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Contrasting early successional dynamics of bacterial and fungal communities in recently deglaciated soils of the maritime Antarctic

Cited 3 time in wos
Cited 3 time in scopus
Title
Contrasting early successional dynamics of bacterial and fungal communities in recently deglaciated soils of the maritime Antarctic
Other Titles
남극 해안가에 위치한 최근 빙하후퇴지역에서의 세균과 진균 군집 간의 천이 특성 차이
Authors
Gyeong, Hye Ryeon
Hyun, Chang-Uk
Kim, Seok Cheol
Tripathi, Binu Mani
Yun, Jeongeun
Kim, Jinhyun
Kang, Hojeong
Kim, Ji Hee
Kim, Sanghee
Kim, Mincheol
Subject
Biochemistry & Molecular BiologyEnvironmental Sciences & EcologyEvolutionary Biology
Keywords
bacterial communityfungal communityglacier forelandmicrobial ecologymicrobial succession
Issue Date
2021-09
Citation
Gyeong, Hye Ryeon, et al. 2021. "Contrasting early successional dynamics of bacterial and fungal communities in recently deglaciated soils of the maritime Antarctic". MOLECULAR ECOLOGY, 30(17): 4231-4244.
Abstract
Although microorganisms are the very first colonizers of recently deglaciated soils even prior to plant colonization, the drivers and patterns of microbial community succession at early-successional stages remain poorly understood. The successional dynamics and assembly processes of bacterial and fungal communities were compared on a glacier foreland in the maritime Antarctic across the ~10-year soil-age gradient from bare soil to sparsely vegetated area. Bacterial communities shifted more rapidly than fungal communities in response to glacial retreat; species turnover (primarily the transition from glacier- to soil-favouring taxa) contributed greatly to bacterial beta diversity, but this pattern was less clear in fungi. Bacterial communities underwent more predictable (more deterministic) changes along the soil-age gradient, with compositional changes paralleling the direction of changes in soil physicochemical properties following deglaciation. In contrast, the compositional shift in fungal communities was less associated with changes in deglaciation-induced changes in soil geochemistry and most fungal taxa displayed mosaic abundance distribution across the landscape, suggesting that the successional dynamics of fungal communities are largely governed by stochastic processes. A co-occurrence network analysis revealed that biotic interactions between bacteria and fungi are very weak in early succession. Taken together, these results collectively suggest that bacterial and fungal communities in recently deglaciated soils are largely decoupled from each other during succession and exert very divergent trajectories of succession and assembly under different selective forces.
URI
https://repository.kopri.re.kr/handle/201206/13613
DOI
http://dx.doi.org/10.1111/mec.16054
Type
Article
Station
King Sejong Station
Indexed
SCIE
Appears in Collections  
2021-2021, Ecophysiology of Antarctic terrestrial organisms to reveal mechanisms of adaptation to changing environment (21-21) / Lee, Hyoungseok (PE21130)
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