Grazing areas represent the largest agricultural areas in Brazil, occupying more than 172 million hectares, about 20% of the agricultural land (IBGE, 2007). Despite the large areas of degraded pasture, little information exists about the temporal variation of soil properties including nutrients and soil carbon dynamic (Cerri et al., 2004). This study aimed to measure soil FCO2 from degraded and managed pasture areas, describing their temporal variability correlated to the environmental variables. Our study was carried out at two pasture areas located in Mococa city, São Paulo State Brazil. On March 04, 2013, 2 grids of 100 × 100 m with 102 samples points were installed in DP (Degraded pasture) and managed pasture (MP). Measurements of soil CO2 emissions (FCO2), soil temperature (Tsoil) and water content of soil (WCsoil) were initiated onMarch 12th, resulting 8 measuring days. Higher difference of emission between both areasoccurred during the first days, probably due to a huge precipitation influence (accumulated 80mm). In the first study day (12th), emission values were 8.73 ± 0.38 versus 4.47 ± 0.21μmol m-2 s-1, in DP and MP, respectively. In the last study day, March 19th, emissions in both areas were closer without remarkable rain influence (7.43 ± 0.54 and 5.98 ± 0.17μmol m-2 s-1). Total emission calculated by the area bellow the emission curves resulted 640.7 versus 440.0kg CO2-C ha-1 in DP and MP, respectively, corresponding to an additional emission of 200.6kg CO2-C ha-1 from DP or, 735.5kg CO2 released to the atmosphere, contributing to the Climate Change. The potential for soil C sequestration in pasture soils is strictly related to their management, and the rate and mechanism of soil C losses in pasture soils can affect this potential, with soils functioning as an atmospheric CO2 sinking or emitter.