1. Paleoenvironmental imprint on subseafloor microbial communities in Western Mediterranean Sea Quaternary sediments.
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Ciobanu, M.-C., Rabineau, M., Droz, L., Révillon, S., Ghiglione, J.-F., Dennielou, B., Jorry, S.-J., Kallmeyer, J., Etoubleau, J., Pignet, P., Crassous, P., Vandenabeele-Trambouze, O., Laugier, J., Guégan, M., Godfroy, A., and Alain, K.
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MARINE sediments ,QUATERNARY stratigraphic geology ,PROTEOBACTERIA ,PALEONTOLOGY ,TURBIDITES ,MICROORGANISMS ,CLIMATE change - Abstract
An interdisciplinary study was conducted to evaluate the relationship between geological and paleontological parameters and the bacterial and archaeal community structure of two contrasted subseafloor sites in the Western Mediterranean Sea (Ligurian Sea and Gulf of Lions). Since both depositional environments were well-documented in this area, large data-sets were available and allowed to calibrate the investigated cores with several reference and dated cores previously collected in the same area, and notably correlated to Quaternary climate variations. Molecular-based fingerprints showed that the Ligurian Sea sediments, characterized by an heterolithic facies with numerous turbidites from a deep-sea levee, were unexpectedly dominated by Betaproteobacteria (more than 70 %), at the base of the core mainly below five meters in the sediment. Analysis of relative betaproteobacterial abundances and turbidites frequency indicated that the microbial diversity was controlled by the important climatic changes occurring during the last 20 ka. This result was supported by statistical direct multivariate canonical correspondence analyses (CCA). In contrast, the Gulf of Lions core, characterized by a homogeneous lithology of upper-slope environment, was dominated by the Bacteroidetes group and in a lesser extent, by the Betaproteobacteria group. At both sites, the dominance of Betaproteobacteria coincided with increased terrestrial inputs, as confirmed by the geochemical measurements (Si, Sr, Ti and Ca). In the Gulf of Lions, geochemical parameters were also found to drive microbial community composition. Taken together, our data suggest that the palaeoenvironmental history of erosion and deposition recorded in the Western-Mediterranean Sea sediments has left its imprint on the structure/composition of the microbial communities during the late Quaternary. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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