Fertility of Eudiaptomus, Bosmina and Daphnia [Crustacea] representatives in lakes of varied trophic states in the Suwalki District

• Autorzy: Czeczuga B , Kozlowska M.
• Języki publikacji: EN

Abstrakty

EN

In the years 1996-1999the authors studied fertility of females of seven zooplankton crustacean species of the genus Eudiaptomus (2 species), Bosmina (4) and Daphnia (1) in six lakes of various trophic states from oligotrophic (Lake Białe) to distrophic (Lake Konopniak and Lake Suchar Zachodni) in the Suwałki District. Water samples were collected every three months at the same sites to analyse 20 physico-chemical parameters. Chlorophyll a and b and carotenoids were evaluated as the food content indices in phytoplankton as a whole and separately in cells smaller than 50 mm. The study has revealed that the highest female fertility in Copepoda representatives (genus Eudiaptomus) occurs in spring, while in Cladocera individuals (genus Bosmina and Daphnia) – in summer. Generally, both in Copepoda and Cladocera representatives the number of laid eggs increases and their size decreases with the rise in lake trophic state.

Słowa kluczowe

EN

Bosmina; fertility; trophic status; carotenoid; Crustacea; chlorophyll; lake; zooplankton; Suwalki district; hydrochemistry; plankton organism; Daphnia; Eudiaptomus

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2002
• Tom: 11
• Numer: 1
• Opis fizyczny: p.23-31,fig.

Twórcy

autor

Czeczuga B

• Medical University, Kilinskiego 1, 15-300 Bialystok, Poland

autor

Kozlowska M.

Bibliografia

• 1. TAMMINEN T., KUOSA H. (eds). Eutrophication in planktonic ecosystems: food web dynamics and elemental cycling. Enfield ± Plymouth, Science Publishers Inc., pp. 356, 1998.
• 2. WEIDER I.W., LAMPERT W., WESSELS M., COLBOURNE J.K., LIMBURG P. Longterm genetic shifts in a microcrustacean egg bank associated with anthropogenic changes in the Lake Constance ecosystem. Proc. R. Soc. London B 264, 1613, 1997.
• 3. HUTCHINSON G.E. Copepodology for the ornithologist. Ecology 32, 571, 1951.
• 4. RØEN U. On the number of eggs in some free-living freshwater copepods. Biol. Dansk. Vidensk. Selsk. 12, 447, 1955.
• 5. RAVERA O., TONOLLI V. Body size and number of eggs diaptomids as related to water renoval in monntain lakes. Limnol. Oceanogr. 1, 118, 1956.
• 6. CZECZUGA B. Oviposition in Eudiaptomus gracilis G.O. Sars and E. graciloides Lilljeborg (Diaptomidae, Crustacea) in relation to season and trophic level of lakes. Bull. De L'Acad. Pol. des Sci. Cl., 7, 227, 1959.
• 7. EDMONDSON W.T. Food supply and reproduction of zooplankton in relation to phytoplankton population. J. Cons. Inter. Explor. Mer. 153, 137, 1962.
• 8. SARVALA J. Effect of temperature on the duration of egg, nauplius and copepodite development of some freshwater copepods. Freshwat. Biolog. 9, 515, 1979.
• 9. IVANOVA M.B., VASSILENKO S. Relationship between number of eggs, brood weight and female body weight in Crustacea. Inter. Revue ges. Hydrobiol. 2, 147, 1987.
• 10. LÓPEZ C. Egg-stock and clutch size of two species of Thermocycops Kiefer (Crustacea: Copepoda) in a tropical reservoir. Verh. Inter. Verein. Limnol. 25, 1287, 1994.
• 11. ČEREMISOVA K.A. Development and reproduction of Daphnia cucullata Sars in Driviaty lake. Trudy nauč. Konf. po probl. Vnutr. Vodoj. Pribaµtiki, Mińsk, 24, 1957. (In Russian).
• 12. CZECZUGA B. Changes in fertility of some representatives of the zooplankton I. Crustacea from the Rajgrodzkie lakes. Pol. Arch. Hydrobiol. 7, 61, 1960. (In Polish).
• 13. KERFOOT W.C. Egg-size cycle of a cladoceran. Ecology 55, 1259, 1974.
• 14. BRAMBILLA D.J. Seasonal variation of egg size and number in a Daphnia pulex population. Hydrobiologia 97, 233, 1982.
• 15. GLIWICZ M.Z. Food thresholds, resistance to starvation and cladoceran body size. Ecol. Aquatic. Org. 3, 2795, 1991.
• 16. LAMPERT W. Phenotypic plasticity of the size at first reproduction in Daphnia. The importance of material size. Ecology 74, 1455, 1993.
• 17. LAMPERT W., BRENDELBERGER H. Strategies of phenotypic low-food adaptation in Daphnia. Filter screens, mesh sizes and appendage beat rates. Limnol. Oceanogr. 41, 216, 1996.
• 18. STIBOR H., LAMPERT W. Components of additive variance in life history traits of Daphnia hyalina. Seasonal differences in the response to predator signals. Oikos 88, 129, 2000.
• 19. LITYŃSKI A. Die Suwałki-Seen und ihre Fischfauna nach den Angaben eines Dokumentes dus dem XVI Jahrhundert. Arch. Hydrobiol. Ryb. 9, 122, 1935. (In Polish).
• 20. CZECZUGA B. The four-hundredth anniversary of the preparation of the register, 1569-1969. Roczn. Białystocki 10, 335, 1971. (In Polish).
• 21. ZDANOWSKI B. Lakes of the Wigry National Park. Trophic state and protection directional. Człowiek i środowisko. Wrocław, Ossolineum, pp. 249, 1992. (In Polish).
• 22. CZECZUGA B., GRĄDZKI F. Primary production in the oligotrophic Lake Hańcza. Ekol. Pol. 17, 383, 1970.
• 23. CZECZUGA B. Lake Wigry ± cradle of Polish hydrobiology. Warszawa, PWN, pp. 201, 1979. (In Polish).
• 24. WISZNIEWSKI J. Question of the typology of Polish lakes. Pol. Arch. Hydrobiol. 1, 11, 1953.
• 25. CZECZUGA B. Hydromycoflora fungi of small forest lakes “Suchary” in the Wigry National Park. Acta Mycologica 30, 167, 1995.
• 26. GREENBERG A.E., CLESCERI L.S., EATON A.D. Standard Methods for the Examination of Water and Wastewater. Washington D.D. American Public Health Association, pp. 1193, 1992.
• 27. CZECZUGA B. Studies on chlorophyll content in phytoplankton of Rajgrodzkie lakes. Acta Soc. Bot. Pol. 27, 54, 1958. (In Polish).
• 28. CZECZUGA B. Vertical distribution of chlorophyll in some Mazurian lakes. Pol. Arch. Hydrobiol. 12, 17, 1964. (In Polish).
• 29. CZECZUGA B. Chlorophyll content in phytoplankton of Legińskie lakes. Zesz. Nauk. WSR Olsztyn 20, 161, 1965. (In Polish).
• 30. NUSCH E.A. Comparison of different methods for chlorophyll and phaeopigment determination. Arch. Hydrobiol. Beih./Ergebn. Limnolog. 14, 14, 1980.
• 31. PODANI J. Introduction to the exploration of multivariate biological data. Leiden, Backhuys Publishers, 407 pp. 2000.
• 32. GLIWICZ Z.M. Trophic position of the freshwater zooplankton species. Wiad. Ekol. 20, 197, 1974. (In Polish).
• 33. CZECZUGA B. Characteristic carotenoids in algae of different systematic position. Nova Hedwigia 31, 325, 1979.
• 34. CZECZUGA B., KOZŁOWSKA M., CZECZUGA-SEMENIUK E. Adaptative role of carotenoids and carotenoproteins in Cyclops kolensis Lilljeborg (Crustacea: Copepoda) specimens to extre-mely eutrophical conditions. Folia biol. (Kraków) 48, 77, 2000.
• 35. ALVAREZ-COBELAS M., REYNOLDS C.S., SANCHEZ-CASTILLO P., Kristiansen J. (eds) Phytoplankton and trophic gradients. Enfield ± Plymouth, Science Publishers Inc., pp. 384, 1998.
• 36. SUŠČENIA L.M. Quantitative rules in the nutrition of crustaceans. Mińsk, Nauka, pp. 208, 1975. (In Russian).
• 37. THRELKELD S.T. Resource variation and the initiation of midsummer declines of cladoceran populations. Arch. Hydrobiol. 21, 333, 1985.
• 38. CONNOR T.E., JONES CH. Survival and reproduction by Bosmina longirostris fed two species of green algae. Verh. Inter. Verein. Limnol. 26, 1913, 1998.
• 39. SANTER B. Do cyclopoid copepods control Daphnia populations in early spring, thereby protecting their juvenile instar stages from food limitation? Verh. Inter. Verein. Limnol. 25, 634, 1993.
• 40. ČEREMISOVA K.A. Biology of Chydorus sphaericus O.F. Müller, Daphnia cucullata Sars and Eudiaptomus graciloides Lill. Trudy Belorus. Nauc. Issled. Inst. Ryb. Choz. 2, 200, 1958. (In Russian).
• 41. KRIUČKOVA N.M., RYBAK V.K. Relations of the phytoand zooplankton In: Winberg G.G. (ed.). Trophical relationd of freshwater invertebrates: 19-28. Moskva-Leningrad, Nauka, 1980. (In Russian).
• 42. OKAMOTO N., NARITA T. Seasonal change in size-selective feedin activities of Daphnia longispina and Eodiaptomus japonicus on a natural phytoplankton community in Lake Biwa. Verh. Inter. Verein. Limnol. 21, 600, 1981.
• 43. ELSTER H.J. Über die Populationsdynamik von Eudiaptomus gracilis SARS und Heterocope borealis Fischer im Bodensee ± Obersee. Arch. Hydrobiol. Suppl. 20, 546, 1954.
• 44. SARVALA J., KANKAALA P., ZINGEL P., ARVOLA L. Food webs of humic waters. Zooplankton. In: Koskitalo J. and Eloranta P. (eds), Limnology of humic waters: 174-191. Leiden, Backhaus Publishers, 1999.
• 45. HUTOROWICZ A., SPODNIEWSKA I., KRZYWOSZ W. Phytoplankton in lakes of Wigry National Park. In: Zdanowski B. (ed.), Lakes of Wigry National Park: 79-99. Wrocław, Ossolineum, 1992. (In Polish).
• 46. KRZYWOSZ W., HUTOROWICZ A. Phytoplankton in lakes of Wigry National Park In: Zdanowski B., Kamiński M. and Martyniak A.(eds), Function and protection of the aquatic ecosystems in protections area: 351-359. Olsztyn, Wyd. IRS. 1999. (In Polish).
• 47. TRANVIK L.J., SHERR E.B., SHERR B.F. Uptake and utilization of “colloidal DOM” by heterotrophic flagellates in seawater. Mar. Ecol. Prog. Ser. 92, 301, 1993.
• 48. O'CONNORS H.B., SMALL L.F., DONAGHAY P.L. Particle-size modification by two size classes of the estuarine copepod, Acartia clausi. Limnol. Oceeanogr. 21, 300, 1976.
• 49. CZECZUGA B. Primary production of the purple sulphuric bacteria Thiopedia rosea Winogr. (Thiorhodaceae). Photosynthetica 2, 161, 1968.
• 50. CZECZUGA B. Chlorobium limicola Nads. (Chlorobacteriaceae) in distrophic lake Wądołek (Suwałki Region). Bull. de L' Acad. Pol. Sci. 8, 635, 1980.
• 51. TRANVIK L.J. Availability of dissolved organic carbon for planktonic bacteria in oligotrophic lakes of differing humic content. Microb. Ecol. 16, 311, 1988.
• 52. ARVOLA L., ELORANTA P., JÄRVINEN M., KESKITALO J., HOLOPAINEN A.-L. Food webs of humic waters. Phytoplankton. In: Keskitalo J. and Eloranta P. (eds.) Limnology of humic waters: 137-171. Leiden, Backhaus Publishers, 1999.
• 53. CZECZUGA B. The effect of humus compounds on zooplankton. Rocz. Akad. Med. Białystok 3, 85, 1957. (In Polish).
• 54. FREY G. Acidity and species diversity in freshwater crustacean faunas. Freshwat. Biol. 10, 41, 1980.
• 55. COFER J.L., KAARET T., LINKENS G.E. Zooplankton biomass in recently acidied lakes. Can. J. Fish. Aquat. Sci. 40, 36, 1983.
• 56. TUNOWSKI J. Zooplankton of dystrophic lakes in Wigry National Park. In: Zdanowski B. (ed.), Lakes of Wigry National Park: 129-138. Wrocław, Ossolineum, 1992.
• 57. KARABIN A. Crustacea communities of shore zones of humic lakes in Wigry National Park. In: Zdanowski B., Kamiński M. and Martyniak A. (eds), Function and protection of aquatic ecosystems in protections area: 405-415. Olsztyn, Wyd. IRS, 1999.
• 58. EJSMONT-KARABIN J. Rotifera communities in shore zones of small humic lakes in Wigry National Park, with attention given to new and rare species in Polish fauna. In: Zdanowski B., Kamiński M. and Martyniak A. (eds), Function and protection of aquatic ecosystems in protections area: 389-403. Olsztyn, Wyd. IRS, 1999