Overview of all publications that have been produced within the framework of the project or that use ATTO data, including those that do not involve scientists from the MPI-BGC.
Journal Article (131)
81.
Journal Article
237, 111489 (2020)
Both near-surface and satellite remote sensing confirm drought legacy effect on tropical forest leaf phenology after 2015/2016 ENSO drought. Remote Sensing of Environment 82.
Journal Article
13 (1), pp. 153 - 164 (2020)
Aerosol measurement methods to quantify spore emissions from fungi and cryptogamic covers in the Amazon. Atmospheric Measurement Techniques 83.
Journal Article
20 (1), pp. 15 - 27 (2020)
Planetary boundary layer evolution over the Amazon rainforest in episodes of deep moist convection at the Amazon Tall Tower Observatory. Atmospheric Chemistry and Physics 84.
Journal Article
20 (8), pp. 4757 - 4785 (2020)
Influx of African biomass burning aerosol during the Amazonian dry season through layered transatlantic transport of black carbon-rich smoke. Atmospheric Chemistry and Physics 85.
Journal Article
20 (21), pp. 13041 - 13067 (2020)
Quantifying sources of Brazil's CH4 emissions between 2010 and 2018 from satellite data. Atmospheric Chemistry and Physics 86.
Journal Article
244, 3255 (2019)
Field notes Amazon Tall Tower Observatory: Discovering rainforest secrets high above the trees. New Scientist 87.
Journal Article
53 (21), pp. 12506 - 12518 (2019)
Radical formation by fine particulate matter associated with highly oxygenated molecules. Environmental Science & Technology 88.
Journal Article
688, pp. 83 - 86 (2019)
Uncovering prokaryotic biodiversity within aerosols of the pristine Amazon forest. Science of the Total Environment 89.
Journal Article
46 (10), pp. 5614 - 5622 (2019)
Is there a classical inertial sublayer over the Amazon forest? Geophysical Research Letters 90.
Journal Article
19 (12), pp. 7973 - 8001 (2019)
Contributions of biomass-burning, urban, and biogenic emissions to the concentrations and light-absorbing properties of particulate matter in central Amazonia during the dry season. Atmospheric Chemistry and Physics 91.
Journal Article
19 (13), pp. 8425 - 8470 (2019)
Land cover and its transformation in the backward trajectory footprint region of the Amazon Tall Tower Observatory. Atmospheric Chemistry and Physics 92.
Journal Article
19 (2), pp. 1221 - 1240 (2019)
Single-particle characterization of aerosols collected at a remote site in the Amazonian rainforest and an urban site in Manaus, Brazil. Atmospheric Chemistry and Physics 93.
Journal Article
1, 12 (2018)
Total OH reactivity changes over the Amazon rainforest during an El Niño event. Frontiers in Forests and Global Change 94.
Journal Article
260-261, pp. 41 - 54 (2018)
Air turbulence characteristics at multiple sites in and above the Amazon rainforest canopy. Agricultural and Forest Meteorology 95.
Journal Article
191, pp. 513 - 524 (2018)
Observations of Manaus urban plume evolution and interaction with biogenic emissions in GoAmazon 2014/5. Atmospheric Environment 96.
Journal Article
9, 2226 (2018)
Strong sesquiterpene emissions from Amazonian soils. Nature Communications 97.
Journal Article
18 (5), pp. 3083 - 3099 (2018)
Nighttime wind and scalar variability within and above an Amazonian canopy. Atmospheric Chemistry and Physics 98.
Journal Article
18 (5), pp. 3403 - 3418 (2018)
Monoterpene chemical speciation in a tropical rainforest: variation with season, height, and time of day at the Amazon Tall Tower Observatory (ATTO). Atmospheric Chemistry and Physics 99.
Journal Article
18, pp. 12185 - 12206 (2018)
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia. Atmospheric Chemistry and Physics 100.
Journal Article
359 (6374), pp. 411 - 418 (2018)
Substantial convection and precipitation enhancements by ultrafine aerosol particles. Science