Making comparable measurements of bacterial respiration and production in the subtropical coastal waters.

IF 5.8 2区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Cui Guo, Ying Ke, Bingzhang Chen, Shuwen Zhang, Hongbin Liu
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引用次数: 1

Abstract

Accurate estimates of bacterial carbon metabolic rates are indispensable for understanding the regulation of carbon fluxes in aquatic environments. Here, changes in bacterial growth, production, and cell volume in both pre-filtered and unfiltered seawater during 24 h incubation were monitored. The methodological artifacts during Winkler bacterial respiration (BR) measurements in subtropical Hong Kong coastal waters were assessed. Bacterial abundance increased by 3- and 1.8-fold in the pre-filtered and unfiltered seawater after incubation, respectively. Bacterial production (BP) and cell volume also showed significant enhancement. Compared with the BR measurements obtained by the Winkler method, the instantaneous free-living BR measurements, after correction, decreased by ~ 70%. The time-integrated free-living BR and BP during 24 h incubation in the pre-filtered sample provided an improved estimate of bacterial growth efficiency, which increased by ~ 52% compared to the common estimations using the noncomparable measurements of integrated free-living BR and instantaneous total BP. The overestimation of BR also exaggerated the contribution of bacteria to community respiration, affecting the understanding on the metabolic state of the marine ecosystems. Furthermore, the BR estimates by the Winkler method may be more biased in environments with a higher bacterial growth rate and tightly coupled grazing mortality, as well as in those with higher nutrient concentrations. These results reveal obvious problems associated with the BR methodology and raise a warning for caution when comparing BP and BR, as well as when making estimations of carbon flow through the complex microbial networks in aquatic ecosystems.

Supplementary information: The online version contains supplementary material available at 10.1007/s42995-022-00133-2.

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在亚热带沿海水域进行细菌呼吸和生产的可比测量。
准确估计细菌碳代谢率对于理解水生环境中碳通量的调节是必不可少的。在这里,在24小时的孵育过程中,对预过滤和未过滤海水中细菌生长、产量和细胞体积的变化进行了监测。本文评估了香港亚热带沿岸水域温克勒细菌呼吸(Winkler bacteria respiration, BR)测量的方法伪影。细菌丰度在经过过滤和未过滤的海水中分别增加了3倍和1.8倍。细菌产量(BP)和细胞体积也显著增加。与Winkler法测得的BR值相比,校正后的瞬时自由生物BR值降低了约70%。预过滤样品中24 h孵育期间的时间积分自由生物BR和BP提供了细菌生长效率的改进估计,与使用不可比较的综合自由生物BR和瞬时总BP的常见估计相比,提高了约52%。BR的高估也夸大了细菌对群落呼吸的贡献,影响了对海洋生态系统代谢状态的认识。此外,在细菌生长速率较高、放牧死亡率紧密耦合的环境中,以及在营养物质浓度较高的环境中,Winkler方法估算的BR可能更有偏差。这些结果揭示了BR方法存在的明显问题,并提醒人们在比较BP和BR以及估算水生生态系统中复杂微生物网络的碳流量时要谨慎。补充资料:在线版本提供补充资料,网址为10.1007/s42995-022-00133-2。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Marine Life Science & Technology
Marine Life Science & Technology MARINE & FRESHWATER BIOLOGY-
CiteScore
9.60
自引率
10.50%
发文量
58
期刊介绍: Marine Life Science & Technology (MLST), established in 2019, is dedicated to publishing original research papers that unveil new discoveries and theories spanning a wide spectrum of life sciences and technologies. This includes fundamental biology, fisheries science and technology, medicinal bioresources, food science, biotechnology, ecology, and environmental biology, with a particular focus on marine habitats. The journal is committed to nurturing synergistic interactions among these diverse disciplines, striving to advance multidisciplinary approaches within the scientific field. It caters to a readership comprising biological scientists, aquaculture researchers, marine technologists, biological oceanographers, and ecologists.
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