Mass balance equations can be used to quantify the level of fossil carbon dioxide (CO<sub>2</sub>)<sub>ff</sub> at a given site by using samples of tree leaves or tree rings. These sites are of...Mass balance equations can be used to quantify the level of fossil carbon dioxide (CO<sub>2</sub>)<sub>ff</sub> at a given site by using samples of tree leaves or tree rings. These sites are often densely populated and highly industrialized areas. In this case, in addition to the natural carbon dioxide level of the site, there are several other components that are added to it. The approaches we propose in this paper are based on the isotopic fractionation of carbon and the laws of matter conservation. Mathematical equations are derived from this and we propose approaches to establish them. Our method has allowed us to come to the conclusion of the relationship that is already found in literature. But we term this relationship in another way by introducing the fraction of carbon modern F and the proportion of CO<sub>2</sub> derived from fossil fuels, which will be noted (S)<sub>ff</sub> for the following. As an indicator of the Suess Effect, we have calculated these values in our different sites. Wooded areas sites which are located in urban areas have higher value of proportion of fossil fuel <span style="white-space:normal;">(S)</span><sub style="white-space:normal;">ff</sub> .展开更多
Radiocarbon content in biogenic samples is widely used to study the variation of atmospheric CO<sub>2</sub> due to anthropogenic activities. A total of 20 samples of several types of tree leaves, were anal...Radiocarbon content in biogenic samples is widely used to study the variation of atmospheric CO<sub>2</sub> due to anthropogenic activities. A total of 20 samples of several types of tree leaves, were analyzed for this study. Sampling was carried out at the end of the rainy season in 2017 from the surrounding of the SOCOCIM cement factory in Rufisque town. Rufisque is located on the peninsula of Cape Verde, 25 km east of Dakar, where it is the 《south gate》 of the agglomeration. Reference samples of five different species were collected during the same period (2017) from a clean zone. The <sup>14</sup>C method was used for the determination of Δ<sup>14</sup>C values. The data show that the <sup>14</sup>C concentration in the studied sites was significantly lower than the clean area, due to the release of anthropogenic CO<sub>2</sub>. To estimate the Suess effect, the fossil fuel fraction was determined based on equations of mass balance for CO<sub>2</sub> concentration, stable isotopic composition of carbon, and <sup>14</sup>C concentration. The results show that selected locations are affected differently according to their distance from the factory and the wind direction.展开更多
文摘Mass balance equations can be used to quantify the level of fossil carbon dioxide (CO<sub>2</sub>)<sub>ff</sub> at a given site by using samples of tree leaves or tree rings. These sites are often densely populated and highly industrialized areas. In this case, in addition to the natural carbon dioxide level of the site, there are several other components that are added to it. The approaches we propose in this paper are based on the isotopic fractionation of carbon and the laws of matter conservation. Mathematical equations are derived from this and we propose approaches to establish them. Our method has allowed us to come to the conclusion of the relationship that is already found in literature. But we term this relationship in another way by introducing the fraction of carbon modern F and the proportion of CO<sub>2</sub> derived from fossil fuels, which will be noted (S)<sub>ff</sub> for the following. As an indicator of the Suess Effect, we have calculated these values in our different sites. Wooded areas sites which are located in urban areas have higher value of proportion of fossil fuel <span style="white-space:normal;">(S)</span><sub style="white-space:normal;">ff</sub> .
文摘Radiocarbon content in biogenic samples is widely used to study the variation of atmospheric CO<sub>2</sub> due to anthropogenic activities. A total of 20 samples of several types of tree leaves, were analyzed for this study. Sampling was carried out at the end of the rainy season in 2017 from the surrounding of the SOCOCIM cement factory in Rufisque town. Rufisque is located on the peninsula of Cape Verde, 25 km east of Dakar, where it is the 《south gate》 of the agglomeration. Reference samples of five different species were collected during the same period (2017) from a clean zone. The <sup>14</sup>C method was used for the determination of Δ<sup>14</sup>C values. The data show that the <sup>14</sup>C concentration in the studied sites was significantly lower than the clean area, due to the release of anthropogenic CO<sub>2</sub>. To estimate the Suess effect, the fossil fuel fraction was determined based on equations of mass balance for CO<sub>2</sub> concentration, stable isotopic composition of carbon, and <sup>14</sup>C concentration. The results show that selected locations are affected differently according to their distance from the factory and the wind direction.
