Observations of molecular hydrogen mixing ratio and stable isotopic composition at the Cabauw tall tower in the Netherlands
| Autor: | Batenburg, A.m., Popa, M.e., Vermeulen, A.t., Van Den Bulk, W.c.m., Jongejan, P.a.c., Fisher, R.e., Lowry, D., Nisbet, E.g., Röckmann, T., Sub Atmospheric physics and chemistry, Afd Marine and Atmospheric Research, Marine and Atmospheric Research |
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| Přispěvatelé: | Sub Atmospheric physics and chemistry, Afd Marine and Atmospheric Research, Marine and Atmospheric Research |
| Rok vydání: | 2016 |
| Předmět: |
Pollution
Atmospheric Science 010504 meteorology & atmospheric sciences Meteorology media_common.quotation_subject CESAR Growing season 010501 environmental sciences Atmospheric sciences 01 natural sciences Environmental Science(all) Mixing ratio Cabauw Air quality index Stable isotopes 0105 earth and related environmental sciences General Environmental Science media_common Chemistry Stable isotope ratio Atmospheric observations Hydrogen molecule Sampling (statistics) Deuterium 13. Climate action Tower Hydrogen |
| Zdroj: | Atmospheric Environment, 147, 98. Elsevier Limited |
| ISSN: | 1352-2310 |
| DOI: | 10.1016/j.atmosenv.2016.09.058 |
| Popis: | Measurements of the stable isotopic composition (δD(H2) or δD) of atmospheric molecular hydrogen (H2) are a useful addition to mixing ratio (χ(H2)) measurements for understanding the atmospheric H2 cycle. δD datasets published so far consist mostly of observations at background locations. We complement these with observations from the Cabauw tall tower at the CESAR site, situated in a densely populated region of the Netherlands. Our measurements show a large anthropogenic influence on the local H2 cycle, with frequently occurring pollution events that are characterized by χ(H2) values that reach up to ≈1 ppm and low δD values. An isotopic source signature analysis yields an apparent source signature below −400‰, which is much more D-depleted than the fossil fuel combustion source signature commonly used in H2 budget studies. Two diurnal cycles that were sampled at a suburban site near London also show a more D-depleted source signature (≈−340‰), though not as extremely depleted as at Cabauw. The source signature of the Northwest European vehicle fleet may have shifted to somewhat lower values due to changes in vehicle technology and driving conditions. Even so, the surprisingly depleted apparent source signature at Cabauw requires additional explanation; microbial H2 production seems the most likely cause. The Cabauw tower site also allowed us to sample vertical profiles. We found no decrease in χ(H2) at lower sampling levels (20 and 60 m) with respect to higher sampling levels (120 and 200 m). There was a significant shift to lower median δD values at the lower levels. This confirms the limited role of soil uptake around Cabauw, and again points to microbial H2 production during an extended growing season, as well as to possible differences in average fossil fuel combustion source signature between the different footprint areas of the sampling levels. So, although knowledge of the background cycle of H2 has improved over the last decade, surprising features come to light when a non-background location is studied, revealing remaining gaps in our understanding. |
| Databáze: | OpenAIRE |
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