Zusammenfassung der Projektergebnisse

The processes in the pedosphere are crucial for the global water, carbon and biogeochemical cycles. Since soil represents a natural body covering essentially the entire non-aqueous surface of planet earth, it is intimately involved in the absorption, storage, transfer and release of heat, water, gases and other chemicals; it serves as a reservoir for biological diversity and has a profound influence on the environments of all living organisms. Biogeochemical processes in soils are a primary driving force for key ecosystem functions including plant productivity and water quality. These processes also ultimately control the fate and transport of contaminants and nutrients. An emerging realization of the global interrelationships and relevance of these effects dictates the need for detailed mechanistic understanding of these processes. The research within SPP 1315 "Biogeochemical Interfaces in Soil" aims at the systematic structural characterization and functional exploration of biogeochemical interfaces in soil and at unravelling their role for the fate and effect of organic chemicals. The overall joint scientific goal is to gain a mechanistic understanding of the interplay and interdependencies of the physical, chemical, and biological processes operative at biogeochemical interfaces. The grand challenges are to identify the factors controlling the architecture of biogeochemical interfaces, to link the processes operative at the molecular and organism scale to the phenomena active at the aggregate scale in a mechanistic way and to explain the medium- to long-term behavior of organic chemicals in soil within a general mechanistic framework. The methodological approach has been based on the utilization and cross-linking of new and emerging techniques adopted from the fields of molecular biology and material- and nano-sciences with soil physical, chemical and biological methods. This comprised in particular the joint application of new generation spectro-microscopic and tomographic techniques in combination with advanced approaches in computational chemistry and molecular biology to link the information on the local and organismic scale to the formation, maturing, and functioning of biogeochemical interfaces at the continuum scale. Of particular importance was the inauguration and accomplishment of a set of defined joint experiments that made available direct information on structure, dynamics, function and interaction in situ and in real-time over ranges of concentration, composition, and environmental conditions at the highest possible spatial and temporal resolution.

Projektbezogene Publikationen (Auswahl)

• Molecular modeling in soil research. European Journal of Soil Science, Vol. 58, Issue: 4. August 2007. Special Issue
  Gerzabek Martin H., Haberhauer Georg, Totsche Kai Uwe, Tunega Daniel (eds.)
  (Siehe online unter https://doi.org/10.1111/j.1365-2389.2007.00918.x)
• Advances of molecular modeling of biogeochemical interfaces in soils. Geoderma, Vol. 169. December 2011. Special Issue
  Tunega Daniel, Gerzabek Martin H., Totsche Kai Uwe (eds.)
  (Siehe online unter https://doi.org/10.1016%2Fj.geoderma.2011.07.021)
• Spectro-microscopic characterization of biogeochemical interfaces in soil. Journal of Soils and Sediments, Vol. 12, Issue: 1. January 2012. Special Issue
  Totsche Kai Uwe, Eusterhues Karin, Rennert Thilo (eds.)
  (Siehe online unter https://doi.org/10.1007/s11368-011-0417-5)
• Microbial ecology of biogeochemical interfaces - diversity, structure, and function of microhabitats in soil. FEMS Microbiology Ecology, Vol. 86, Issue: 1, October 2013, Special Issue
  Hanzel Joanna, Myrold David, Sessitsch Angela, Smalla Kornelia, Tebbe Christoph C, Totsche Kai Uwe (eds.)
  (Siehe online unter https://doi.org/10.1111/1574-6941.12194)