Abstract: The rapid process of urbanization worldwide has a profound effect on global carbon cycle. It's important to have an explicit understanding of the spatial distribution of CO₂ to recognize and control Green-house gases (GHGs) emission, which is helpful to reduce human-induced contribution to global climate change. The study area of this project is set in the metropolitan city of Shanghai with the background of high-intensity of human activities and rapid urbanization. Mobile measuring methodology was used to determine near surface CO₂ concentration along typical transects in spring, 2014 by means of near infrared gas analyzer LI-840A, combined with classification of urbanization levels and types of land use information derived from remote sensing data. Qualitative and quantitative analysis of CO₂ concentration's response mechanisms to urbanization levels and types of land use are represented in this paper. Data suggested a well-shaped carbon dioxide dome with mean concentration of 445.8±40.5 μmol/mol in the city center, 55.1 μmol/mol (13.3%) higher than that in suburban areas. CO₂ concentration exhibited a significant spatial heterogeneity and descended in a sequence with three directions which were northwest, southwest and southeast, respectively. Near surface CO₂ has a negative relationship with distance to the city center with a decline of 1.56 μmol/mol per kilometer. In general, Near surface CO₂ concentrations dropped rapidly within the range of 20 km from the urban core (DUC) while rather slowly out of the same range(approximately 0.7 μmol/mol/km). Urbanization levels within the territory of Shanghai City have significant impacts on concentrations of near surface CO₂. According to the classification of urbanization levels, concentrations with high, middle, low urbanization level and suburban areas are 467.6±44.7, 451.7±41.1, 452.7±34.9 and 426.0±24.8 μmol/mol, respectively. Coverage rate of forested land has the highest correlation with near surface CO₂ concentration following by the construction areas, farmland and grassland with the correlation coefficient of -0.64, 0.63, -0.55 and -0.52(P<0.01), respectively. Correlation coefficients between near surface CO₂ concentrations and types of land use score higher values in high urbanization and suburban areas than in middle and low urbanization areas.

Key words: near surface CO₂ concentration, carbon dioxide dome, urbanization level, types of land use, mobile measuring methodology, Shanghai city