R. D. Otto
Goethe University Frankfurt
6 Papers
215 Citations
R. D. Otto is an academic researcher from Goethe University Frankfurt. The author has contributed to research in topics: Biosphere model & Vegetation. The author has an hindex of 5, co-authored 6 publications.
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Papers
The Frankfurt Biosphere Model: a global process-oriented model of seasonal and long-term CO2 exchange between terrestrial ecosystems and the atmosphere. I. Model description and illustrative results for cold deciduous and boreal forests
M. K. B. Lüdeke,Franz-W. Badeck,R. D. Otto,C. Häger,S. Dönges,J. Kindermann,G. Würth,T. Lang,U. Jäkel,A. Klaudius,P. Ramge,Stefan Habermehl,G. H. Kohlmaier +12 more
TL;DR: In this paper, the seasonal pattern of uptake and release of CO, by vegetation and soil in a steady-state climate simulation as well as the long-term development in a changing environment is presented.
The Frankfurt Biosphere Model: a global process-oriented model of seasonal and long-term CO2 exchange between terrestrial ecosystems and the atmosphere. II. Global results for potential vegetation in an assumed equilibrium state
Responses in NPP and carbon stores of the northern biomes to a CO2-induced climatic change, as evaluated by the Frankfurt biosphere model (FBM)
M. K. B. Lüdeke,S. Dönges,R. D. Otto,J. Kindermann,Franz-W. Badeck,P. Ramge,U. Jäkel,G. H. Kohlmaier +7 more
TL;DR: In this paper, the role of boreal and temperate forests and the tundra ecosystems in a future CO 2 -induced climate change, the Frankfurt biosphere model was applied to the 3 × CO 2 climate as calculated by the GCM of the MPI fur Meteorologie in Hamburg.
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Structure of a global and seasonal carbon exchange model for the terrestrial biosphere : the Frankfurt Biosphere Model (FBM)
J. Kindermann,M. K. B. Lüdeke,Franz-W. Badeck,R. D. Otto,A. Klaudius,C. Häger,G. Würth,T. Lang,S. Dönges,Stefan Habermehl,G. H. Kohlmaier +10 more
TL;DR: In this paper, the internal dynamics in the living vegetation are modeled using allometric relations and the relative amounts of CO2 in pools with relatively short and long turnover times are given.
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The frankfurt biosphere model (fbm)
J. Kindermann,M. K. B. Lüdeke,R. D. Otto,A. Klaudius,G. Worth,T. Lang,S. Dönges,Stefan Habermehl,G. H. Kohlmaier,Theoretische Chemie,J. W. Goethe-Universit +10 more
- 01 Jan 1993
TL;DR: In this article, the internal dynamics in the living vegetation are modeled using allometric relations and the relative amounts of CO 2 in pools with relatively short and long turnover times are given.
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