Effects of Food Type, Habitat, and Fish Predation on the Relative Abundance of Two Amphipod Species, Gammarus fasciatus and Echinogammarus ischnus." Journal of Great Lakes Research 30, no. 1 (2004): 100–113. http://dx.doi.org/10.1016/s0380-1330(04)70333-0.

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17

Vanderploeg, Henry A., Thomas F. Nalepa, David J. Jude, et al. "Dispersal and emerging ecological impacts of Ponto-Caspian species in the Laurentian Great Lakes." Canadian Journal of Fisheries and Aquatic Sciences 59, no. 7 (2002): 1209–28. http://dx.doi.org/10.1139/f02-087.

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We describe, explain, and "predict" dispersal and ecosystem impacts of six Ponto-Caspian endemic species that recently invaded the Great Lakes via ballast water. The zebra mussel, Dreissena polymorpha, and quagga mussel, Dreissena bugensis, continue to colonize hard and soft substrates of the Great Lakes and are changing ecosystem function through mechanisms of ecosystem engineering (increased water clarity and reef building), fouling native mussels, high particle filtration rate with selective rejection of colonial cyanobacteria in pseudofeces, alteration of nutrient ratios, and facilitation of the rapid spread of their Ponto-Caspian associates, the benthic amphipod Echinogammarus ischnus and the round goby, Neogobius melanostomus, which feeds on zebra mussels. The tubenose goby,Proterorhinus marmoratus, which does not feed on zebra mussels, has not spread rapidly. Impacts of these benthic invaders vary with site: in some shallow areas, habitat changes and the Dreissena [Formula: see text] round goby [Formula: see text] piscivore food chain have improved conditions for certain native game fishes and waterfowl; in offshore waters, Dreissena is competing for settling algae with the native amphipod Diporeia spp., which are disappearing to the detriment of the native deep-water fish community. The predatory cladoceran Cercopagis pengoi may compete with small fishes for zooplankton and increase food-chain length.
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18

Kang, Misun, Jan J. H. Ciborowski, and Lucinda B. Johnson. "The Influence of Anthropogenic Disturbance and Environmental Suitability on the Distribution of the Nonindigenous Amphipod, Echinogammarus ischnus, at Laurentian Great Lakes Coastal Margins." Journal of Great Lakes Research 33, sp3 (2007): 198–210. http://dx.doi.org/10.3394/0380-1330(2007)33[198:tioada]2.0.co;2.

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19

Kley, Axel, and Gerhard Maier. "Life history characteristics of the invasive freshwater gammarids Dikerogammarus villosus and Echinogammarus ischnus in the river Main and the Main-Donau canal." Archiv fur Hydrobiologie 156, no. 4 (2003): 457–70. http://dx.doi.org/10.1127/0003-9136/2003/0156-0457.

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20

Jaźdźewski, Krzysztof, and Alicja Konopacka. "Survey and Distribution of Crustacea Malacostraca in Poland." Crustaceana 65, no. 2 (1993): 176–91. http://dx.doi.org/10.1163/156854093x00540.

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AbstractThe paper presents a survey of Polish malacostracan fauna. In two tables the distribution of freshwater and Baltic species is presented according to the regionalization of the country used in "Catalogus Faunae Poloniae". Figures present some interesting distributions of freshwater malacostracan taxa. Own studies as well as the review of ample literature aimed at the preparation of the successive issues of "Catalogus Faunae Poloniae" allowed to present this survey of 121 malacostracan taxa, viz., Bathynellacea - 1 species, Mysidacea - 9, Amphipoda - 50, Isopoda - 47, Tanaidacea - 1, Cumacea - 1, Euphausiacea - 1, Decapoda - 11. In inland waters 31 species and subspecies do occur (Batynellacea - 1, Mysidacea - 1, Amphipoda - 22, Isopoda - 2, Decapoda - 5). In brackish waters of the Baltic Sea and its lagoons- 54 species (Mysidacea - 8, Amphipoda - 24, Isopoda - 12, Tanaidacea - 1, Cumacea - 1, Euphausiacea - 1, Decapoda - 8). Bi-environmental species are Asellus aquaticus and Eriocheir sinensis. The land malacostracan fauna of Poland includes 4 amphipod and 34 isopod (oniscoid) taxa. The Polish malacostracan fauna is composed mainly of species that have invaded this region of Europe in the postglacial period, but the oldest, preglacial elements are subterranean amphipods (niphargids, Crangonyx) and Bathynella natans, occurring only in southern Poland. The earliest postglacial invaders of the Baltic and/or the northern lakes were glacial relict species like the Mysis relicta group, Pallasiola quadrispinosa, Monoporeia affinis and Saduria entomon. The Southern Baltic malacostracan fauna is dominated by Boreal and Arctic/(Subarctic)-boreal elements but one third of this fauna is Mediterranean-boreal or Lusitanian-boreal in origin. Inland waters were probably settled next by Gammarus lacustris, G. pulex, Synurella ambulans, Asellus aquaticus and Astacus astacus, then by later incomers, like Gammarus balcanicus. Canal constructions in the XVIIIth century helped the immigration of Ponto-Caspian elements: Corophium curvispinum and Echinogammarus ischnus. Intentionally introduced to Polish waters are Astacus leptodactylus, Orconectes limosus and Pacifastacus leniusculus; unintentionally brought along were Eriocheir sinensis and Rhithropanopeus harrisii tridentatus, as well as Talitroides alluaudi and Trichorhina tomentosa to some greenhouses.
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