Project Details
Microbial communities: Diversity and metabolic function
Applicant
Privatdozent Dr. Bert Engelen
Subject Area
Oceanography
Term
since 2021
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 431491505
DynaDeep will unravel the functionality and relevance of marine-terrestrial interactions below high-energy beaches, where we propose the deep subsurface to act as a dynamic bioreactor and unique microbial habitat affecting elemental net fluxes to the sea. To reach this goal, six subprojects will cooperate in joint field campaigns, shared sampling approaches as well as experimental work and use mathematical models in an integrative approach. Subproject P5 will identify variations in microbial community structures and their metabolic response to the dynamic changes in electron acceptor availability and electron donor quality within the subsurface of high-energy beaches. We hypothesize that these dynamically changing environmental conditions lead to (i) highly adapted microbial communities, composed of generalists and (ii) to a rapid metabolic response, reflected in their metatranscriptome. During the joint field campaigns, P5 will determine cell numbers and community patterns of 16S rRNA genes and transcripts in sediments and corresponding porewaters. Selected sediment horizons will be target for high-resolution metagenome and metatranscriptome analyses. The metabolic response to changing environmental conditions and resulting biogeochemical transformations will be followed in controlled laboratory experiments. All microbiological findings of P5 will be related to the respective geochemical parameters to unravel the coupling of microbial transformations to DOM composition (subproject P3) as well as conversion and fractionation of redox-sensitive elements (subprojects P2 and P4). Information on microbial distribution patterns and their metabolic network will help to calibrate the field scale and reactive transport model for the subsurface of high-energy beaches (subprojects P1 and P6).
DFG Programme
Research Units