Search Results

1 - 10 of 218 items :

  • "macrophyte" x
Clear All

colonization on natural and artificial macrophytes in a phosphorus-limited, hardwater lake. - Journal of Phycology, 25: 55-65. Cattaneo A., Kalff J., 1978: Seasonal changes in the epiphyte community of natural and artificial macrophytes in Lake Memphremagog (QUE. & VT.). - Hydrobiologia, 60(2): 135-144. Cattaneo A., Galanti G., Gentinetta S., Romo S., 1998: Epiphytic algae and macroinvertebrates on submerged and floating-leaved macrophytes in an Italian lake. - Freshwater Biology, 39: 725-740. Davydova N. N., 1989: Rekonstrukcija razvitija ozernykh ekosistem po materijalam

, Poznan, 501 p. (in Polish). Celewicz-Gołdyn S. 2010 - Influence of Ceratophyllum demersum L. on phytoplankton structure in a shallow eutrophic lake - Oceanol. Hydrobiol. Stud. 39: 121-128. Ciecierska H., Kolada A. 2014 - ESMI: a macrophyte index for assessing the ecological status of lakes - Environ. Monit. Assess. 186: 5501-5517. Ciurli A., Zuccarini P., Alpi A. 2009 - Growth and nutrient absorption of two submerged aquatic macrophytes in mesocosms, for reinsertion in a eutrophicated shallow lake - Wetlands Ecol. Manag. 17: 107-115. Dai Y., Jia C., Liang W., Hu S., Wu

of environmental changes in the Tiber River in Rome. Aquatic Ecology 44: 93–100. doi: 10.1007/s10452-009-9292-1. Chen J., Gupta A.K. (2000): Parametric statistical change point analysis, Birkhauser. Dawson F.H., Newman J.R., Gravelle M.J., Rouen K.J., Henville P. (1999): Assessment of the Trophic Status of Rivers Using Macrophytes. Evaluation of the Mean Trophic Rank, R&D Technical Report E39, Environment Agency. Dudley B., Dunbar M., Penning E., Kolada A., Hellsten S., Oggioni A. et al. (2013): Measurements of uncertainty in macrophyte metrics used to assess

John o specie nouă în flora României, Buletinul Grădinii Botanice „Anastasie Fătu” , Iaşi, 6, 1, 215-231. (in Romanian) 6. Covaliov S., van Geest G., Hanganu J., Hulea O., Török L. and Coops H., 2003 – Seasonality of macrophyte dominance in flood-pulsed lakes of the Danube, Hydrobiologia , 506-509, 651-656, Kluwer Academic Publishers. 7. Dihoru G. and Negrean G., 2009 – Cartea Roșie a plantelor vasculare din România, Edit. Academiei Române, București, 630. (in Romanian) 8. Doroftei M and Covaliov S., 2003 – „Manual de ... Delta Dunării”, Ghid pentru personalul de

freshwater. In: Gopal B, Turner RE, Wetzel RG, Whigham DF (eds): Wetlands: ecology and management. International Scientific Publications, Jaipur, 293–304. Rejmankova E (2016): Phenolic content and growth of wetland macrophytes: is the allocation to secondary compounds driven by nutrient availability? Folia Geobotanica, 51, 239–250. doi: 10.1007/s12224-015-9227-7. Richardson CJ, Ferrell GM, Vaithiyanathan P (1999): Nutrient effects on stand structure, resorption efficiency, and secondary compounds in Everglades sawgrass. Ecology, 80, 2182–2192. doi: 10.2307/176902. Routray

References Alahuhta J., 2011, Patterns of aquatic macrophytes in the boreal region: Implications for spatial scale issues and ecological assessment [Dissertation], Acta. Univ. Oul. A 577: 1-66. Allen E.D., Gorham R.R., 1973, Changes in the submerged macrophytes communities of Lake Wabamum as a result of thermal discharge, [in:] Reinelt E.R., Laycock A.H., Schultz W.M. (eds), Proc. Symp. Lakes of Western Canada, University of Alberta, Edmonton: 313-324. Anderson R.R., 1969, Temperarure and rooted aquatic plants, Chesapeake Sci.10: 157-164. Armstrong J., Afreen

References Albay M., Akcaan R., 2008, Effect of water quality and hydrologic drivers on periphyton colonization on Sparganium erectum in two Turkish lakes with different mixing regimes, Environ. Monit. Asses. 146: 171-181. Azovsky M.G., Chepinoga V.V., 2007, Vysshie vodnye rasteniya ozera Baikal (Higher aquatic plants of Lake Baikal), L. Bardunov (ed), Irkutsk, p. 157 (in Russian). Baldanova R.M., 1998, Epiphiton pogruzhennykh makrophitov reki Selengi (Epiphyton on submerged macrophytes in Selenga River) [abstract], [in:] Proc. of the Int. Conf. dedicated to 80

ekologicznego rzek z wykorzystaniem makrofitów na wybranych przykładach. Przegl. Nauk. Inż. Kształ. Środ., 52: 75-83. Haury J., Peltre M.C., Treémolières M., Barbe J., Thiébaut G., Bernez I., Daniel H., Chatenet P., Haan-Archipof G., Muller S., Dutartre A., Laplace-Treyture C., Cazaubon A., Lambert- Servien E. 2006. A new method to assess water trophy and organic pollution - the Macrophytes Biological Index for Rivers (IBMR): its application to different types of river and pollution. Hydrobiologia, 570: 153-158. Janauer G.A. 2001, Macrophytes and the classification of the

References Barbier E.B., Acreman M.C., Knowler D., 1997, Economic valuation of wetlands: A guide for policy makers and planners, Ramsar Convention Bureau, Gland, 116 pp. Bhattarai K.R., Shrestha B.B., Lekhak H.D., 2008, Water quality of sundarijal reservior and its feeding streams in Kathmandu, Scientific World 6(6): 99–106. Burlakoti C., 2003, Physico-chemical characteristics and macrophytes of Beeshazari Lake, Chitwan Nepal [M.Sc Thesis], Central Department of Botany, Tribhuvan University, Kathmandu, 63 pp. Curtis J.T., McIntosh R.P., 1951, The interrelation of

References Anderson, B. (2001). Macrophyte development and habitat characteristics in Sweden's large lakes. Ambio , 20 (8), 503-515. Auniņš, A., Zviedre, E., Brūmelis, G. (2000). Preliminary results of remote sensing based vegetation mapping of lake Engures (Engure), Latvia. Proc. Latvian Acad. Sci., Sect. B , 54 (5), 170-176. Briede, A., Kļaviņš, M., Rodinovs, V. (2000). Chemical compositions of Lake Engures (Engure), Latvia. Proc. Latvian Acad. Sci., Sect. B , 54 (5), 160-163. Dahdouh-Guebas, F., Koedam, N. (2008). Long-term retrospection on man