Document of bibliographic reference 368037
BibliographicReference record
- Type
- Bibliographic resource
- Type of document
- Journal article
- BibLvlCode
- AS
- Title
- Sedimentary DNA reveals the link between microbial community dynamics and climate during the late last glaciation in the offshore region of the Zambezi River, Southwest Indian Ocean
- Abstract
- Reconstructing the relationship between microbial communities and past abrupt climate change is of great importance for understanding current biodiversity patterns and predicting changes under future climate scenarios. However, little is currently known about how microbial communities respond to changes in key environmental stages due to a lack of research in this area. Here, we examine the variability in the communities of bacteria, archaea, and fungi from sediments deposited offshore region of the Zambezi River between 21.7 and 9.6 thousand years ago (ka) (covering the last glacial maximum, or LGM, and the early Holocene) using DNA metabarcoding approach via high-throughput sequencing. The results showed that (1) microbial assemblages differed across three key time intervals, with the last deglaciation having the most homogeneous prokaryotic assemblages, while for fungal communities in the LGM, and the early Holocene and LGM differing the most; (2) the warm early Holocene showed the highest diversity, whereas the lowest diversity was found in the LGM; and (3) the selected indicator species better reflected the climatic characteristics of different environmental stages. These results highlight the power of ancient sedimentary DNA to refine our understanding of microbial dynamics in marine sedimentary systems near large rivers, thus providing a basis for better modeling ecological processes in further research.
- Bibliographic citation
- Li, H.; Zhang, H.; Li, H.; Duan, L.; Zhang, X.; Gao, Y.; Hall, I.R.; Hemming, S.R.; LeVay, L.J. (2024). Sedimentary DNA reveals the link between microbial community dynamics and climate during the late last glaciation in the offshore region of the Zambezi River, Southwest Indian Ocean. Sci. Total Environ. 906: 167787. https://dx.doi.org/10.1016/j.scitotenv.2023.167787
- Topic
- Marine
- Is peer reviewed
- true
Authors
- author
-
- Name
- Haoyu Li
- author
-
- Name
- Hucai Zhang
- author
-
- Name
- Huayong Li
- author
-
- Name
- Lizeng Duan
- author
-
- Name
- Xiaonan Zhang
- author
-
- Name
- Youhong Gao
- author
-
- Name
- Ian Hall
- author
-
- Name
- Sidney Hemming
- author
-
- Name
- Leah LeVay