[1] Arnosti C, Keith SC, Blough NV. 2000. Application of fluorescence spectroscopic techniques and probes to the detection of biopolymer degradation in natural environments.Mar Chem,71:321~330 [2] Alvarez S, Guerrero MC. 2000. Enzymatic activities associated with decomposition of particulate organic matter in two shallow ponds.Soil Biol Biochem,32:1941~1951 [3] Billen G. 1991. Protein degradation in aquatic environments. In: Chrost RJ ed.Microbial Enzymes in Aquatic Environments.New York:Springer.123~143 [4] Boetius A,Lochte K.1994.Regulation of microbial enzyme degradation of organic matter in deep-sea sediments.Mar Ecol Prog Ser,104:299~307 [5] Carlson RE. 1977. A trophic state index for lakes.Limnol Oceanogr,22(2):361 [6] Carlson RE, Simpson J.1996. A Coordinator's Guide to Volunteer Lake Monitoring Methods.North American Lake Management Society.96 [7] Cemrella AD,et al.1983. The utilization of inorganic phosphorus and organic compounds as nutrients by eukaryotic microalgae: a multidisciplinary perspective: PartⅠ.CRC.Crit Rev Microb,10:317~391 [8] Chróst RJ. 1990. Microbial enzymes in aquatic environments. In: Overbeck J, Chróst RJ eds.Aquatic Microbial Ecology, Biochemical and Molecular Approaches.New York:Springer.47~79 [9] Chróst RJ. 1991. Environmental control of the synthesis and activity of aquatic microbial enzymes. In: Chrost RJ ed.Microbial Enzymes in Aquatic Environments.New York:Springer.29~84 [10] Feller G, Narinx E, Arpigny JL, Aittaleb M. 1996. Enzymes from psychrophilic organisms.FEMS Microb Rev,18:189~202 [11] Gambin F, Bogée G, Jamet D. 1999. Alkaline phosphatase in a littoral Mediterranean marine ecosystem: role of the main plankton size classes.Mar Environ Res,47:441~456 [12] Garde K, Gustavson K. 1999. The impact of UV-B on alkaline phosphatase activity in phosphorus-depleted marine ecosystems.J Exp Mar Biol Ecol,238:93~105 [13] Gayoso AM.1995. Bloom of Emiliania huxleyi (Prymnesiophyceae) in the western South Atlantic Ocean.J Plankton Res,17(8):1717~22 [14] Grossart HP, Ploug H. 2001. Microbial degradation of organic carbon and nitrogen on diatom aggregates.Limnol Oceanogr,6:267~277 [15] Hendel B, Marxsen J, Fiebig D, Preub G. 2001. Extracellular enzyme activities during slow sand filtration in a water recharge plant.Wat Res,35(10): 2484~2488 [16] Hollibaugh JT, Azam F. 1983. Microbial degradation of dissolved proteins in seawater.Limnol Oceanogr,28:1104~1116 [17] Hoppe HG. 1983. Significance of exoenzymatic activities in the ecology of brackish water: measurements by means of methylumbelliferyl-substrates.Mar Ecol Prog Ser,11:299~308 [18] Hoppe HG. 1993. Use of fluorogenic model substrates for extracellular enzyme activity (EEA) measurement of bacteria. In: Kemp PF, Sherr BF, Sherr EB, Cole JJ eds.Handbook of Methods in Aquatic Microbial Ecology.Boca Raton:Lewis Publishers.423~431 [19] Hoppe HG, Ullrich S. 1999. Profiles of ectoenzymes in the Indian Ocean: phenomena of phosphatase activity in the mesopelagic zone.Aquat Microb Ecol,19:139~148 [20] Huang Bangqin, Hong Huasheng. 1999. Alkaline phosphatase activity and utilization of dissolved organic phosphorus by algae in subtropical coastal waters.Mar Pollut Bull,39(12): 205~211 [21] Huang B-Q(黄邦钦), Huang S-Y(黄世玉), Wen Y(翁妍), Hong H-S(洪华生). 2000. Effect of dissolved phosphorus on alkaline phosphatase activity in marine microalgae.Acta Oceanol Sin(海洋学报),19(2):29~35 [22] Huang B- Q(黄邦钦), Huang S- Y(黄世玉), Weng Y(翁妍), Hong H- S(洪华生). 1999. Effect of dissolved phosphorus on alkaline phosphatase activity in marine microalgae.Acta Oceanol Sin(海洋学报),21(1):55~60 (in Chinese) [23] Huang B- Q(黄邦钦), Hong H- S(洪华生), Xue X- Z(薛雄志).2000. Distribution and controlling factors of alkaline phosphatase activity in western Xiamen waters.Acta Oceanol Sin(海洋学报),22(1):62~68(in Chinese) [24] Jansson M, Olsson H, Pettersson K. 1988. Phosphatase: origin, characteristics and function in lakes.Hydrobiologia,170:157~175 [25] Kiersztyn B, Siuda W, Chróst RJ. 2002. Microbial ectoenzyme activity:useful parameters for characterizing the trophic conditions of lakes.Polish J Environ Studies,11(4):367~373 [26] Konopka A, Zakharova T. 2002. Evaluation of methods to solubilize and analyze cell-associated ectoenzymes.J Microb Methods,51:273~282 [27] Martinez J, Smith DC, Steward GF, Azam F. 1996. Variability in ectohydrolytic enzyme activities of pelagic marine bacteria and its significance for substrate processing in the sea.Aquat Microb Ecol,10:223~230 [28] Nausch M. 1998. Alkaline phosphatase activities and the relationship to inorganic phosphate in the Pomeranian Bight (southern Baltic Sea).Aquat Microb Ecol,16:87~94 [29] Nausch M, Nausch G.2000. Stimulation of peptidase activity in nutrient gradients in the Baltic Sea.Soil Biol Biochem,32:1973~1983 [30] Riegman R, Stolte W, Anna AM,et al.2000. Nutrient uptake and alkaline phosphatase (EC 3:1:3:1) activity of Emiliania huxleyi (Prymnesiophyceae) during growth under N and P limitation in continuous cultures.J Phycol,36:87~96 [31] Song F- H(宋福行), Jiao N- Z(焦念志). 2001. The controlling factors of extracellular enzymatic activities.Mar Sci(海洋科学), 25(9): 16~18 (in Chinese) [32] Zheng T- L(郑天凌), Xu M- Z(徐美珠), Zhang Y(张瑶), Wang F(王斐). 2001. EEA-A new, key parameters of marine ecology and its application.J Oceanogr Taiwan Str(台湾海峡),20(4): 453~461 (in Chinese) |