Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench

Jiwen Liu; Yanfen Zheng; Heyu Lin; Xuchen Wang; Meng Li; Yang Liu; Meng Yu; Meixun Zhao; Nikolai Pedentchouk; David J. Lea-Smith; Jonathan D. Todd; Clayton R. Magill; Wei Jia Zhang; Shun Zhou; Delei Song; Haohui Zhong; Yu Xin; Min Yu; Jiwei Tian; Xiao Hua Zhang

doi:10.1186/s40168-019-0652-3

Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench

Jiwen Liu
, Yanfen Zheng
, Heyu Lin
, Xuchen Wang
, Meng Li
, Yang Liu
, Meng Yu
, Meixun Zhao
, Nikolai Pedentchouk
, David J. Lea-Smith
, Jonathan D. Todd
, Clayton R. Magill
, Wei Jia Zhang
, Shun Zhou
, Delei Song
, Haohui Zhong
, Yu Xin
, Min Yu
, Jiwei Tian^*
, Xiao Hua Zhang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

151 Scopus citations

Abstract

Background: The Mariana Trench is the deepest known site in the Earth's oceans, reaching a depth of ~ 11,000 m at the Challenger Deep. Recent studies reveal that hadal waters harbor distinctive microbial planktonic communities. However, the genetic potential of microbial communities within the hadal zone is poorly understood. Results: Here, implementing both culture-dependent and culture-independent methods, we perform extensive analysis of microbial populations and their genetic potential at different depths in the Mariana Trench. Unexpectedly, we observed an abrupt increase in the abundance of hydrocarbon-degrading bacteria at depths > 10,400 m in the Challenger Deep. Indeed, the proportion of hydrocarbon-degrading bacteria at > 10,400 m is the highest observed in any natural environment on Earth. These bacteria were mainly Oleibacter, Thalassolituus, and Alcanivorax genera, all of which include species known to consume aliphatic hydrocarbons. This community shift towards hydrocarbon degraders was accompanied by increased abundance and transcription of genes involved in alkane degradation. Correspondingly, three Alcanivorax species that were isolated from 10,400 m water supplemented with hexadecane were able to efficiently degrade n-alkanes under conditions simulating the deep sea, as did a reference Oleibacter strain cultured at atmospheric pressure. Abundant n-alkanes were observed in sinking particles at 2000, 4000, and 6000 m (averaged 23.5 μg/gdw) and hadal surface sediments at depths of 10,908, 10,909, and 10,911 m (averaged 2.3 μg/gdw). The δ ² H values of n-C _16/18 alkanes that dominated surface sediments at near 11,000-m depths ranged from - 79 to - 93‰, suggesting that these sedimentary alkanes may have been derived from an unknown heterotrophic source. Conclusions: These results reveal that hydrocarbon-degrading microorganisms are present in great abundance in the deepest seawater on Earth and shed a new light on potential biological processes in this extreme environment.

Original language	English
Article number	47
Journal	Microbiome
Volume	7
Issue number	1
DOIs	https://doi.org/10.1186/s40168-019-0652-3
State	Published - 12 Apr 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019 The Author(s).

Keywords

Challenger Deep
Hadal water
Hydrocarbon biosynthesis
Hydrocarbon degradation
Mariana Trench
Metagenomics
Microbial community

ASJC Scopus subject areas

Microbiology
Microbiology (medical)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/s40168-019-0652-3

Cite this

Liu, J., Zheng, Y., Lin, H., Wang, X., Li, M., Liu, Y., Yu, M., Zhao, M., Pedentchouk, N., Lea-Smith, D. J., Todd, J. D., Magill, C. R., Zhang, W. J., Zhou, S., Song, D., Zhong, H., Xin, Y., Yu, M., Tian, J., & Zhang, X. H. (2019). Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench. Microbiome, 7(1), Article 47. https://doi.org/10.1186/s40168-019-0652-3

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title = "Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench",

abstract = " Background: The Mariana Trench is the deepest known site in the Earth's oceans, reaching a depth of \textasciitilde{} 11,000 m at the Challenger Deep. Recent studies reveal that hadal waters harbor distinctive microbial planktonic communities. However, the genetic potential of microbial communities within the hadal zone is poorly understood. Results: Here, implementing both culture-dependent and culture-independent methods, we perform extensive analysis of microbial populations and their genetic potential at different depths in the Mariana Trench. Unexpectedly, we observed an abrupt increase in the abundance of hydrocarbon-degrading bacteria at depths > 10,400 m in the Challenger Deep. Indeed, the proportion of hydrocarbon-degrading bacteria at > 10,400 m is the highest observed in any natural environment on Earth. These bacteria were mainly Oleibacter, Thalassolituus, and Alcanivorax genera, all of which include species known to consume aliphatic hydrocarbons. This community shift towards hydrocarbon degraders was accompanied by increased abundance and transcription of genes involved in alkane degradation. Correspondingly, three Alcanivorax species that were isolated from 10,400 m water supplemented with hexadecane were able to efficiently degrade n-alkanes under conditions simulating the deep sea, as did a reference Oleibacter strain cultured at atmospheric pressure. Abundant n-alkanes were observed in sinking particles at 2000, 4000, and 6000 m (averaged 23.5 μg/gdw) and hadal surface sediments at depths of 10,908, 10,909, and 10,911 m (averaged 2.3 μg/gdw). The δ 2 H values of n-C 16/18 alkanes that dominated surface sediments at near 11,000-m depths ranged from - 79 to - 93‰, suggesting that these sedimentary alkanes may have been derived from an unknown heterotrophic source. Conclusions: These results reveal that hydrocarbon-degrading microorganisms are present in great abundance in the deepest seawater on Earth and shed a new light on potential biological processes in this extreme environment.",

keywords = "Challenger Deep, Hadal water, Hydrocarbon biosynthesis, Hydrocarbon degradation, Mariana Trench, Metagenomics, Microbial community",

author = "Jiwen Liu and Yanfen Zheng and Heyu Lin and Xuchen Wang and Meng Li and Yang Liu and Meng Yu and Meixun Zhao and Nikolai Pedentchouk and Lea-Smith, \{David J.\} and Todd, \{Jonathan D.\} and Magill, \{Clayton R.\} and Zhang, \{Wei Jia\} and Shun Zhou and Delei Song and Haohui Zhong and Yu Xin and Min Yu and Jiwei Tian and Zhang, \{Xiao Hua\}",

note = "Publisher Copyright: {\textcopyright} 2019 The Author(s).",

year = "2019",

month = apr,

day = "12",

doi = "10.1186/s40168-019-0652-3",

language = "English",

volume = "7",

journal = "Microbiome",

issn = "2049-2618",

publisher = "BioMed Central Ltd.",

number = "1",

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TY - JOUR

T1 - Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench

AU - Liu, Jiwen

AU - Zheng, Yanfen

AU - Lin, Heyu

AU - Wang, Xuchen

AU - Li, Meng

AU - Liu, Yang

AU - Yu, Meng

AU - Zhao, Meixun

AU - Pedentchouk, Nikolai

AU - Lea-Smith, David J.

AU - Todd, Jonathan D.

AU - Magill, Clayton R.

AU - Zhang, Wei Jia

AU - Zhou, Shun

AU - Song, Delei

AU - Zhong, Haohui

AU - Xin, Yu

AU - Yu, Min

AU - Tian, Jiwei

AU - Zhang, Xiao Hua

PY - 2019/4/12

Y1 - 2019/4/12

N2 - Background: The Mariana Trench is the deepest known site in the Earth's oceans, reaching a depth of ~ 11,000 m at the Challenger Deep. Recent studies reveal that hadal waters harbor distinctive microbial planktonic communities. However, the genetic potential of microbial communities within the hadal zone is poorly understood. Results: Here, implementing both culture-dependent and culture-independent methods, we perform extensive analysis of microbial populations and their genetic potential at different depths in the Mariana Trench. Unexpectedly, we observed an abrupt increase in the abundance of hydrocarbon-degrading bacteria at depths > 10,400 m in the Challenger Deep. Indeed, the proportion of hydrocarbon-degrading bacteria at > 10,400 m is the highest observed in any natural environment on Earth. These bacteria were mainly Oleibacter, Thalassolituus, and Alcanivorax genera, all of which include species known to consume aliphatic hydrocarbons. This community shift towards hydrocarbon degraders was accompanied by increased abundance and transcription of genes involved in alkane degradation. Correspondingly, three Alcanivorax species that were isolated from 10,400 m water supplemented with hexadecane were able to efficiently degrade n-alkanes under conditions simulating the deep sea, as did a reference Oleibacter strain cultured at atmospheric pressure. Abundant n-alkanes were observed in sinking particles at 2000, 4000, and 6000 m (averaged 23.5 μg/gdw) and hadal surface sediments at depths of 10,908, 10,909, and 10,911 m (averaged 2.3 μg/gdw). The δ 2 H values of n-C 16/18 alkanes that dominated surface sediments at near 11,000-m depths ranged from - 79 to - 93‰, suggesting that these sedimentary alkanes may have been derived from an unknown heterotrophic source. Conclusions: These results reveal that hydrocarbon-degrading microorganisms are present in great abundance in the deepest seawater on Earth and shed a new light on potential biological processes in this extreme environment.

AB - Background: The Mariana Trench is the deepest known site in the Earth's oceans, reaching a depth of ~ 11,000 m at the Challenger Deep. Recent studies reveal that hadal waters harbor distinctive microbial planktonic communities. However, the genetic potential of microbial communities within the hadal zone is poorly understood. Results: Here, implementing both culture-dependent and culture-independent methods, we perform extensive analysis of microbial populations and their genetic potential at different depths in the Mariana Trench. Unexpectedly, we observed an abrupt increase in the abundance of hydrocarbon-degrading bacteria at depths > 10,400 m in the Challenger Deep. Indeed, the proportion of hydrocarbon-degrading bacteria at > 10,400 m is the highest observed in any natural environment on Earth. These bacteria were mainly Oleibacter, Thalassolituus, and Alcanivorax genera, all of which include species known to consume aliphatic hydrocarbons. This community shift towards hydrocarbon degraders was accompanied by increased abundance and transcription of genes involved in alkane degradation. Correspondingly, three Alcanivorax species that were isolated from 10,400 m water supplemented with hexadecane were able to efficiently degrade n-alkanes under conditions simulating the deep sea, as did a reference Oleibacter strain cultured at atmospheric pressure. Abundant n-alkanes were observed in sinking particles at 2000, 4000, and 6000 m (averaged 23.5 μg/gdw) and hadal surface sediments at depths of 10,908, 10,909, and 10,911 m (averaged 2.3 μg/gdw). The δ 2 H values of n-C 16/18 alkanes that dominated surface sediments at near 11,000-m depths ranged from - 79 to - 93‰, suggesting that these sedimentary alkanes may have been derived from an unknown heterotrophic source. Conclusions: These results reveal that hydrocarbon-degrading microorganisms are present in great abundance in the deepest seawater on Earth and shed a new light on potential biological processes in this extreme environment.

KW - Challenger Deep

KW - Hadal water

KW - Hydrocarbon biosynthesis

KW - Hydrocarbon degradation

KW - Mariana Trench

KW - Metagenomics

KW - Microbial community

UR - https://www.scopus.com/pages/publications/85064200527

U2 - 10.1186/s40168-019-0652-3

DO - 10.1186/s40168-019-0652-3

M3 - Article

C2 - 30975208

AN - SCOPUS:85064200527

SN - 2049-2618

VL - 7

JO - Microbiome

JF - Microbiome

IS - 1

M1 - 47

ER -

Proliferation of hydrocarbon-degrading microbes at the bottom of the Mariana Trench

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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