溪流沉积物中的细菌生物量、代谢状态和活性:与环境变量和多种测定方法比较的关系。
Bacterial biomass, metabolic state, and activity in stream sediments: relation to environmental variables and multiple assay comparisons.
机构信息
Stroud Water Research Center, Academy of Natural Sciences of Philadelphia, Avondale, Pennsylvania 19311.
出版信息
Appl Environ Microbiol. 1985 Aug;50(2):508-22. doi: 10.1128/aem.50.2.508-522.1985.
Bacterial biomass, metabolic condition, and activity were measured over a 16-month period in the surface sediments of the following four field sites with differing dissolved organic matter regimes: a woodlot spring seep, a meadow spring seep, a second-order stream, and a third-order stream. Total bacterial biomass was measured by lipid phosphate and epifluorescence microscopic counts (EMC), and viable biomass was measured by C most probable number, EMC with 2-(p-iodophenyl)-3-(p-nitrophenyl)-5-phenyl tetrazolium chloride reduction, and ATP. Bacterial metabolic condition was determined from the percentage of respiring cells, poly-beta-hydroxybutyrate concentrations, and adenylate energy charge. Activity measures included C-lipid synthesis, P-phospholipid synthesis, the rate of uptake of algal lysate dissolved organic carbon, and respiration, from which biosynthesis was calculated (dissolved organic carbon uptake corrected for respiration). Total bacterial biomass (from EMC) ranged from 0.012 to 0.354 mug of C/mg of dry sediment and was usually lowest in the third-order stream. The percentage of cells respiring was less than 25% at all sites, indicating that most bacteria were dormant or dead. Adenylate energy charge was measured only in the third-order stream and was uniformly low. Poly-beta-hydroxybutyrate concentrations were greater in the woodlot spring seep than in the second- and third-order streams. Uptake of algal lysate dissolved organic carbon ranged from undetectable levels to 166 mg of C . m . h. Little community respiration could be attributed to algal lysate metabolism. Phospholipid synthesis ranged from 0.006 to 0.354 pmol . mg of dry sediment . h. Phospholipid synthesis rates were used to estimate bacterial turnover at the study sites. An estimated 375 bacterial generations per year were produced in the woodlot spring seep, and 67 per year were produced in the third-order stream.
在四个具有不同溶解有机物状态的野外地点的表层沉积物中,测量了 16 个月内的细菌生物量、代谢状况和活性。通过脂质磷酸盐和荧光显微镜计数(EMC)测量总细菌生物量,并通过 C 最可能数、EMC 与 2-(对碘苯基)-3-(对硝基苯基)-5-苯基四唑氯化还原和 ATP 测量可培养生物量。细菌代谢状况由呼吸细胞的百分比、聚-β-羟基丁酸浓度和腺苷酸能量电荷确定。活性测量包括 C-脂类合成、P-磷脂合成、藻类溶解有机碳的吸收速率和呼吸作用,从中计算生物合成(呼吸作用校正后的溶解有机碳吸收)。总细菌生物量(来自 EMC)范围为 0.012 至 0.354 mug C/mg 干沉积物,通常在三级溪流中最低。所有地点的呼吸细胞百分比均小于 25%,表明大多数细菌处于休眠或死亡状态。仅在三级溪流中测量腺苷酸能量电荷,且均匀较低。聚-β-羟基丁酸浓度在林地泉溢口比在二、三级溪流中更高。藻类溶解有机碳的吸收量从无法检测到 166 mg C. m. h。由于藻类溶解物代谢,可归因于社区呼吸的量很小。磷脂合成范围为 0.006 至 0.354 pmol. mg 干沉积物. h。磷脂合成速率用于估计研究地点的细菌周转率。林地泉溢口每年产生约 375 代细菌,而三级溪流每年产生 67 代细菌。
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