MONOCULUSCopepod Newsletter - World Association of ...

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Calanoida): The role of lake depth, temperature, oxygenconcentration and light intensity. International Review ofHydrobiology 90(3):292-309.Kawakami, T. & K. Tachihara. 2005. Diet shift of larval andjuvenile landlocked Ryukyu-ayu Plecoglossus altivelisryukyuensis in the Fukuji Reservoir, Okinawa Island,Japan. Fisheries Science 71(5):1003-1009.Kehayias, G., E. Michaloudi & E. Koutrakis. 2005. Feedingand predation impact of chaetognaths in the northAegean Sea (Strymonikos and Ierissos Gulfs). Journal ofthe Marine Biological Association of the UnitedKingdom 85(6):1525-1532.Keister, J.E., T.B. Johnson, C.A. Morgan & W.T. Peterson.2005. Biological indicators of the timing and direction ofwarm-water advection during the 1997/1998 El Niño offthe central Oregon coast, USA. Marine Ecology ProgressSeries 295:43-48.Kemp, W.M., W.R. Boynton, J.E. Adolf, D.F. Boesch, W.C.Boicourt, G. Brush, J.C. Cornwell, T.R. Fisher, P.M.Glibert, J.D. Hagy, L.W. Harding, E.D. Houde, D.G.Kimmel, W.D. Miller, R.I.E. Newell, M.R. Roman, E.M.Smith & J.C. Stevenson. 2005. Eutrophication ofChesapeake Bay: historical trends and ecologicalinteractions. Marine Ecology Progress Series 303:1-29.Kharchenko, T.A. 2005. Biodiversity of the Ponto-Caspianrelict fauna in the Danube Basin (Review).Hydrobiological Journal 117(2):57-79.Kihara, T.C., C.E.F. Rocha & C. Santos. 2005. A newspecies of Catinia Bocquet & Stock, 1957 (Copepoda,Catiniidae) associated with mud shrimps, Axianassaaustralis Rodrigues & Shimizu, 1992 (Decapoda,Thalassinidea, Laomediidae), from Brazil. Zootaxa1039:39-55.Kimmerer, W.J., N. Ferm, M.H. Nicolini & C. Peñalva.2005. Chronic food limitation of egg production inpopulations of copepods of the genus Acartia in the SanFrancisco Estuary. Estuaries 28(4):541-550.Kiørboe, T. & E. Bagøien. 2005. Motility patterns and mateencounter rates in planktonic copepods. Limnology andOceanography 50(6):1999-2007.Kiørboe, T., E. Bagøien & U.H. Thygesen. 2005. Blinddating - mate finding in planktonic copepods. II. Thepheromone cloud of Pseudocalanus elongatus. MarineEcology Progress Series 300:117-128.Kleppel, G.S., S.E. Hazzard & C.A. Burkart. 2005.Maximizing the nutritional values of copepods inaquaculture: managed versus balanced nutrition. Pp. 49-60 In: Lee, C.-S., P. O’Bryen & N. Marcus (eds.).Copepods in Aquaculture. Blackwell Publishing, Oxford,U.K. 352 pp.Knopf, K. & F. Holker. 2005. First report of Philometraobturans (Nematoda) and Neoergasilus japonicus(Copepoda) in Germany. Acta Parasitologica 50(3):261-262.Knuckey, R.M., G.L. Semmens, R.J. Mayer & M.A.Rimmer. 2005. Development of an optimal microalgal28diet for the culture of the calanoid copepod Acartiasinjiensis: Effect of algal species and feed concentrationon copepod development. Aquaculture 249(1-4):339-351.Köhler, J., S. Hilt, R. Adrian, A. Nicklisch, H.P. Kozerski &N. Walz. 2005. Long-term response of a shallow,moderately flushed lake to reduced external phosphorusand nitrogen loading. Freshwater Biology 50(10):1639-1650.Kolstad, K., P.A. Heuch, B. Gjerde, T. Gjedrem & R. Salte.2005. Genetic variation in resistance of Atlantic salmon(Salmo salar) to the salmon louse Lepeophtheirussalmonis. Aquaculture 247(1-4):145-151.Koppelmann, R. & H. Weikert. 2005. Temporal and verticaldistribution of two ecologically different calanoidcopepods (Calanoides carinatus Krøyer 1849 andLucicutia grandis Giesbrecht 1895) in the deep waters ofthe central Arabian Sea. Marine Biology 147(5):1173-1178.Koppelmann, R., H. Zimmermann-Timm & H. Weikert.2005. Bacterial and zooplankton distribution in deepwaters of the Arabian Sea. Deep Sea Research Part I:Oceanographic Research Papers 52(11):2184-2192.Koschmieder, N. 2005. Informationen zum Zooplankton desStrelasundes. Information about the zooplankton of theStrelasund. Meer und Museum 18:106-110, 214. [InGerman.]Koski, M., J. Dutz & W.C.M. Klein Breteler. 2005.Selective grazing of Temora longicornis in differentstages of a Phaeocystis globosa bloom—a mesocosmstudy. Harmful Algae 4(5):915-927.Koski, M., T. Kiørboe & K. Takahashi. 2005. Benthic life inthe pelagic: Aggregate encounter and degradation ratesby pelagic harpacticoid copepods. Limnology andOceanography 50(4):1254-1263.Köster, F.W., C. Möllmann, H.-H. Hinrichsen, K. Wieland,J. Tomkiewicz, G. Kraus, R. Voss, A. Makarchouk, B.R.MacKenzie, M.A. St. John et al. 2005. Baltic codrecruitment – the impact of climate variability on keyprocesses. ICES Journal of Marine Science 62(7):1408-1425.Krell, A., S.B. Schnack-Schiel, D.N. Thomas, G. Kattner, Z.Wang & G.S. Dieckmann. 2005. Phytoplanktondynamics in relation to hydrography, nutrients andzooplankton at the onset of sea ice formation in theeastern Weddell Sea (Antarctica). Polar Biology28(9):700-713.Kremer, P. 2005. Ingestion and elemental budgets forLinuche unguiculata, a scyphomedusa withzooxanthellae. Journal of the Marine BiologicalAssociation of the United Kingdom 85(3):613-625.Krkošek, M., M.A. Lewis & J.P. Volpe. 2005. Transmissiondynamics of parasitic sea lice from farm to wild salmon.Proceedings of the Royal Society, Series B, BiologicalSciences 272(1564):689-696. [Corrected reference]
Krśinić, F. 2005. Speleohvarella gamulini gen. et sp. nov., anew copepod (Calanoida, Stephidae) from an anchialinecave in the Adriatic Sea. Journal of Plankton Research27(6):607-615.Kršinic, F. 2005. Badijella jalzici – a new genus and speciesof calanoid copepod (Calanoida, Ridgewayiidae) from ananchialine cave on the Croatian Adriatic coast. MarineBiology Research (Formerly Sarsia and Ophelia)1(4):281-289.Kübar, K., H. Agasild, T. Virro & I. Ott. 2005. Verticaldistribution of zooplankton in a strongly stratifiedhypertrophic lake. Hydrobiologia 547(1):151-162.Kurbatova, S. 2005. Response of microcosm zooplankton toacidification. Biology Bulletin of the Russian Academyof Sciences 32(1):85-92.Kurbatova, S.A. 2005. [Response of microcosm zooplanktonto acidification.] Izvestiya Rossiiskoi Akademii Nauk,Seriya Biologicheskaya 2005(1):100-108. [In Russian;English translation in Biology Bulletin 32(1):85-92.]Kurovskaya, L.Ya. 2005. Effect of Violet C antiseptic on thenumbers of ectoparasites and some physiological andbiochemical indices of carps. Hydrobiological Journal41(2):95-102.Kuwata, A. & A. Tsuda. 2005. Selection and viability afteringestion of vegetative cells, resting spores and restingcells of the marine diatom, Chaetocerospseudocurvisetus, by two copepods. Journal ofExperimental Marine Biology and Ecology 322(2):143-151.Kvamme, B.O., H. Kongshaug & F. Nilsen. 2005.Organisation of trypsin genes in the salmon louse(Lepeophtheirus salmonis, Crustacea, Copepoda)genome. Gene 352:63-74.Kwok, K.W.H. & K.M.Y. Leung. 2005. Toxicity ofantifouling biocides to the intertidal harpacticoidcopepod Tigriopus japonicus (Crustacea, Copepoda):effects of temperature and salinity. Marine PollutionBulletin 51(8-12):830-837.Lampadariou, N., I. Karakassis, S. Teraschke & G. Arlt.2005. Changes in benthic meiofaunal assemblages in thevicinity of fish farms in the eastern Mediterranean. Vie etMilieu 55(2):61-69.Lancelot, C., Y. Spitz, N. Gypens, K. Ruddick, S.Becquevort, V. Rousseau, G. Lacroix & G. Billen.2005. Modelling diatom and Phaeocystis blooms andnutrient cycles in the Southern Bight of the North Sea:the MIRO model. Marine Ecology Progress Series289:63-78.Laugaste, R. & J. Haberman. 2005. Seasonality of zoo- andphytoplankton in Lake Peipsi (Estonia) as a function ofwater temperature. Proceedings of the Estonian Academyof Sciences, Biology, Ecology 54(1):18-39.Lee, C.-S., P. O’Bryen & N. Marcus (eds.). 2005. Copepodsin Aquaculture. Blackwell Publishing, Oxford, U.K. 352pp.Lee, K.H., K.-H. Chung, S.-H. Kang & W. Lee. 2005. Studyon the community structure of sublittoral meiofauna inthe Barents Sea in summer 2002, Arctic Ocean. KoreanJournal of Environmental Biology 23(3):257-268.Lee, J.M. & C.Y. Chang. 2005. Harpacticoid copepods ofgenus Onychocamptus (Laophontidae) from Korea.Korean Journal of Systematic Zoology 21(1):31-43.Lee, J.M., J.M. Jeon & C.Y. Chang. 2005. Taxonomy ongenus Mesocyclops (Copepoda: Cyclopoida: Cyclopidae)from South Korea. Korean Journal of SystematicZoology 21(1):93-110.Lee, O., R.D.M. Nash & B.S. Danilowicz. 2005. Small-scalespatio-temporal variability in ichthyoplankton andzooplankton distribution in relation to a tidal-mixingfront in the Irish Sea. ICES Journal of Marine Science62(6):1021-1036.Lee, Y.-M., I.-C. Kim, S.-O. Jung & J.-S. Lee. 2005.Analysis of 686 expressed sequence tags (ESTs) fromthe intertidal harpacticoid copepod Tigriopus japonicus(Crustacea, Copepoda). Marine Pollution Bulletin 51(8-12):757-768.Leech, D.M., A. Padeletti & C.E. Williamson. 2005.Zooplankton behavioral responses to solar UV radiationvary within and among lakes. Journal of PlanktonResearch 27(5):461-471.Lehman, P.W., G. Boyer, C. Hall, S. Waller & K. Gehrts.2005. Distribution and toxicity of a new colonialMicrocystis aeruginosa bloom in the San Francisco BayEstuary, California. Hydrobiologia 541(1):87-99.Lehtiniemi, M., J. Engstrom-Ost & M. Viitasalo. 2005.Turbidity decreases anti-predator behaviour in pikelarvae, Esox lucius. Environmental Biology of Fishes73(1):1-8.Leising, A.W., R.A. Horner, J.J. Pierson, J. Postel & C.Halsband-Lenk. 2005. The balance betweenmicrozooplankton grazing and phytoplankton growth ina highly productive estuarine fjord. Progress inOceanography 67(3-4):366-383.Leising, A.W., J.J. Pierson, C. Halsband-Lenk, R.A. Horner& J. Postel. 2005. Copepod grazing during springblooms: Does Calanus pacificus avoid harmful diatoms?Progress in Oceanography 67(3-4):384-405.Leising, A.W., J.J. Pierson, C. Halsband-Lenk, R.A. Horner& J. Postel. 2005. Copepod grazing during springblooms: Can Pseudocalanus newmani induce trophiccascades? Progress in Oceanography 67(3-4):406-421.Lenz, P., A.E. Hower & D.K. Hartline. 2005. Temperaturecompensation in the escape response of a marinecopepod, Calanus finmarchicus (Crustacea). BiologicalBulletin - Marine Biological Laboratory 209(1):75-85.Lévêque, C., E.V. Balian & K. Martens. 2005. Anassessment of animal species diversity in continentalwaters. Hydrobiologia 542(1):39-67.Levine, S.N., R.F. Zehrer & C.W. Burns. 2005. Impact ofresuspended sediment on zooplankton feeding in Lake29
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