Carbon, Nitrogen and Water Cycles in deepwater rice cultivation
DFG Research Unit 1701: Introducing Non-Flooded Crops in Rice-Dominated Landscapes: Impact on Carbon, Nitrogen and Water Cycles (ICON)
Subproject 4b: Plant-soil interactions in changing rice cropping systems and their influence on C and N dynamics
Principal investigators: Prof. Jan Siemens with Prof. Wulf Amelung and PD Eva Lehndorff (University of Bonn)
Person in charge: MSc Irabella Thiemann
Period: 2015-2018
Summary:
Plant-soil interactions drive the input, cycling and losses of C and N in soil. This subproject aims at elucidating the input and fate of C in the soil-plant systems and its effect of N retention in soil under different paddy management (continuous vs. alternating with maize cropping). In particular we will investigate (i) how much of the assimilate C is released by the plants into the rhizosphere soil, and how this rhizodeposition is affected by N supply, soil density and crop variety during plant development, (ii) how the exudation of C and N responds to land use change, (iii) how C released into the rhizosphere affects the turnover of soil C and utilization of fertilizer N, and (iv) to what degree leaching contributes to the loss of C and N from the rooted surface soil. To answer these questions, we will combine the use of isotopic 13C and 15N labeling in laboratory and field experiments with a sophisticated characterization of root exudates, root border cells, and compound-specific isotope tracing in the residues of bacteria and fungi in rhizosphere, bulk soil as well as within different dissolved organic and inorganic carbon species in soil leachates. In this way and in collaboration with SP 2, 5, 6, and 7 of this research unit, our project links the cycling of C and N in paddy soils to one of its most prominent drivers, the release of organic compounds by roots.
Funding: Deutsche Forschungsgemeinschaft (SI 1106/9-2)
Weitere Informationen: http://www.uni-giessen.de/faculties/f08/departments/tsz-en/animal-ecology/iconproject/iconindex