Long-term deposition and condensation ice-nucleating particle measurements from four stations across the globe

Núcleos de condensación
de hielo
en distintas regiones
Atmospheric aerosols
Ice nucleation

Jann Schrod, Erik S. Thomson, Daniel Weber, Jens Kossmann, Christopher Pöhlker, Jorge Saturno, Florian Ditas, Paulo Artaxo, Valérie Clouard, Jean-Marie Saurel, Martin Ebert, Joachim Curtius, Heinz G. Bingemer, Long-term deposition and condensation ice-nucleating particle measurements from four stations across the globe, Atmospheric Chemistry and Physics 20: 15983–16006, doi: 10.5194/acp-20-15983-2020

Autores/as

Jann Schrod

Erik S. Thomson

Daniel Weber

Jens Kossmann

Christopher Pöhlker

Jorge Saturno

Florian Ditas

Paulo Artaxo

Valérie Clouard

Jean-Marie Saurel

Martin Ebert

Joachim Curtius

Heinz G. Bingemer

Fecha de publicación

diciembre 2020

Doi
Otros detalles

Long-term ice-nucleating particle (INP) data are presented from four semi-pristine sites located in the Amazon, the Caribbean, Germany and the Arctic.

Abstract

Ice particle activation and evolution have important atmospheric implications for cloud formation, initiation of precipitation and radiative interactions. The initial formation of atmospheric ice by heterogeneous ice nucleation requires the presence of a nucleating seed, an ice-nucleating particle (INP), to facilitate its first emergence. Unfortunately, only a few long-term measurements of INPs exist, and as a result, knowledge about geographic and seasonal variations of INP concentrations is sparse. Here we present data from nearly 2 years of INP measurements from four stations in different regions of the world: the Amazon (Brazil), the Caribbean (Martinique), central Europe (Germany) and the Arctic (Svalbard). The sites feature diverse geographical climates and ecosystems that are associated with dissimilar transport patterns, aerosol characteristics and levels of anthropogenic impact (ranging from near pristine to mostly rural). Interestingly, observed INP concentrations, which represent measurements in the deposition and condensation freezing modes, do not differ greatly from site to site but usually fall well within the same order of magnitude. Moreover, short-term variability overwhelms all long-term trends and/or seasonality in the INP concentration at all locations. An analysis of the frequency distributions of INP concentrations suggests that INPs tend to be well mixed and reflective of large-scale air mass movements. No universal physical or chemical parameter could be identified to be a causal link driving INP climatology, highlighting the complex nature of the ice nucleation process. Amazonian INP concentrations were mostly unaffected by the biomass burning season, even though aerosol concentrations increase by a factor of 10 from the wet to dry season. Caribbean INPs were positively correlated to parameters related to transported mineral dust, which is known to increase during the Northern Hemisphere summer. A wind sector analysis revealed the absence of an anthropogenic impact on average INP concentrations at the site in central Europe. Likewise, no Arctic haze influence was observed on INPs at the Arctic site, where low concentrations were generally measured. We consider the collected data to be a unique resource for the community that illustrates some of the challenges and knowledge gaps of the field in general, while specifically highlighting the need for more long-term observations of INPs worldwide.

Citation

@article{Schrod2020,
  doi = {10.5194/acp-20-15983-2020},
  url = {https://doi.org/10.5194/acp-20-15983-2020},
  year = {2020},
  month = dec,
  publisher = {Copernicus {GmbH}},
  volume = {20},
  number = {24},
  pages = {15983--16006},
  author = {Jann Schrod and Erik S. Thomson and Daniel Weber and Jens Kossmann and Christopher P\"{o}hlker and Jorge Saturno and Florian Ditas and Paulo Artaxo and Val{\'{e}}rie Clouard and Jean-Marie Saurel and Martin Ebert and Joachim Curtius and Heinz G. Bingemer},
  title = {Long-term deposition and condensation ice-nucleating particle measurements from four stations across the globe},
  journal = {Atmospheric Chemistry and Physics}
}