10.26165/JUELICH-DATA/WG2981Dey, BiplobBiplobDey0000-0002-3998-9165Institute of Climate and Energy Systems (ICE), Troposphäre (ICE-3)Sjøgren, Toke DueToke DueSjøgrenDepartment of Biology, Center for Volatile Interactions (VOLT), University of Copenhagen, Copenhagen, DenmarkWu, YizhenInstitute of Climate and Energy Systems (ICE), Troposphäre (ICE-3)Rinnan, RiikkaRiikkaRinnan0000-0001-7222-700XDepartment of Biology, Center for Volatile Interactions (VOLT), University of Copenhagen, Copenhagen, DenmarkPfannerstill, Eva Y.Eva Y.Pfannerstill0000-0001-7715-1200Institute of Climate and Energy Systems (ICE), Troposphäre (ICE-3)Jülich DATA2025Earth and Environmental SciencesPfannerstill, Eva Y.Eva Y.PfannerstillInstitute of Climate and Energy Systems (ICE), Troposphäre (ICE-3)Dey, BiplobInstitute of Climate and Energy Systems (ICE), Troposphäre (ICE-3)2025-08-012025-10-0819297524755142371275application/x-h5text/x-pythontext/x-pythontext/plain1.0CC0 WaiverThe data is used to study how heat, ozone, and combined stressors influence biogenic volatile organic compound (BVOC) emissions in Fagus sylvatica (Beech) and Quercus robur (Oak). The experiment was conducted in a controlled environment and high-resolution PTR-ToF-MS measurements.