FUHRMAN J A, AZAM F. Bacterioplankton secondary production estimates for coastal waters of British Columbia, Antarctica, and Califonia[J]. Appl Environ Microbial, 1980, 39: 1 085-1 095.
[2]
GERARDO C L, BENNER R. Enhanced bacterioplankton production and respiration at intermediate salinities in the Mississippi River plume[J]. Mar Ecol Prog Ser, 1992, 87: 87-103.
[3]
KIRCHMAN D L,KINESE E, HODSON R E. Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic system[J]. Appl Environ Microbial, 1985, 49: 599-607.
STEVEN Y N, et al. Bacterial productivity in the water column and sediments of the Georgial(USA)coastal zone:estimates via direct counting and parallel measurement of thymidine incorporation[J]. Microb Ecol, 1982, 8: 33-46.
[8]
BELL R T. An explanation for the variability in the conversion factor deriving bacterial cell production from incorporation of(3H) thymidine[J]. Limnol Oceanogr, 1990, 35(4): 910-915.
ZHENG Tian-ling, HONG Hua-sheng, WANG Fei, et al. The distribution characteristics of bacterial β-glucosidase activity in Taiwan Strait[J]. Marine Pollution Bulletin, 2002.
[11]
MATHIAS C B, KIRSCHNER A K T, VELIMROV B. Seasonal variations of virus abundance and viral control of the Danube River[J]. Appl Environ Microbial, 1995, 61: 3 734-3 740.
STEWARD G F, SMITH D C, AZAM F. Abundance and production of bacteria and viruses in the Bering and Chukchi Seas[J]. Marine Ecology Progress Series, 1996, 131: 287-300.
[14]
FUHRMAN J A, AZAM F. Thymidine incorporation as a measure of heterotrophic bacterioplankton production in marine surface waters: evaluation and field results[J]. Marine Biology, 1982, 66: 109-120.
DORTCH Q, PACKARD T. Differences in biomass structure between oligotrophic and eutrophic marine ecosystems[J]. Deep-Sea Res, 1989, 36: 223-240.
[17]
CHO B C, AZAM F.Biogeochemical significance of bacterial biomass in the ocean\'s euphotic zone[J].Mar Ecol Prog Ser, 1990, 63: 253-259.
[18]
STEWARD G F, SMITH D C, AZAM F. Abundance and production of bacteria and viruses in the Bering and Chukchi Seas[J]. Mar Ecol Prog Ser, 1996, 131: 287-300.
[19]
ZHENG Tian-ling, CAI Li-zhe, JIANG Xian-quan. Studies on the role of marine bacteria in the upwelling ceosystem. I. Bacterial biomass in the upwelling regions[J]. Acta Oceanologica Sinica, 1993, 12(2): 261-267.
BARCINA I, AYO B, UNANUE M, et al. Comparison of rates of Flagellate bacterivory and bacterial production in a marine coastal system[J]. Appl Environ Microbiol, 1992, 58(12): 3 850-3 856.
[23]
FUHRMAN J A, SLEETER T D, CARLSON C A, et al. Dominance of bacterial biomass in the Sargasso Sea and its ecological implications[J]. Mar Ecol Prog Ser, 1989, 57: 207-217.
[24]
WATSON S W.Determination of bacterial number and biomass in the marine environment[J]. Appl Environ Microbiol,1992, 33(4): 940-946.
