B23B-0598
Carbon budget of Nyungwe Tropical Montane Rain Forest in Central Africa

Tuesday, 15 December 2015
Poster Hall (Moscone South)
Brigitte Nyirambangutse1, Etienne Zibera2, Félicien Karekezi Uwizeye1,2, Linda Hansson1, Donat Nsabimana2, Håkan Pleijel1, Johan Uddling3 and Göran Wallin3, (1)University of Gothenburg, Gothenburg, Sweden, (2)University of Rwanda, Biology, Huye, Rwanda, (3)University of Gothenburg, Dept. of Biological and Environmental Sciences, Gothenburg, Sweden
Abstract:
African tropical rainforests host rich biodiversity and play many roles at different scales such as local, regional and global, in the functioning of the earth system. Despite that the African tropical forests are the world’s second largest, it has been neglected in terms of understanding the storage and fluxes of carbon and other nutrients. The question of whether this biome is a net sink or source of atmospheric CO2 is still not answered, and little is known concerning the climate change response. Tropical montane forests are even more poorly sampled compared with their importance. Deeper understanding of these ecosystems is required to provide insights on how they might react under global change. To answer questions related to these issues for African tropical montane forests, 15 permanent 0.5 ha plots were established in 2011 in Nyungwe tropical montane rainforest gazetted as a National Park to protect its extensive floral and faunal diversity. The plots are arranged along an east-westerly transect and includes both primary and secondary forest communities. The study is connected to the global ecosystem monitoring network (GEM, http://gem.tropicalforests.ox.ac.uk/). The aim is to characterize spatial and temporal heterogeneity of carbon and nutrient dynamics processes. The role of microclimate, topography, human disturbances, and plant species to the variability of these pools and processes will be explored.

We compare stocks and fluxes of carbon and nutrients of the secondary and primary forest communities. The carbon stock are determined by an inventory of height and diameter at breast height (dbh) of all trees with a dbh above 5 cm, wood density, biomass of understory vegetation, leaf area index, standing and fallen dead wood, fine root biomass and organic content of various soil layers (litter, organic and mineral soil down to 45 cm depth). The carbon fluxes are determined by measurements of photosynthesis and respiration of leaves, above and below ground tree growth (stem, and fine roots), litter fall and soil respiration. Results of the carbon budget defined through the net primary productivity (NPP), autotrophic respiration (Ra) and gross primary productivity (GPP) will be presented, comparing primary and secondary forest communities.