Vorträge und Posterpräsentationen (ohne Tagungsband-Eintrag):
L. Felgitsch, M. Bichler, A. Vogel, T. Häusler, H. Grothe:
"Biological particles capable of triggering ice nucleation in the atmosphere";
Vortrag: EGU General Assembly 2016,
Vienna;
17.04.2016
- 22.04.2016.
Kurzfassung englisch:
Ice-nucleating particles (INPs) have a huge impact on atmospheric processes, since they can trigger ice cloud
formation. In general, ice clouds interfere with the radiation balance of planet Earth effectively at high altitudes.
Since ambient matter of biological origin tends to have rather large aerodynamic diameters, it exhibits a fast
sinking velocity and can only reach limited altitudes. Therefore, research focused on materials found in higher
quantities in the upper atmosphere. However, recent findings indicate that the role of biological INPs has been
underestimated in the past. In 2012 Pummer and colleagues found that the INPs from birch pollen can be washed
off and constitute of macromolecules in the size-range of a few nanometres. With such a small diameter, they
show a much longer life span in the upper atmosphere than expected. Further, Huffman and colleagues showed in
2013 a burst of biological INPs over woodlands triggered by rain events, which matches the finding of Pummer et
al. well.
Plants originating from the northern timberline experience harsh conditions with night frost even during
the warm seasons. To prevent frost damages, those plants developed coping mechanisms. Many plant species,
which are domestic in cold weather zones, exhibit ice nucleation activity. Therefore, it is important to examine
those plants to understand the scale at which biological INPs can be emitted.
For the presented results we focus on two types of samples: Berries and tree pollen. Both belong to plants
domestic at the northern timberline. With our results we are able to show that INPs are spread vastly throughout
different species. Furthermore, all those INPs show certain similarities to each other, most importantly, all of the
found INPs seem to be associated to macromolecules in the nano-particulate size range. We examined the INPs
from birch pollen more closely. Results indicate that proteins play a major role.
Pummer, B., Bauer, H., Bernardi, J., Bleicher, S., Grothe, H.; Suspendable macromolecules are responsible
for ice nucleation activity of birch and conifer pollen; Atmos. Chem. Phys., 12, 2541 - 2550, 2012.
Huffman J.A., Prenni A.J., DeMott P.J., Pöhlker C., Mason R.H., Robinson N.H., Frohlich-Nowoisky J.,
Tobo Y., Després V.R., Garcia E., Gochis D.J., Harris E., Müller-Germann I., Ruzene C., Schmer B., Sinha
B., Day D.A., Andreae M.O., Jimenez J.L., Gallagher M., Kreidenweis S.M., Bertram A.K., Pöschl U., High
Concentrations of Biological Aerosol Particles and Ice Nuclei During and After Rain; Atmos. Chem. Phys. Vol.
13; pp 6151-6164, 2013.
Schlagworte:
ice nucleation, birch
Erstellt aus der Publikationsdatenbank der Technischen Universität Wien.