Global Change Abstracts The Swiss Contribution - SCNAT
Global Change Abstracts The Swiss Contribution - SCNAT
Global Change Abstracts The Swiss Contribution - SCNAT
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<strong>Global</strong> <strong>Change</strong> <strong>Abstracts</strong> – <strong>The</strong> <strong>Swiss</strong> <strong>Contribution</strong> | Short List of all <strong>Abstracts</strong> 5<br />
Short List of all <strong>Abstracts</strong><br />
1 Earth System Process Studies and Methodologies<br />
Identification of the mass spectral signature of organic aerosols from wood burning emissions<br />
(08.1-1)<br />
Alfarra M R, Prevot A S H, Szidatt S, Sandradewi J, Weimer S, Lanz V A, Schreiber D, Mohr M, Baltensperger U<br />
A new atmospheric aerosol phase equilibrium model (UHAERO): organic systems (08.1-2)<br />
Amundson N R, Caboussat A, He J W, Martynenko A V, Landry C, Tong C, Seinfeld J H<br />
Equilibrium sorption of gaseous organic chemicals to fiber filters used for aerosol studies (08.1-3)<br />
Arp H P H, Schwarzenbach R P, Goss K U<br />
Interference of organic signals in highly time resolved nitrate measurements by low mass resolution<br />
aerosol mass spectrometry (08.1-4)<br />
Bae M S, Schwab F J, Zhang Q, Hogrefe O, Demerjian K L, Weimer A, Rhoads K, Orsini D, Venkatachari P, Hopke P K<br />
Small-scale cloud processes and climate (08.1-5)<br />
Baker M B, Peter T<br />
Chemical analysis of atmospheric aerosols (08.1-6)<br />
Baltensperger U, Prevot A S H<br />
Entering into the “greenhouse century”: Recent record temperatures in Switzerland are comparable<br />
to the upper temperature quantiles in a greenhouse climate (08.1-7)<br />
Beniston M<br />
Civil Aircraft for the regular investigation of the atmosphere based on an instrumented container:<br />
<strong>The</strong> new CARIBIC system (08.1-8)<br />
Brenninkmeijer C A M, Crutzen P, Boumard F, Dauer T, Dix B, Ebinghaus R, Filippi D, Fischer H, Franke H, Friess<br />
U, Heintzenberg J, Helleis F, Hermann M, Kock H H, Koeppel C, Lelieveld J, Leuenberger M, Martinsson B G,<br />
Miemczyk S, Moret H P, Nguyen H N, Nyfeler P, Oram D, Osullivan D, Penkett S, Platt U, Pupek M, Ramonet M,<br />
Randa B, Reichelt M, Rhee T S, Rohwer J, Rosenfeld K, Scharffe D, Schlager H, Schumann U, Slemr F, Sprung D,<br />
Stock P, Thaler R, Valentino F, van Velthoven P, Waibel A, Wandel A, Waschitschek K, Wiedensohler A, Xueref Remy<br />
I, Zahn A, Zech U, Ziereis H<br />
Fires and climate linked in nineteenth century (08.1-9)<br />
Brönnimann S<br />
Reconstructing the quasi-biennial oscillation back to the early 1900s (08.1-10)<br />
Brönnimann S, Annis J L, Vogler C, Jones P D<br />
Temporal and spatial temperature variability and change over Spain during 1850-2005 (08.1-11)<br />
Brunet M, Jones P D, Sigro J, Saladie O, Aguilar E, Moberg A, Della Marta P M, Lister D, Walther A, Lopez D<br />
A concept for a satellite mission to measure cloud ice water path, ice particle size, and cloud altitude<br />
(08.1-12)<br />
Bühler S A, Jimenez C, Evans K F, Eriksson P, Rydberg B, Heymsfield A J, Stubenrauch C J, Lohmann U, Emde C, John<br />
V O, Sreerekha T R, Davis C P<br />
Concentration profiles of particles settling in the neutral and stratified atmospheric boundary layer<br />
(08.1-13)<br />
Chamecki M, van Hout R, Meneveau C, Parlange M B<br />
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