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

Ziqi Peng; Pandeng Wang; Xiaoqing Luo; Qiqi Deng; Ziwen Yang; Jiaxue Wu; Wendong Xian; Weicong Yan; Xiaozhen Mou; Yang Yuan; Wenjun Li; Jialing Li

doi:10.1007/s42995-024-00245-x

Marine Life Science & Technology ›› 2024, Vol. 6 ›› Issue (3) : 547-561. DOI: 10.1007/s42995-024-00245-x

Research Paper

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

Author information +

History +

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.

Keywords

Particle-attached and free-living bacterioplankton / Community structure / Carbon metabolism / Coastal ecosystem

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾

Ziqi Peng, Pandeng Wang, Xiaoqing Luo, Qiqi Deng, Ziwen Yang, Jiaxue Wu, Wendong Xian, Weicong Yan, Xiaozhen Mou, Yang Yuan, Wenjun Li, Jialing Li. Community structure and carbon metabolism functions of bacterioplankton in the Guangdong coastal zone. Marine Life Science & Technology, 2024, 6(3): 547‒561 https://doi.org/10.1007/s42995-024-00245-x

References

Publishing order | Descend order by publishing year | Descend order by cited within

[]	Aldunate M, De la Iglesia R, Bertagnolli AD, Ulloa O. Oxygen modulates bacterial community composition in the coastal upwelling waters off central Chile. Deep Sea Res 2 Top Stud Oceanogr, 2018, 156: 68-79

[]	Azam F, Smith DC, Hollibaugh JT. The role of the microbial loop in Antarctic pelagic ecosystems. Polar Res, 1991, 10: 239-244

[]

Bahram

, Hildebrand

, Forslund

, Anderson

, Soudzilovskaia

, Bodegom

, Bengtsson-Palme

, Anslan

, Coelho

, Harend

, Huerta-Cepas

, Medema

, Maltz

, Mundra

, Olsson

, Pent

, Põlme

, Sunagawa

, Ryberg

, Tedersoo

, et al.. Structure and function of the global topsoil microbiome. Nature, 2018, 560: 233-237,

Pubmed

[]	Banerjee S, Schlaeppi K, van der Heijden MGA. Keystone taxa as drivers of microbiome structure and functioning. Nat Rev Microbiol, 2018, 16: 567-576, Pubmed

[]	Bastian M, Heymann S, Jacomy M. Gephi: An open source software for exploring and manipulating networks. Proc Int AAAI Conf Web Soc Media, 2009, 3: 361-362

[]

Bolyen

, Rideout

, Dillon

, Bokulich

, Abnet

, Al-Ghalith

, Alexander

, Alm

, Arumugam

, Asnicar

, Bai

, Bisanz

, Bittinger

, Brejnrod

, Brislawn

, Brown

, Callahan

, Caraballo-Rodríguez

, Chase

, Cope

, et al.. Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2. Nat Biotechnol, 2019, 37: 852-857, pmcid: 7015180

Pubmed

[]	Buchfink B, Xie C, Huson DH. Fast and sensitive protein alignment using DIAMOND. Nat Meth, 2015, 12: 59-60

[]	B Bushnell (2014) BBMap: a fast, accurate, splice-aware aligner. Lawrence Berkeley National Laboratory (LBNL)

[]	Chaumeil PA, Mussig AJ, Hugenholtz P, Parks DH. GTDB-Tk: a toolkit to classify genomes with the genome taxonomy database. Bioinformatics, 2019, 36: 1925-1927, pmcid: 7703759 Pubmed

[]	Chen Y, Li C, Zhou Z, Wen J, You X, Mao Y, Lu C, Huo G, Jia X. Enhanced biodegradation of alkane hydrocarbons and crude oil by mixed strains and bacterial community analysis. Appl Biochem Biotechnol, 2014, 172: 3433-3447, Pubmed

[]	Chen S, Zhou Y, Chen Y, Gu J. fastp: an ultra-fast all-in-one FASTQ preprocessor. Bioinformatics, 2018, 34: i884-i890, pmcid: 6129281 Pubmed

[]	Clauset A, Newman MEJ, Moore C. Finding community structure in very large networks. Phys Rev E: Stat, Nonlinear, Soft Matter Phys, 2004, 70: 066111

[]	Crump BC, Armbrust EV, Baross JA. Phylogenetic analysis of particle-attached and free-living bacterial communities in the Columbia river, its estuary, and the adjacent coastal ocean. Appl Environ Microbiol, 1999, 65: 3192-3204, pmcid: 91474 Pubmed

[]	DeLong EF, Franks DG, Alldredge AL. Phylogenetic diversity of aggregate-attached vs. free-living marine bacterial assemblages. Limnol Oceanogr, 1993, 38: 924-934

[]	Dithugoe Choaro D, Bezuidt Oliver KI, Cavan Emma L, Froneman William P, Thomalla Sandy J, Makhalanyane Thulani P. Bacteria and archaea regulate particulate organic matter export in suspended and sinking marine particle fractions. mSphere, 2023, 8: e00420-e00422, pmcid: 10286711 Pubmed

[]

Djurhuus

, Closek

, Kelly

, Pitz

, Michisaki

, Starks

, Walz

, Andruszkiewicz

, Olesin

, Hubbard

, Montes

, Otis

, Muller-Karger

, Chavez

, Boehm

, Breitbart

. Environmental DNA reveals seasonal shifts and potential interactions in a marine community. Nat Commun, 2020, 11: 254, pmcid: 6959347

Pubmed

[]	Dogs M, Wemheuer B, Wolter L, Bergen N, Daniel R, Simon M, Brinkhoff T. Rhodobacteraceae on the marine brown alga Fucus spiralis are abundant and show physiological adaptation to an epiphytic lifestyle. Syst Appl Microbiol, 2017, 40: 370-382, Pubmed

[]	Duan L, Li J-L, Yin L-Z, Luo X-Q, Ahmad M, Fang B-Z, Li S-H, Deng Q-Q, Wang P, Li W-J. Habitat-dependent prokaryotic microbial community, potential keystone species, and network complexity in a subtropical estuary. Environ Res, 2022, 212, Pubmed

[]	Edgar RC. Search and clustering orders of magnitude faster than BLAST. Bioinformatics, 2010, 26: 2460-2461, Pubmed

[]	Fenchel T. The microbial loop – 25 years later. J Exp Mar Biol Ecol, 2008, 366: 99-103

[]

Flombaum

, Gallegos

, Gordillo

, Rincón

, Zabala

, Jiao

, Karl

, Li

WKW

, Lomas

, Veneziano

, Vera

, Vrugt

, Martiny

. Present and future global distributions of the marine Cyanobacteria Prochlorococcus and Synechococcus. Proc Natl Acad Sci USA, 2013, 110: 9824-9829, pmcid: 3683724

Pubmed

[]	Friedman J, Alm EJ. Inferring correlation networks from genomic survey data. PLoS Comput Biol, 2012, 8, pmcid: 3447976 Pubmed

[]	Ganesh S, Parris DJ, DeLong EF, Stewart FJ. Metagenomic analysis of size-fractionated picoplankton in a marine oxygen minimum zone. ISME J, 2014, 8: 187-211, Pubmed

[]	Giering SLC, Sanders R, Lampitt RS, Anderson TR, Tamburini C, Boutrif M, Zubkov MV, Marsay CM, Henson SA, Saw K, Cook K, Mayor DJ. Reconciliation of the carbon budget in the ocean’s twilight zone. Nature, 2014, 507: 480-483, Pubmed

[]	Gräler B, Pebesma EJ, Heuvelink GBM. . Spatio-Temporal Interpolation Using Gstat R J, 2016, 8: 204

[]	Guimerà R, Amaral LAN. Cartography of complex networks: modules and universal roles. J Stat Mech, 2005, 2005: P02001, pmcid: 2151742

[]	Harrison PJ, Yin K, Lee JHW, Gan J, Liu H. Physical–biological coupling in the Pearl River Estuary. Cont Shelf Res, 2008, 28: 1405-1415

[]	Herndl GJ, Reinthaler T. Microbial control of the dark end of the biological pump. Nat Geosci, 2013, 6: 718-724, pmcid: 3972885 Pubmed

[]	Huber H, Gallenberger M, Jahn U, Eylert E, Berg IA, Kockelkorn D, Eisenreich W, Fuchs G. A dicarboxylate/4-hydroxybutyrate autotrophic carbon assimilation cycle in the hyperthermophilic Archaeum Ignicoccus hospitalis. Proc Natl Acad Sci USA, 2008, 105: 7851-7856, pmcid: 2409403 Pubmed

[]	Hyatt D, Chen G-L, LoCascio PF, Land ML, Larimer FW, Hauser LJ. Prodigal: prokaryotic gene recognition and translation initiation site identification. BMC Bioinformatics, 2010, 11: 119, pmcid: 2848648 Pubmed

[]	Jain A, Krishnan KP, Singh A, Thomas FA, Begum N, Tiwari M, Bhaskar VP, Gopinath A. Biochemical composition of particles shape particle-attached bacterial community structure in a high Arctic fjord. Ecol Indic, 2019, 102: 581-592

[]	Jiao N, Herndl GJ, Hansell DA, Benner R, Kattner G, Wilhelm SW, Kirchman DL, Weinbauer MG, Luo T, Chen F, Azam F. Microbial production of recalcitrant dissolved organic matter: long-term carbon storage in the global ocean. Nat Rev Microbiol, 2010, 8: 593-599, Pubmed

[]	Jiao N, Tang K, Cai H, Mao Y. Increasing the microbial carbon sink in the sea by reducing chemical fertilization on the land. Nat Rev Microbiol, 2011, 9: 75-75

[]	Kaehler BD, Bokulich NA, McDonald D, Knight R, Caporaso JG, Huttley GA. Species abundance information improves sequence taxonomy classification accuracy. Nat Commun, 2019, 10: 4643, pmcid: 6789115 Pubmed

[]	Kang DD, Li F, Kirton E, Thomas A, Egan R, An H, Wang Z. MetaBAT 2: an adaptive binning algorithm for robust and efficient genome reconstruction from metagenome assemblies. PeerJ, 2019, 7, pmcid: 6662567 Pubmed

[]	Karner M, Herndl GJ. Extracellular enzymatic activity and secondary production in free-living and marine-snow-associated bacteria. Mar Biol, 1992, 113: 341-347

[]	Lai J, Zou Y, Zhang J, Peres-Neto PR. Generalizing hierarchical and variation partitioning in multiple regression and canonical analyses using the rdacca.hp R package. Methods Ecol Evol, 2022, 13: 782-788

[]	Lee J-W, Nam J-H, Kim Y-H, Lee K-H, Lee D-H. Bacterial communities in the initial stage of marine biofilm formation on artificial surfaces. J Microbiol, 2008, 46: 174-182, Pubmed

[]	Lehmann MF, Bernasconi SM, McKenzie JA, Barbieri A, Simona M, Veronesi M. Seasonal variation of the δC and δN of particulate and dissolved carbon and nitrogen in Lake Lugano: constraints on biogeochemical cycling in a eutrophic lake. Limnol Oceanogr, 2004, 49: 415-429

[]	Li W, Godzik A. Cd-hit: a fast program for clustering and comparing large sets of protein or nucleotide sequences. Bioinformatics, 2006, 22: 1658-1659, Pubmed

[]

, Jia

, Cai

, Zhong

, Feng

, Sunagawa

, Arumugam

, Kultima

, Prifti

, Nielsen

, Juncker

, Manichanh

, Chen

, Zhang

, Levenez

, Wang

, Xu

, Xiao

, Liang

, Zhang

, et al.. An integrated catalog of reference genes in the human gut microbiome. Nat Biotechnol, 2014, 32: 834-841,

Pubmed

[]	Li D, Luo R, Liu C-M, Leung C-M, Ting H-F, Sadakane K, Yamashita H, Lam T-W. MEGAHIT v1.0: a fast and scalable metagenome assembler driven by advanced methodologies and community practices. Methods, 2016, 102: 3-11, Pubmed

[]	Li J-L, Salam N, Wang P-D, Chen L-X, Jiao J-Y, Li X, Xian W-D, Han M-X, Fang B-Z, Mou X-Z, Li W-J. Discordance between resident and active bacterioplankton in free-living and particle-associated communities in estuary ecosystem. Microb Ecol, 2018, 76: 637-647, Pubmed

[]	Li JH, Cheng BH, Zhang R, Li WJ, Shi XM, Han YW, Ye LF, Ostle NJ, Bardgett RD. Nitrogen and phosphorus additions accelerate decomposition of slow carbon pool and lower total soil organic carbon pool in alpine meadows. Land Degrad Dev, 2021, 32: 1761-1772

[]	Li JH, Zhang R, Cheng BH, Ye LF, Li WJ, Shi XM. Effects of nitrogen and phosphorus additions on decomposition and accumulation of soil organic carbon in alpine meadows on the Tibetan Plateau. Land Degrad Dev, 2021, 32: 1467-1477

[]	Li L, Huang D, Hu Y, Rudling NM, Canniffe DP, Wang F, Wang Y. Globally distributed Myxococcota with photosynthesis gene clusters illuminate the origin and evolution of a potentially chimeric lifestyle. Nat Commun, 2023, 14: 6450, pmcid: 10576062 Pubmed

[]	Li X, Cheng X, Cheng K, Cai Z, Feng S, Zhou J. The influence of tide-brought nutrients on microbial carbon metabolic profiles of mangrove sediments. Sci Total Environ, 2024, 906: 167732, Pubmed

[]	Liu X, Liu M, Chen X, Yang Y, Hou L, Wu S, Zhu P. Indigenous PAH degraders along the gradient of the Yangtze Estuary of China: relationships with pollutants and their bioremediation implications. Mar Pollut Bull, 2019, 142: 419-427, Pubmed

[]	Liu Y, Lin Q, Feng J, Yang F, Du H, Hu Z, Wang H. Differences in metabolic potential between particle-associated and free-living bacteria along Pearl River Estuary. Sci Total Environ, 2020, 728: 138856, Pubmed

[]	Luo X-Q, Wang P, Li J-L, Ahmad M, Duan L, Yin L-Z, Deng Q-Q, Fang B-Z, Li S-H, Li W-J. Viral community-wide auxiliary metabolic genes differ by lifestyles, habitats, and hosts. Microbiome, 2022, 10: 190, pmcid: 9636769 Pubmed

[]	Ma Y, Li P, Zhong H, He M, Wang B, Mou X, Wu L. The ecological differentiation of particle-attached and free-living bacterial communities in a seasonal flooding lake—the Poyang Lake. Microb Ecol, 2023, 86: 795-809, Pubmed

[]	Martin M. Cutadapt removes adapter sequences from high-throughput sequencing reads. Embnet J, 2011, 17: 3

[]	Martin JH, Knauer GA, Karl DM, Broenkow WW. VERTEX: carbon cycling in the northeast Pacific. Deep-Sea Res, Part A, 1987, 34: 267-285

[]	Mirdita M, Steinegger M, Breitwieser F, Söding J, Levy Karin E. Fast and sensitive taxonomic assignment to metagenomic contigs. Bioinformatics, 2021, 37: 3029-3031, pmcid: 8479651 Pubmed

[]	Mohiuddin MM, Botts SR, Paschos A, Schellhorn HE. Temporal and spatial changes in bacterial diversity in mixed use watersheds of the Great Lakes region. J Gt Lakes Res, 2019, 45: 109-118

[]	Olesen JM, Bascompte J, Dupont YL, Jordano P. The modularity of pollination networks. Proc Natl Acad Sci USA, 2007, 104: 19891-19896, pmcid: 2148393 Pubmed

[]	Olm MR, Brown CT, Brooks B, Banfield JF. dRep: a tool for fast and accurate genomic comparisons that enables improved genome recovery from metagenomes through de-replication. ISME J, 2017, 11: 2864-2868, pmcid: 5702732 Pubmed

[]	Osburn ED, Aylward FO, Barrett JE. Historical land use has long-term effects on microbial community assembly processes in forest soils. ISME Commun, 2021, 1: 48, pmcid: 9723674 Pubmed

[]	Parada AE, Needham DM, Fuhrman JA. Every base matters: assessing small subunit rRNA primers for marine microbiomes with mock communities, time series and global field samples. Environ Microbiol, 2016, 18: 1403-1414, Pubmed

[]	Parks DH, Imelfort M, Skennerton CT, Hugenholtz P, Tyson GW. CheckM: assessing the quality of microbial genomes recovered from isolates, single cells, and metagenomes. Genome Res, 2015, 25: 1043-1055, pmcid: 4484387 Pubmed

[]	Parks DH, Rinke C, Chuvochina M, Chaumeil P-A, Woodcroft BJ, Evans PN, Hugenholtz P, Tyson GW. Recovery of nearly 8,000 metagenome-assembled genomes substantially expands the tree of life. Nat Microbiol, 2017, 2: 1533-1542, Pubmed

[]	Quast C, Pruesse E, Yilmaz P, Gerken J, Schweer T, Yarza P, Peplies J, Glöckner FO. The SILVA ribosomal RNA gene database project: improved data processing and web-based tools. Nucleic Acids Res, 2012, 41: D590-D596, pmcid: 3531112 Pubmed

[]	Rafrafi Y, Trably E, Hamelin J, Latrille E, Meynial-Salles I, Benomar S, Giudici-Orticoni M-T, Steyer J-P. Sub-dominant bacteria as keystone species in microbial communities producing bio-hydrogen. Int J Hydrogen Energy, 2013, 38: 4975-4985

[]	Schlitzer R. Carbon export fluxes in the Southern Ocean: results from inverse modeling and comparison with satellite-based estimates. Deep Sea Res 2 Top Stud Oceanogr, 2002, 49: 1623-1644

[]	Shi Z, Yin H, Van Nostrand JD, Voordeckers JW, Tu Q, Deng Y, Yuan M, Zhou A, Zhang P, Xiao N, Ning D, He Z, Wu L, Zhou J. Functional gene array-based ultrasensitive and quantitative detection of microbial populations in complex communities. mSystems, 2019, 4, pmcid: 6581690 Pubmed

[]	Siegenthaler U, Sarmiento JL. Atmospheric carbon dioxide and the ocean. Nature, 1993, 365: 119-125

[]	Smith M, Zeigler Allen L, Allen A, Herfort L, Simon H. Contrasting genomic properties of free-living and particle-attached microbial assemblages within a coastal ecosystem. Front Microbiol, 2013, 4: 120, pmcid: 3668451 Pubmed

[]	Stegen JC, Lin X, Fredrickson JK, Chen X, Kennedy DW, Murray CJ, Rockhold ML, Konopka A. Quantifying community assembly processes and identifying features that impose them. ISME J, 2013, 7: 2069-2079, pmcid: 3806266 Pubmed

[]	Stegen JC, Lin X, Fredrickson JK, Konopka AE. Estimating and mapping ecological processes influencing microbial community assembly. Front Microbiol, 2015, 6: 370, pmcid: 4416444 Pubmed

[]	Strokal M, Kroeze C, Li L, Luan S, Wang H, Yang S, Zhang Y. Increasing dissolved nitrogen and phosphorus export by the Pearl River (Zhujiang): a modeling approach at the sub-basin scale to assess effective nutrient management. Biogeochemistry, 2015, 125: 221-242

[]

Sunagawa

, Coelho

, Chaffron

, Kultima

, Labadie

, Salazar

, Djahanschiri

, Zeller

, Mende

, Alberti

, Cornejo-Castillo

, Costea

, Cruaud

, d'Ovidio

, Engelen

, Ferrera

, Gasol

, Guidi

, Hildebrand

, Kokoszka

, et al.. Structure and function of the global ocean microbiome. Science, 2015, 348: 1261359,

Pubmed

[]	Tu Q, Yu H, He Z, Deng Y, Wu L, Van Nostrand JD, Zhou A, Voordeckers J, Lee Y-J, Qin Y, Hemme CL, Shi Z, Xue K, Yuan T, Wang A, Zhou J. GeoChip 4: a functional gene-array-based high-throughput environmental technology for microbial community analysis. Mol Ecol Resour, 2014, 14: 914-928, Pubmed

[]	Wang P, Li J-L, Luo X-Q, Ahmad M, Duan L, Yin L-Z, Fang B-Z, Li S-H, Yang Y, Jiang L, Li W-J. Biogeographical distributions of nitrogen-cycling functional genes in a subtropical estuary. Funct Ecol, 2022, 36: 187-201

[]	Xu H, Zhao D, Huang R, Cao X, Zeng J, Yu Z, Hooker KV, Hambright KD, Wu QL. Contrasting network features between free-living and particle-attached bacterial communities in Taihu Lake. Microb Ecol, 2018, 76: 303-313, Pubmed

[]	Xu H, Zeng J, Li C, Zhao D, He R, Wu QL. Distinct microhabitats affect the relative balance of ecological processes shaping the spatial distribution of bacterial communities in lakeshore habitats. Freshw Biol, 2021, 66: 1475-1489

[]	Yuan X, Yin K, Harrison PJ, Cai W, He L, Xu J. Bacterial production and respiration in subtropical Hong Kong waters: influence of the Pearl River discharge and sewage effluent. Aquat Microb Ecol, 2010, 58: 167-179

[]	Zhang Y, Xiao W, Jiao N. Linking biochemical properties of particles to particle-attached and free-living bacterial community structure along the particle density gradient from freshwater to open ocean. J Geophys Res: Biogeosci, 2016, 121: 2261-2274

[]	Zhang L, Delgado-Baquerizo M, Shi Y, Liu X, Yang Y, Chu H. Co-existing water and sediment bacteria are driven by contrasting environmental factors across glacier-fed aquatic systems. Water Res, 2021, 198: 117139, Pubmed

Funding

National Natural Science Foundation of China(32200090); Key-Area Research and Development Program of Guangdong Province(2022B0202110001); Guangdong Basic and Applied Basic Research Foundation(2022A1515010756); Science and Technology Program by Department of Natural Resources of Guangdong Province(GDNRC [2023]41); Key Research Program Project of Guangzhou Science and Technology Bureau(2024B03J1276)