Microorganisms in Fe-Mn Nodules and Crusts: Comparative Study between the North and South Atlantic Ocean

Fe-Mn crusts and nodules are deep-sea minerals that are economically and ecologically important. Future mining of these minerals is predicted to have significant effects on biodiversity. Thus, for future mining impact studies, it is crucial to understand the role of crusts and nodules in shaping mic...

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Bibliographic Details
Main Author: Bergo, Natascha Menezes
Other Authors: Pellizari, Vivian Helena
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Biblioteca Digital de Teses e Dissertações da USP 2020
Subjects:
Oceano Atlântico
Nódulo de ferromanganes
Ciclos Biogeoquímicos
Comunidades de Micro-organismos
Crosta de ferromanganes
Mar profundo
Microbial Community
Ferromanganese Nodule
Ferromanganese Crust
Deep-sea
Biogeochemical Cycling
Atlantic Ocean
Pacific
South Atlantic Ocean
Online Access:https://www.teses.usp.br/teses/disponiveis/21/21134/tde-17052022-110258/
https://doi.org/10.11606/T.21.2020.tde-17052022-110258
Description
Summary:Fe-Mn crusts and nodules are deep-sea minerals that are economically and ecologically important. Future mining of these minerals is predicted to have significant effects on biodiversity. Thus, for future mining impact studies, it is crucial to understand the role of crusts and nodules in shaping microbial diversity and function in the deep-sea. The main objective of this thesis was to better understand the bacterial and archaeal diversity associated to Fe-Mn crusts, nodules, coral skeletons, calcarenites and surrounding sediments from two Fe-Mn deposits from Atlantic Ocean. The combination of molecular fingerprinting and geochemical approaches used in this study helped to test how the environmental factors of these habitats affect the structure of microbial communities and investigate general patterns of their distribution in the North and South Atlantic Ocean. We analyzed samples and abiotic data from three oceanographic expeditions: one at Tropic seamount and two at Rio Grande Rise (RGR). In Chapter I, the local and regional scales of microbial community structure and their relation to the environmental factors were investigated at the Tropic seamount and RGR. Also, spatial variations of community structure associated to Fe-Mn deposits from the Atlantic and Pacific Oceans were investigated using 16S rRNA gene sequences from public databases. Our results are in general agreement with previous studies in the Pacific Ocean, confirming that crusts and nodules provide a specific ecological niche. Fe-Mn crusts and nodules from Atlantic seamounts showed a typical deep-sea microbiome, with dominance of the classes Gammaproteobacteria and Alphaproteobacteria, but at higher taxonomic resolution we detected substantial differences. Fe-Mn crusts and nodules from Tropic seamount and RGR host a higher proportion of microbial community composition potentially involved in the metal and nitrogen cycle. Variation in the microbial community structure was linked to local heterogeneity, as depth and environmental variables ...

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