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3872212 
Journal Article 
Carbon balance of a grazed savanna grassland ecosystem in South Africa 
Rasanen, M; Aurela, M; Vakkari, V; Beukes, JP; Tuovinen, JP; Van Zyl, PG; Josipovic, M; Venter, AD; Jaars, K; Siebert, SJ; Laurila, T; Rinne, J; Laakso, L 
2017 
Yes 
Biogeosciences
ISSN: 1726-4170
EISSN: 1726-4189 
14 
1039-1054 
WOS:000396168900001 
Tropical savannas and grasslands are estimated to contribute significantly to the total primary production of all terrestrial vegetation. Large parts of African savannas and grasslands are used for agriculture and cattle grazing, but the carbon flux data available from these areas are limited. This study explores carbon dioxide fluxes measured with the eddy covariance method for 3 years at a grazed savanna grassland in Welgegund, South Africa. The tree cover around the measurement site, grazed by cattle and sheep, was around 15 %. The night-time respiration was not significantly dependent on either soil moisture or soil temperature on a weekly temporal scale, whereas on an annual timescale higher respiration rates were observed when soil temperatures were higher. The carbon dioxide balances of the years 2010-2011, 2011-2012 and 2012-2013 were 85 +/- 16, 67 +/- 20 and 139 +/- 13 gCm(-2) yr(-1), respectively. The yearly variation was largely determined by the changes in the early wet season fluxes (September to November) and in the mid-growing season fluxes (December to January). Early rainfall enhanced the respiratory capacity of the ecosystem throughout the year, whereas during the mid-growing season high rainfall resulted in high carbon uptake.