Three Years of Δ14CO2 Observations from Maize Leaves in the Netherlands and Western EuropeBozhinova, D., Palstra, S. W. L., van der Molen, M. K., Krol, M. C., Meijer, H. A. J. & Peters, W., Sep-2016, In : Radiocarbon. 58, 3, p. 459-478 20 p.
Research output: Contribution to journal › Article › Academic › peer-review
Atmospheric Delta(CO2)-C-14 measurements are useful to investigate the regional signals of anthropogenic CO2 emissions, despite the currently scarce observational network for Delta(CO2)-C-14. Plant samples are an easily attainable alternative, which have been shown to work well as a qualitative measure of the atmospheric Delta(CO2)-C-14 signals integrated over the time a plant has grown. Here, we present the C-14 analysis results for 89 individual maize (Zea mays) plant samples from 51 different locations that were gathered in the Netherlands in the years 2010 to 2012, and from western Germany and France in 2012. We describe our sampling strategy and results, and include a comparison to a model simulation of the Delta(CO2)-C-14 that would be accumulated in each plant over a growing season. Our model simulates the Delta(CO2)-C-14 signatures in good agreement with observed plant samples, resulting in a root-mean-square deviation (RMSD) of 3.30%. This value is comparable to the measurement uncertainty, but still relatively large ( 20-50%) compared to the total signal. It is also comparable to the spread in Delta(CO2)-C-14 values found across multiple plants from a single site, and to the spread found when averaging across larger regions. We nevertheless find that both measurements and model capture the large-scale (> 100 km) regional Delta(CO2)-C-14 gradients, with significant observation-model correlations in all three countries in which we collected samples. The modeled plant results suggest that the largest gradients found in the Netherlands and Germany are associated with emissions from energy production and road traffic, while in France, the Delta(CO2)-C-14 enrichment from nuclear sources dominates in many samples. Overall, the required model-based interpretation of plant samples adds additional uncertainty to the already relatively large measurement uncertainty in Delta(CO2)-C-14, and we suggest that future fossil fuel monitoring efforts should prioritize other strategies such as direct atmospheric sampling of CO2 and Delta(CO2)-C-14.
|Number of pages||20|
|Publication status||Published - Sep-2016|
- radiocarbon in plants, modern atmosphere, experimental, modeling, anthropogenic CO2 emissions, FOSSIL-FUEL CO2, CARBON-DIOXIDE, EMISSIONS, (CO2)-C-14, SIGNATURE, GRONINGEN, PLANT