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| Author(s): | F Dentener; D Stevenson; K Ellingsen; T Vannoije; M Schultz; M Amann; C Atherton; N Bell; D Bergman; I Bey; OL Bouwman; T Butler; J Cofala: B Collins; J Drevet; OR Doherty; B Eickhout; H Eskes; A Fiore; M Gauss; D Hauglustaine: L Horowitz: ISA Isaksen; B Josee; M Lawrence; M Krol; JF Lamarque; V Montanaro; JF Muller: H Peuch; G Pitari; J Pyle; S Raast; K Rodriguez; M Sanderson: NH Savage; D Schindel; S Strachan; S Szopa; JK Sudo; XR Vandingenen; O Wild; and G Zeng. |
| Organisation: | Various |
Extract from the article: "Air quality, ecosystem exposure to nitrogen deposition, and climate change are intimately coupled problems: we assess changes in the global atmospheric environment between 2000 and 2030 using 26 state-of-the-art global atmospheric chemistry models and three different emissions scenarios. The first (CLE) scenario reflects implementation of current air quality legislation around the world, while the second (MFR) represents a more optimistic case in which all currently feasible technologies are applied to achieve maximum emission reductions. We contrast these scenarios with the more pessimistic IPCC SRES A2 scenario..."
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 Filename: GlobalAtmospherics.pdf
Filesize: 946 kB
Filetype: PDF document, version 1.2
Downloaded: 41
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