Martin Graus
Overview
Explore the profile of Martin Graus including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
385
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Recent Articles
1.
Karl T, Lamprecht C, Graus M, Cede A, Tiefengraber M, Vila-Guerau de Arellano J, et al.
Sci Adv
. 2023 Jan;
9(3):eadd2365.
PMID: 36652521
Nitrogen oxides (NO) play a central role in catalyzing tropospheric ozone formation. Nitrogen dioxide (NO) has recently reemerged as a key target for air pollution control measures, and observational evidence...
2.
Nicolini G, Antoniella G, Carotenuto F, Christen A, Ciais P, Feigenwinter C, et al.
Sci Total Environ
. 2022 Mar;
830:154662.
PMID: 35318060
The measures taken to contain the spread of COVID-19 in 2020 included restrictions of people's mobility and reductions in economic activities. These drastic changes in daily life, enforced through national...
3.
Fitzky A, Peron A, Kaser L, Karl T, Graus M, Tholen D, et al.
Front Plant Sci
. 2021 Oct;
12:708711.
PMID: 34630460
Volatile organic compounds (VOCs) emitted by plants consist of a broad range of gasses which serve purposes such as protecting against herbivores, communicating with insects and neighboring plants, or increasing...
4.
Kreuzwieser J, Graus M, Wisthaler A, Hansel A, Rennenberg H, Schnitzler J
New Phytol
. 2021 Apr;
156(2):171-178.
PMID: 33873274
• In order to test whether xylem-transported carbohydrates are a potential source for isoprene biosynthesis, [U- C]-labelled α- d -glucose was fed via cut ends of stems into the xylem...
5.
Wells K, Millet D, Payne V, Deventer M, Bates K, de Gouw J, et al.
Nature
. 2020 Sep;
585(7824):225-233.
PMID: 32908268
Isoprene is the dominant non-methane organic compound emitted to the atmosphere. It drives ozone and aerosol production, modulates atmospheric oxidation and interacts with the global nitrogen cycle. Isoprene emissions are...
6.
Pye H, DAmbro E, Lee B, Schobesberger S, Takeuchi M, Zhao Y, et al.
Proc Natl Acad Sci U S A
. 2019 Mar;
116(14):6641-6646.
PMID: 30886090
Atmospheric oxidation of natural and anthropogenic volatile organic compounds (VOCs) leads to secondary organic aerosol (SOA), which constitutes a major and often dominant component of atmospheric fine particulate matter (PM)....
7.
Decker Z, Zarzana K, Coggon M, Min K, Pollack I, Ryerson T, et al.
Environ Sci Technol
. 2019 Jan;
53(5):2529-2538.
PMID: 30698424
Biomass burning (BB) is a large source of reactive compounds in the atmosphere. While the daytime photochemistry of BB emissions has been studied in some detail, there has been little...
8.
McDonald B, McKeen S, Cui Y, Ahmadov R, Kim S, Frost G, et al.
Environ Sci Technol
. 2018 Jun;
52(13):7360-7370.
PMID: 29870662
Recent studies suggest overestimates in current U.S. emission inventories of nitrogen oxides (NO = NO + NO). Here, we expand a previously developed fuel-based inventory of motor-vehicle emissions (FIVE) to...
9.
Li J, Mao J, Min K, Washenfelder R, Brown S, Kaiser J, et al.
J Geophys Res Atmos
. 2018 Apr;
121(16):9849-9861.
PMID: 29619286
We use a 0-D photochemical box model and a 3-D global chemistry-climate model, combined with observations from the NOAA Southeast Nexus (SENEX) aircraft campaign, to understand the sources and sinks...
10.
Yu H, Guenther A, Gu D, Warneke C, Geron C, Goldstein A, et al.
Sci Total Environ
. 2017 Apr;
595:149-158.
PMID: 28384571
Isoprene and monoterpene emission rates are essential inputs for atmospheric chemistry models that simulate atmospheric oxidant and particle distributions. Process studies of the biochemical and physiological mechanisms controlling these emissions...