Bacterial Production and Growth Rate Estimation from [3H]Thymidine Incorporation for Attached and Free-Living Bacteria in Aquatic Systems

Juan Iriberri; Marian Unanue; Bego?a Ayo; Isabel Barcina; Luis Egea

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Bacterial Production and Growth Rate Estimation from [3H]Thymidine Incorporation for Attached and Free-Living Bacteria in Aquatic Systems

机译：从[3H]胸苷掺入水生系统中附着和自由活动细菌的细菌产量和增长率估算

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Production and specific growth rates of attached and free-living bacteria were estimated in an oligotrophic marine system, La Salvaje Beach, Vizcaya, Spain, and in a freshwater system having a higher nutrient concentration, Butron River, Vizcaya, Spain. Production was calculated from [methyl-3H]thymidine incorporation by estimating specific conversion factors (cells or micrograms of C produced per mole of thymidine incorporated) for attached and free-living bacteria, respectively, in each system. Conversion factors were not statistically different between attached and free-living bacteria: 6.812 × 1011 and 8.678 × 1011 μg of C mol?1 for free-living and attached bacteria in the freshwater system, and 1.276 × 1011 and 1.354 × 1011 μg of C mol?1 for free-living and attached bacteria in the marine system. Therefore, use of a unique conversion factor for the mixed bacterial population is well founded. However, conversion factors were higher in the freshwater system than in the marine system. This could be due to the different trophic conditions of the two systems. Free-living bacteria contributed the most to production in the two systems (85% in the marine system and 67% in the freshwater system) because of their greater contribution to total biomass. Specific growth rates calculated from production data and biomass data were similar for attached and free-living bacteria.

机译：在西班牙比斯开省的La Salvaje海滩的贫营养海洋系统和在西班牙比斯开省的巴特隆河中，在营养贫化的海洋系统，La Salvaje海滩和营养水平较高的淡水系统中，估计了附着细菌和自由生活细菌的产量和比增长率。由[甲基-3H]胸苷掺入量通过估算每种系统中附着和自由生活细菌的特定转化因子（每摩尔掺入的胸苷产生的细胞数或微克C）来计算产量。附着和自由生活细菌之间的转化因子没有统计学差异：淡水系统中自由和附着细菌的C mol？1为6.812×1011和8.678×1011μg，C为1.276×1011和1.354×1011μgC mol？1 mol？1用于海洋系统中自由活动和附着的细菌。因此，对于混合细菌群体使用独特的转化因子是众所周知的。但是，淡水系统的转换因子高于海洋系统。这可能是由于两个系统的营养条件不同。自由生活细菌对两个系统的生产贡献最大（海洋系统中为85％，淡水系统中为67％），因为它们对总生物量的贡献更大。从生产数据和生物量数据计算出的比生长速率与附着细菌和自由细菌相似。

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《Applied and Environmental Microbiology》 |1990年第2期|共5页
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Juan Iriberri; Marian Unanue; Bego?a Ayo; Isabel Barcina; Luis Egea;
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6. Bacterial Production and Growth Rate Estimation from 3HThymidine Incorporation for Attached and Free-Living Bacteria in Aquatic Systems [O] . Juan Iriberri, Marian Unanue, Begoña Ayo, 1990

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Bacterial Production and Growth Rate Estimation from [3H]Thymidine Incorporation for Attached and Free-Living Bacteria in Aquatic Systems

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