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TZID:Europe/Berlin
TZUNTIL:20191027T010000Z
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DTSTART:20171029T030000
TZOFFSETFROM:+0200
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RDATE:20181028T030000
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UID:www.bayceer.uni-bayreuth.de-bayceer-t142774id
DTSTAMP:20260519T042947Z
DESCRIPTION:Vegetation is the source of roughly 90 % of the total volatile 
 organic carbon emissions to the atmosphere. The oxidation of biogenic vola
 tile organic compounds (BVOC) contributes to the formation of secondary or
 ganic aerosol (SOA) with large implications for the atmospheric aerosol's 
 climate and health effects. The oxidation of anthropogenic VOC also adds t
 o SOA formation and leads to complex interactions of atmospheric oxidation
  pathways of biogenic and anthropogenic VOC\, which must be untangled in o
 rder to fully describe SOA formation in the atmosphere. Furthermore\, envi
 ronmental stress such as heat and drought can induce additional emissions 
 of biogenic VOC. Therefore\, climate change will affect the biogenic contr
 ibution to SOA fomation and has to be considered in projections of future 
 climate. \n*** invited by Andreas Held\, Atmospheric Chemistry
DTSTART;TZID=Europe/Berlin:20171120T121500
DTEND;TZID=Europe/Berlin:20171120T133000
LOCATION:S 103\, FAN B
SUMMARY:Prof. Dr. Astrid Kiendler-Scharr\, Director of the Institute for En
 ergy and Climate Research IEK-8: Troposphere\, Forschungszentrum Jülich (H
 omepage): Biogenic contributions to secondary organic aerosol
TRANSP:TRANSPARENT
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