Vertical Distribution of Bacteria in a Lake Sediment from Antarctica by Culture-independent and Culture-dependent Approaches

Overview

Journal Res Microbiol

Publisher Elsevier

Specialty Microbiology

Date 2010 Dec 4

PMID 21126578

Citations 20

Authors

Sisinthy Shivaji

Kiran Kumari

Kankipati Hara Kishore

Pavan Kumar Pindi

Pasupuleti Sreenivasa Rao

Tanuku Naga Radha Srinivas

Rajesh Asthana

Rasik Ravindra

Affiliations

Soon will be listed here.

Abstract

Bacterial diversity of the subsurface (18-22 cm), middle (60-64 cm) and bottom (100-104 cm) of a 136-cm-long sediment core sampled from a freshwater lake in Antarctica was determined by the culturable approach, T-RFLP and 16S rRNA gene clone libraries. Using the culturable approach, 41 strains were isolated and, based on phylogenetic analysis, they could be categorized into 14 groups. Representatives of the 14 groups varied in their growth temperature range (4-30 °C), in their tolerance to NaCl (0-2 M NaCl) and in the growth pH range (5-11). Eleven of fourteen representative strains exhibited either amylase, lipase, protease and (or) urease activities at 4 °C. Bacterial diversity at the phyla level using T-RFLP and 16S rRNA clone libraries was similar and clones were affiliated with Proteobacteria, Bacteroidetes, Actinobacteria and Firmicutes. TRFs affiliated with Spirochaetes were detected only by the T-RFLP approach and clones affiliated with Caldiserica only in the clone libraries. Stratification of bacteria along the depth of the sediment was observed both with the T-RFLP and the 16S rRNA gene clone library methods, and results indicated that stratification was dependent on the nature of the organism, aerobic or anaerobic. For instance, aerobic Janthinobacterium and Polaromonas were confined to the surface of the sediment, whereas anaerobic Caldisericum was present only in the bottom portion of the core. It may be concluded that the bacterial diversity of an Antarctic lake sediment core sample varies throughout the length of the core depending on the oxic-anoxic conditions of the sediment. Furthermore, these psychrophilic bacteria, due to their ability to produce extracellular cold active enzymes, might play a key role in the transformation of complex organic compounds.

Citing Articles

Bacterial Diversity and Vertical Distribution Patterns in Sandy Sediments: A Study on the Bacterial Community Structure Based on Environmental Factors in Tributaries of the Yangtze River.

Zhang T, Wang W, Leng Y, Huang Y, Xiong W, Chang F Microorganisms. 2024; 12(6).

PMID: 38930560 PMC: 11205631. DOI: 10.3390/microorganisms12061178.

Bacterial community composition of the sediment in Sayram Lake, an alpine lake in the arid northwest of China.

Shao K, Zhang L, Ba T, Chao J, Gao G BMC Microbiol. 2023; 23(1):47.

PMID: 36823577 PMC: 9948317. DOI: 10.1186/s12866-023-02793-1.

Microbial diversity in tropical marine sediments assessed using culture-dependent and culture-independent techniques.

Demko A, Patin N, Jensen P Environ Microbiol. 2021; 23(11):6859-6875.

PMID: 34636122 PMC: 8670064. DOI: 10.1111/1462-2920.15798.

Prokaryotic Diversity and Composition of Sediments From Prydz Bay, the Antarctic Peninsula Region, and the Ross Sea, Southern Ocean.

Li J, Gu X, Gui Y Front Microbiol. 2020; 11:783.

PMID: 32411115 PMC: 7198716. DOI: 10.3389/fmicb.2020.00783.

Microbial Ecology from the Himalayan Cryosphere Perspective.

Dhakar K, Pandey A Microorganisms. 2020; 8(2).

PMID: 32075196 PMC: 7074745. DOI: 10.3390/microorganisms8020257.