Project Details
Projekt
SPP 2322: Systems ecology of soils – Energy Discharge Modulated by Microbiome and Boundary Conditions (SoilSystems)
Subject Area
Agriculture, Forestry and Veterinary Medicine
Medicine
Medicine
Term
since 2021
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 441899689
No abstract available
DFG Programme
Priority Programmes
International Connection
Austria, Sweden
Projects
- A synthetic community approach to test how energy and matter fluxes are modulated by trophic interactions and the primary energy substrate in soil (Applicants Huber, Katharina ; Neumann-Schaal, Meina ; Pester, Michael )
- Carbon and energy flow in the soil microbiome – functional groups, activity and interactions in trophic networks (Applicants Kolb, Steffen ; Rueß, Liliane )
- Carbon and energy use efficiency of soil microorganisms unfolding over time (Applicant Blagodatskiy, Sergey )
- Coordination Funds (Applicant Thiele-Bruhn, Sören )
- Economic and bioenergetic implications of microbial cooperation in soil systems (EcoEnergeticS) (Applicants Dippold, Michaela ; Mason-Jones, Ph.D., Kyle )
- Energy Structures - Energy sustains dissipative structures in soil systems (Applicants Maskow, Thomas ; Schaumann, Gabriele ; Thiele-Bruhn, Sören )
- EPS or necromass? Disentangling the role of microbial residues in plant-soil systems (Applicants Dyckmans, Jens ; Jörgensen, Rainer Georg )
- Galactosamine can be used as an indicator for microbial extracellular polymeric substances (EPS), an important source of stable organic matter in agricultural soils (Applicants Dyckmans, Jens ; Jörgensen, Rainer Georg )
- Impact of predatory Myxobacteria on soil microbiome complexity, energy flux and necromass quality. (Applicant Urich, Tim )
- Implications of energy and matter fluxes on microbial diversity and complexity in soil systems (Applicant Tebbe, Ph.D., Christoph )
- Live/Dead: Contribution of soil protists to carbon cycles through microbe predation and necromass (Applicants Chatzinotas, Antonis ; Jurburg, Stephanie )
- Locating microbial metabolite hotspots to resolve soil energy and organic carbon dynamics (SoilEnergySpots) (Applicants Minceva, Mirjana ; Schweizer, Steffen ; Strittmatter, Ph.D., Nicole )
- Microbial growth and respiration kinetics – bridging microbial activity and bioenergetics in soil (Applicants Blagodatskiy, Sergey ; Bonkowski, Michael )
- Microheat-2: Carbon and energy turnover for complex substrates and intact soils (Applicants Blagodatskaya, Evgenia ; Reitz, Thomas ; Schlüter, Steffen )
- Minerals and their interactions with dissolved organic matter as regulators of microbial necromass stabilization in soil (Applicants Mikutta, Robert ; Schrumpf, Marion )
- MUltiscale Spatially explicit modeling of coupled carbon, nitrogen and Energy flows in soil systems (MUSE) (Applicants Pagel, Holger ; Streck, Thilo )
- Novel ultra-high resolution mass spectrometric approaches to decipher structural and physico-chemical drivers of soil organic matter stabilization (Applicant Lechtenfeld, Oliver )
- Probing microbial carbon use efficiency in soil as a function of substrate chemistry, redox heterogeneity and soil aggregate structure (Applicant Lüders, Tillmann )
- Sorption thermodynamics and aggregation as controls of substrate use and mineralization 2: Response to complex boundary conditions (Applicants Lang, Friederike ; Mulder, Ines ; Siemens, Jan ; Stutz, Kenton )
- Spatially explicit modeling of energy and matter fluxes in soils (MicroMod) (Applicant Ray, Nadja )
- The role of microorganisms for carbon and energy turnover in soil microhabitats (MicroHabits) (Applicants Kandeler, Ellen ; Marhan, Sven ; Poll, Christian )
- The significance of saprobic fungi for energy and matter turnover under varying substrate conditions - from individuals to soils (Applicant Camenzind, Tessa )
- Thermodynamic modelling of matter and energy dynamics at the aggregated soil system perspective (SysPer) (Applicants Kleidon, Axel ; Wutzler, Thomas )
- Thermodynamics of microbial turnover of organic compounds in soil – matter and energy fluxes under varying redox conditions, biomass-substrate ratios, and availability of biomass building blocks (TherMic-II) (Applicants Maskow, Thomas ; Miltner, Anja )
- Train SpaTEn: Transport enhances the energy return on investment in the spatially and temporally heterogeneous soil environment (Applicants Razavi, Bahar S. ; Spielvogel, Sandra )
Spokesperson
Professor Dr. Sören Thiele-Bruhn
