TY - JOUR A1 - Schorn, Michelle A. A1 - Verhoeven, Stefan A1 - Ridder, Lars A1 - Huber, Florian A1 - Acharya, Deepa D. A1 - Aksenov, Alexander A. A1 - Aleti, Gajender A1 - Moghaddam, Jamshid Amiri A1 - Aron, Allegra T. A1 - Aziz, Saefuddin A1 - Bauermeister, Anelize A1 - Bauman, Katherine D. A1 - Baunach, Martin A1 - Beemelmanns, Christine A1 - Beman, J. Michael A1 - Berlanga-Clavero, María Victoria A1 - Blacutt, Alex A. A1 - Bode, Helge B. A1 - Boullie, Anne A1 - Brejnrod, Asker A1 - Bugni, Tim S. A1 - Calteau, Alexandra A1 - Cao, Liu A1 - Carrión, Víctor J. A1 - Castelo-Branco, Raquel A1 - Chanana, Shaurya A1 - Chase, Alexander B. A1 - Chevrette, Marc G. A1 - Costa-Lotufo, Leticia V. A1 - Crawford, Jason M. A1 - Currie, Cameron R. A1 - Cuypers, Bart A1 - Dang, Tam A1 - de Rond, Tristan A1 - Demko, Alyssa M. A1 - Dittmann, Elke A1 - Du, Chao A1 - Drozd, Christopher A1 - Dujardin, Jean-Claude A1 - Dutton, Rachel J. A1 - Edlund, Anna A1 - Fewer, David P. A1 - Garg, Neha A1 - Gauglitz, Julia M. A1 - Gentry, Emily C. A1 - Gerwick, Lena A1 - Glukhov, Evgenia A1 - Gross, Harald A1 - Gugger, Muriel A1 - Guillén Matus, Dulce G. A1 - Helfrich, Eric J. N. A1 - Hempel, Benjamin-Florian A1 - Hur, Jae-Seoun A1 - Iorio, Marianna A1 - Jensen, Paul R. A1 - Kang, Kyo Bin A1 - Kaysser, Leonard A1 - Kelleher, Neil L. A1 - Kim, Chung Sub A1 - Kim, Ki Hyun A1 - Koester, Irina A1 - König, Gabriele M. A1 - Leao, Tiago A1 - Lee, Seoung Rak A1 - Lee, Yi-Yuan A1 - Li, Xuanji A1 - Little, Jessica C. A1 - Maloney, Katherine N. A1 - Männle, Daniel A1 - Martin H, Christian A1 - McAvoy, Andrew C. A1 - Metcalf, Willam W. A1 - Mohimani, Hosein A1 - Molina-Santiago, Carlos A1 - Moore, Bradley S. A1 - Mullowney, Michael W. A1 - Muskat, Mitchell A1 - Nothias, Louis-Félix A1 - O'Neill, Ellis C. A1 - Parkinson, Elizabeth I. A1 - Petras, Daniel A1 - Piel, Jörn A1 - Pierce, Emily C. A1 - Pires, Karine A1 - Reher, Raphael A1 - Romero, Diego A1 - Roper, M. Caroline A1 - Rust, Michael A1 - Saad, Hamada A1 - Saenz, Carmen A1 - Sanchez, Laura M. A1 - Sørensen, Søren Johannes A1 - Sosio, Margherita A1 - Süssmuth, Roderich D. A1 - Sweeney, Douglas A1 - Tahlan, Kapil A1 - Thomson, Regan J. A1 - Tobias, Nicholas J. A1 - Trindade-Silva, Amaro E. A1 - van Wezel, Gilles P. A1 - Wang, Mingxun A1 - Weldon, Kelly C. A1 - Zhang, Fan A1 - Ziemert, Nadine A1 - Duncan, Katherine R. A1 - Crüsemann, Max A1 - Rogers, Simon A1 - Dorrestein, Pieter C. A1 - Medema, Marnix H. A1 - van der Hooft, Justin J. J. T1 - A community resource for paired genomic and metabolomic data mining JF - Nature Chemical Biology Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:hbz:due62-opus-34708 UR - http://www.ncbi.nlm.nih.gov/pubmed/33589842 SN - 1552-4469 N1 - Additional information: Supplementary information The online version contains supplementary material available at https://doi.org/10.1038/s41589-020-00724-z. VL - 17 IS - 4 SP - 363 EP - 368 PB - Nature ER - TY - JOUR A1 - General, S. A1 - Pöhler, D. A1 - Sihler, H. A1 - Bobrowski, N. A1 - Frieß, U. A1 - Zielcke, J. A1 - Horbanski, M. A1 - Shepson, P. B. A1 - Stirm, B. H. A1 - Simpson, W. R. A1 - Weber, Konradin A1 - Fischer, C. A1 - Platt, U. T1 - The Heidelberg Airborne Imaging DOAS Instrument (HAIDI) – a novel imaging DOAS device for 2-D and 3-D imaging of trace gases and aerosols JF - Atmospheric Measurement Techniques N2 - Abstract. Many relevant processes in tropospheric chemistry take place on rather small scales (e.g., tens to hundreds of meters) but often influence areas of several square kilometer. Thus, measurements of the involved trace gases with high spatial resolution are of great scientific interest. In order to identify individual sources and sinks and ultimately to improve chemical transport models, we developed a new airborne instrument, which is based on the well established Differential Optical Absorption Spectroscopy (DOAS) method. The Heidelberg Airborne Imaging DOAS Instrument (HAIDI) is a passive imaging DOAS spectrometer, which is capable of recording horizontal and vertical trace gas distributions with a resolution of better than 100 m. Observable species include NO2, HCHO, C2H2O2, H2O, O3, O4, SO2, IO, OClO and BrO. Here we give a technical description of the instrument including its custom-built spectrographs and CCD detectors. Also first results from measurements with the new instrument are presented. These comprise spatial resolved SO2 and BrO in volcanic plumes, mapped at Mt. Etna (Sicily, Italy), NO2 emissions in the metropolitan area of Indianapolis (Indiana, USA) as well as BrO and NO2 distributions measured during arctic springtime in context of the BRomine, Ozone, and Mercury EXperiment (BROMEX) campaign, which was performed 2012 in Barrow (Alaska, USA). KW - Luftreinhaltung Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:hbz:due62-opus-50179 SN - 1867-8548 VL - 7 IS - 10 SP - 3459 EP - 3485 PB - Copernicus ER -