The occurrence of lipolytic bacteria and the activity of extracellular lipases in a riverine ecosystem

Albers C. S., Kattner G., Hagen W., 1996, The compositions of wax esters, triacylglycerols and phospholipids in Arctic and Antarctic copepodes: evidence of energetic adaptation, Mar. Chem., 55: 347-5810.1016/S0304-4203(96)00059-X Search in Google Scholar

Arts M. T., Evans M. S., Robarts R. D., 1992, Seasonal patterns of total and energy reserve lipids of dominant zooplanktonic crustaceans from hyper-eutrophic lake, Oecologia 90: 560-7110.1007/BF01875451 Search in Google Scholar

Boetius A., 1995, Microbial hydrolytic enzyme activities in deep-sea sediments, Hel. Meer., 49: 177-8610.1007/BF02368348 Search in Google Scholar

Boon P. I., 1990, Organic matter degradation and nutrient regeneration in Australian freshwater: II Spatial and temporal variation and relation with environmental conditions, Arch. Hydrobiol., 117: 405-3610.1127/archiv-hydrobiol/117/1990/405 Search in Google Scholar

Boschker H. T. S., Cappenberg T. E., 1998, Patterns of extracellular enzyme activities in littoral sediments of Lake Gooimeer, The Netherlands, FEMS Microbiol. Ecol., 25: 79-8610.1111/j.1574-6941.1998.tb00461.x Search in Google Scholar

Brown S. E., Goulder R., 1999, Change in riverine epilithic extracellular enzyme activity in response to fish farm effluent., Lett. App. Microbiol., 29: 385-8810.1046/j.1472-765X.1999.00650.x Search in Google Scholar

Chróst R. J., 1991, Environmental control of the synthesis and activity of aquatic microbial ectoenzymes, [in:] Microbial enzymes in aquatic environments, Ed. (Chróst R. J.). Springer Verlag, New York, pp. 29-5910.1007/978-1-4612-3090-8_3 Search in Google Scholar

Chróst R., Gajewski A. J., 1995, Microbial utilization of lipids in lake water, FEMS Microbial. Ecol., 18: 45-5010.1016/0168-6496(95)00039-D Search in Google Scholar

Coveney M. F., Wetzel R. G., 1989, Bacterial metabolism of algal extracellular carbon, Hydrobiologia, 173: 141-4910.1007/BF00015524 Search in Google Scholar

Dachs J., Bayona J. M., Fowler S. W., Miquel J. C., Albaiges J., 1998, Evidence for cyanobacterial inputs and heterotrophic alternation of lipids in sinking particles in the Alboran Sea (SW Mediterranean), Mar. Chem., 60:189-20110.1016/S0304-4203(97)00105-9 Search in Google Scholar

Daubner J., 1967, Mikrobiologia Vody, Slov. Akad. Vied., Bratislava, pp 345. Search in Google Scholar

Ferrer E. B., Stapert E. M., Sokalski W. T., 1963, A medium for improved recovery of bacteria from water, Can. J. Microbiol., 9: 420-2210.1139/m63-052 Search in Google Scholar

Foreman C. M., Franchini P., Sinsabaugh R. L., 1998, The trophic dynamics of riverine bacterioplankton: Relationships among substrate amiability, ectoenzyme kinetics, and growth, Limnol. Oceanogr., 43: 1344-52.10.4319/lo.1998.43.6.1344 Search in Google Scholar

Gajewski A., Chróst R., Siuda W., 1993, Bacterial lipolytic activity in a eutrophic lake, Arch. Hydrobiol., 128: 107-2610.1127/archiv-hydrobiol/128/1993/107 Search in Google Scholar

Gajewski A., Kirschner A. K. T., Velimirov B., 1997, Bacterial lipolytic activity in a hypertrophic dead arm of the river Danube in Vienna, Hydrobiologia, 344: 1-1010.1023/A:1002933706785 Search in Google Scholar

Hoppe HG., Ulrich S., 1999, Profiles of ectoenzymes in the Indian Ocean: phenomena of phosphatase activity in the mesopelagic zone, Aqua. Microbial Ecol., 19: 139-4810.3354/ame019139 Search in Google Scholar

Incera M., Cividanes S. P., Lastra M., López J., 2003, Temporal and spatial variability of sedimentary organic matter in sandy beaches on the northwest coast of the Iberian Peninsula, Estuar. Coast. Shelf Sci., 58S: 55-6110.1016/S0272-7714(03)00040-4 Search in Google Scholar

Jaffe R., Wolf G. A., Cabrera A. C., Chity H. C., 1995, The biogeochemistry of lipids in rivers of the Orinoco Basin, Geoch. Cosm. Acta., 59: 4507-22.10.1016/0016-7037(95)00246-V Search in Google Scholar

Jones S. F., Lock M. A., 1993, Seasonal determination of extracellular hydrolytic activities in heterotrophic and mixed heterotrophic/autotrophic biofilms from two contrasting river, Hydrobiologia, 257: 1-1610.1007/BF00013991 Search in Google Scholar

Kattner B., Brockman U. H., 1990, Particulate and dissolved fatty acids in an enclosure containing a unialgal Skeletonema costatum (Greve.) Cleve culture, J. Exp. Biol. Ecol, 141: 1-1310.1016/0022-0981(90)90153-4 Search in Google Scholar

Krstulović N., Solić M., 1988, Distribution of proteolytic, amylolytic and lipolytic bacteria in the Kastela Bay, Acta Adria, 29: 75-83 Search in Google Scholar

Liu H., Dagg M., Campell L., Urban-Rich J., 2004, Picophytoplankton and bacterioplankton in the Mississippi River plume and its adjacent waters, Estuaries, 27: 147-5610.1007/BF02803568 Search in Google Scholar

Mallet C., Debroas D., 1999, Relations between organic matter and bacterial proteolytic activity in sediment surface layers of a eutrophic lake (Lake Aydat, Puy de Dôme, France), Arch. Hydrobiol., 145: 39-5610.1127/archiv-hydrobiol/145/1999/39 Search in Google Scholar

Małecka M., Donderski W., 2006, Heterotrophic bacteria inhabiting water of the river Brda on the Bydgoszcz town section, Balt. Coast. Zone, 10: 31-46 Search in Google Scholar

Martinez J., Smith D. C., Steward D. F., Azam F., 1996, Variability in ectohydrolytic enzyme actives of pelagic marine bacteria and its significance for substrate processing in the sea, Aqua. Microbial Ecol., 10: 223-3010.3354/ame010223 Search in Google Scholar

Marty Y., Quemeneur M., Aminot A., Corre P., 1996, Laboratory study on degradation of fatty acids and sterols from urban wastes in seawater, Wat. Res., 30: 1127-3610.1016/0043-1354(95)00288-X Search in Google Scholar

Mudryk Z., 1981, The occurrence physiological groups between bacteria isolated from water Słupia River, Słup. Prace Mat-Przyr., 2: 113-24 (in Polish) Search in Google Scholar

Mudryk Z., Donderski W., 1997, The occurrence of hetrotrophic bacteria decomposing some macromolecular compounds in shallow estuarine lakes, Hydrobiologia, 342/343: 71-810.1023/A:1017052904405 Search in Google Scholar

Mudryk Z., Skórczewski P., 2000, Occurrence and activity of lipolytic bacterioneuston and bacterioplankton in the estuarine lake Gardno, Estuar. Coast. Shelf Sci., 51: 763-7210.1006/ecss.2000.0719 Search in Google Scholar

Mudryk Z., Skórczewski P., 2004, Extracellular enzyme activity at the air- water inference of an estuarine lake, Estuar. Coast. Shelf Sci., 59: 59-6710.1016/j.ecss.2003.08.001 Search in Google Scholar

Parrish Ch.C., 1988, Dissolved and particulate marine lipid classes: A review.Mar. Chem., 23: 17-4010.1016/0304-4203(88)90020-5 Search in Google Scholar

Podgórska B., Mudryk Z., 2003, Distribution and enzymatic activity of heterotrophic bacteria decomposing selected macromolecular compounds in a Baltic Sea beach, Estuar. Coast. Shelf Sci., 56: 539-4610.1016/S0272-7714(02)00204-4 Search in Google Scholar

Prim N., Sanchez M., Ruiz C., Pastor J. F. Diaz P., 2003, Use of methylumberifryl-derivative substrates for lipase activity characterisation, J. Mol. Cat., 22: 339-4610.1016/S1381-1177(03)00048-1 Search in Google Scholar

Reemtsma T., Haake B., Ittekkot V., Nair R. R., Brockmann U. H., 1990, Downward flux of particulate fatty acids in the Central Arabian Sea, Mar. Chem., 29: 277-9910.1016/0304-4203(90)90013-3 Search in Google Scholar

Romani A. M., Sabator S., 2000, Influence of algae on extracellular enzyme activity in river biofilm, Micro. Ecol., 41: 16-2410.1007/s00248000004110977873 Search in Google Scholar

Rulik M. Spacil R., 2004, Extracellular enzyme activity within hyporheic sediments of a small lowland stream, Soil Biol. Bioch., 36: 1653-6210.1016/j.soilbio.2004.07.005 Search in Google Scholar

Skórczewski P., Mudryk Z., Kukliński B., 1999, Optimisation of measurement enzyme activity using fluorogenic substrates in water, Balt. Coast. Zone, 3: 41-52 Search in Google Scholar

Tyrland I., Fiksdal L., 1998, Rapid enzymatic of heterotrophic activity of environmental bacteria, Wat. Sci. Tech., 38: 95-0110.2166/wst.1998.0513 Search in Google Scholar

Velji M. J., Albright J., 1986, Microscopic enumeration of attached marine bacteria of seawater, marine sediment, faecal matter and kelp blade samples following pyrophosphate and ultrasound treatments, Can. J. Microbiol., 32: 121-2610.1139/m86-024 Search in Google Scholar

Wiliamski J., 1978, Chemical erosion of catchment Słupia River, IMGW Słupsk (in Polish) Search in Google Scholar

Wilczek S., Fischer H., Brunke M., Pusch M. T., 2004, Microbial activity within a subaqueous dune in a large lowland river (River Elbe, Germany), Aqua. Micro. Ecol., 36: 83-9710.3354/ame036083 Search in Google Scholar

Wu R. Y., 1993, Studies on the microbial ecology of the Tansui Estuary, Bot. Bull. Acad. Sin., 34: 13-30 Search in Google Scholar