Soil water content as a critical factor for stable bacterial community structure and degradative activity in maritime Antarctic soil

Dockyu Kim; Namyi Chae; Mincheol Kim; Sungjin Nam; Eungbin Kim; Hyoungseok Lee

doi:10.1007/s12275-020-0490-9

Articles

Page Path: HOME > J. Microbiol > Volume 58(12); 2020 > Article

Journal Article
Soil water content as a critical factor for stable bacterial community structure and degradative activity in maritime Antarctic soil: Dockyu Kim ^1†, Namyi Chae ², Mincheol Kim ¹, Sungjin Nam ¹, Eungbin Kim ³, Hyoungseok Lee ¹; Journal of Microbiology 2020;58(12):1010-1017.
DOI: https://doi.org/10.1007/s12275-020-0490-9
Published online: December 2, 2020

¹Division of Life Sciences, Korea Polar Research Institute, Incheon 21990, Republic of Korea, ²Institutes of Life Sciences and Natural Resources, Korea University, Seoul 02841, Republic of Korea, ³Department of Systems Biology, Yonsei University, Seoul 03722, Republic of Korea

Corresponding author: Dockyu Kim , Tel: +82-32-760-5525;,

Received: 21 September 2020 • Revised: 26 October 2020 • Accepted: 29 October 2020

prev next

106 Views
0 Download
5 Web of Science
5 Crossref
5 Scopus

Full Article

Abstract

Recent increases in air temperature across the Antarctic Peninsula may prolong the thawing period and directly affect the soil temperature (Ts) and volumetric soil water content (SWC) in maritime tundra. Under an 8°C soil warming scenario, two customized microcosm systems with maritime Antarctic soils were incubated to investigate the differential influence of SWC on the bacterial community and degradation activity of humic substances (HS), the largest constituent of soil organic carbon and a key component of the terrestrial ecosystem. When the microcosm soil (KS1-4Feb) was incubated for 90 days (T = 90) at a constant SWC of ~32%, the initial HS content (167.0 mg/g of dried soil) decreased to 156.0 mg (approximately 6.6% loss, p < 0.05). However, when another microcosm soil (KS1-4Apr) was incubated with SWCs that gradually decreased from 37% to 9% for T = 90, HS degradation was undetected. The low HS degradative activity persisted, even after the SWC was restored to 30% with water supply for an additional T = 30. Overall bacterial community structure remained relatively stable at a constant SWC setting (KS1-4Feb). In contrast, we saw marked shifts in the bacterial community structure with the changing SWC regimen (KS1-4Apr), suggesting that the soil bacterial communities are vulnerable to drying and re-wetting conditions. These microcosm experiments provide new information regarding the effects of constant SWC and higher Ts on bacterial communities for HS degradation in maritime Antarctic tundra soil.

Keywords: Antarctic tundra soil, bacterial composition, degradative activity, humic substances, microcosm

Figure & Data

References

Citations

Citations to this article as recorded by

Bacterial community composition and function in different habitats in Antarctic Fildes region revealed by high-throughput sequencing
Yi-He Zhang, Yong-Qiang Hu, Yin-Xin Zeng, Ting Hu, Wei Han, Yu Du, Zhong Hu, Shan-Shan Meng
Frontiers in Microbiology.2025;[Epub] CrossRef
Effect of coal mining subsidence on soil microbial communities in mining areas with high groundwater levels
Ruiping Xu, Junying Li, Xinju Li, Wen Song
Environmental Geochemistry and Health.2025;[Epub] CrossRef
Microbial metabolic responses and CO2 emissions differentiated by soil water content variation in subarctic tundra soils
Dockyu Kim, Namyi Chae, Mincheol Kim, Sungjin Nam, Tai Kyoung Kim, Ki-Tea Park, Bang Yong Lee, Eungbin Kim, Hyoungseok Lee
Journal of Microbiology.2022; 60(12): 1130. CrossRef
Temperature sensitivity of Antarctic soil‐humic substance degradation by cold‐adapted bacteria
Dockyu Kim, Ha Ju Park, Mincheol Kim, Seulah Lee, Soon Gyu Hong, Eungbin Kim, Hyoungseok Lee
Environmental Microbiology.2022; 24(1): 265. CrossRef
Seasonal patterns of rhizosphere microorganisms suggest carbohydrate-degrading and nitrogen-fixing microbes contribute to the attribute of full-year shooting in woody bamboo Cephalostachyum pingbianense
Lushuang Li, Tize Xia, Hanqi Yang
Frontiers in Microbiology.2022;[Epub] CrossRef

Cite this Article

Cite this Article: export Copy Download Format; Close

Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

Format:

RIS — For EndNote, ProCite, RefWorks, and most other reference management software
BibTeX — For JabRef, BibDesk, and other BibTeX-specific software

Include:

Citation for the content below
Citation and abstract for the content below

Soil water content as a critical factor for stable bacterial community structure and degradative activity in maritime Antarctic soil

J. Microbiol. 2020;58(12):1010-1017. Published online December 2, 2020

DOI: https://doi.org/10.1007/s12275-020-0490-9

Related articles