Community structure and carbon metabolism functions of bacterioplankton in the Guangdong coastal zone.

IF 5.8 2区 生物学 Q1 MARINE & FRESHWATER BIOLOGY Marine Life Science & Technology Pub Date : 2024-07-29 eCollection Date: 2024-08-01 DOI:10.1007/s42995-024-00245-x
Ziqi Peng, Pandeng Wang, Xiaoqing Luo, Qiqi Deng, Ziwen Yang, Jiaxue Wu, Wendong Xian, Weicong Yan, Xiaozhen Mou, Yang Yuan, Wenjun Li, Jialing Li
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Abstract

Coastal ecosystems are an important region for biogeochemical cycling, are a hotspot of anthropogenic disturbance and play a crucial role in global carbon cycling through the metabolic activities of bacterioplankton. Bacterioplankton can be broadly classified into two lifestyles: free-living (FL) and particle-attached (PA). However, how coastal bacterioplankton the community structure, co-occurrence networks and carbon metabolic functions with different lifestyles are differentiated is still largely unknown. Understanding these processes is necessary to better determine the contributions of coastal bacterioplankton to carbon cycling. Here, the characteristics of community structure and carbon metabolism function of bacterioplankton with two lifestyles in the coastal areas of Guangdong Province were investigated using amplicon sequencing, metagenomic, and metatranscriptomic techniques. The results show that the main bacterioplankton responsible for carbon metabolism were the Pseudomonadota, Bacteroidota, and Actinomycetota. The microbial community structure, carbon metabolic function, and environmental preferences differ between different lifestyles. FL and PA bacteria exhibited higher carbon fixation and degradation potentials, respectively. A range of environmental factors, such as dissolved oxygen, pH, and temperature, were associated with the community structure and carbon metabolic functions of the bacterioplankton. Human activities, such as nutrient discharge, may affect the distribution of functional genes and enhance the carbon degradation functions of bacterioplankton. In conclusion, this study increased the understanding of the role of microorganisms in regulating carbon export in coastal ecosystems with intense human activity.

Supplementary information: The online version contains supplementary material available at 10.1007/s42995-024-00245-x.

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广东沿海地区浮游细菌的群落结构与碳代谢功能
沿海生态系统是生物地球化学循环的重要区域,也是人为干扰的热点地区,并且通过浮游细菌的新陈代谢活动在全球碳循环中发挥着至关重要的作用。浮游细菌大致可分为两种生活方式:自由生活(FL)和颗粒附着(PA)。然而,不同生活方式的沿岸浮游细菌的群落结构、共生网络和碳代谢功能是如何区分的,在很大程度上还不清楚。要更好地确定沿岸浮游细菌对碳循环的贡献,就必须了解这些过程。本文采用扩增子测序、元基因组和元转录组技术,研究了广东省沿海地区两种生活方式浮游细菌的群落结构特征和碳代谢功能。结果表明,负责碳代谢的浮游细菌主要是假单胞菌群、类杆菌群和放线菌群。不同生活方式的微生物群落结构、碳代谢功能和环境偏好各不相同。FL和PA细菌分别表现出较高的碳固定和降解潜力。溶解氧、pH 值和温度等一系列环境因素与浮游细菌的群落结构和碳代谢功能有关。营养物质排放等人类活动可能会影响功能基因的分布,并增强浮游细菌的碳降解功能。总之,这项研究加深了人们对人类活动频繁的沿海生态系统中微生物在调节碳输出中的作用的认识:在线版本包含补充材料,可查阅 10.1007/s42995-024-00245-x。
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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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