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Daniel J. Jacob
Researcher at Harvard University
Publications - 696
Citations - 87300
Daniel J. Jacob is an academic researcher from Harvard University. The author has contributed to research in topics: Troposphere & Tropospheric ozone. The author has an hindex of 162, co-authored 656 publications receiving 76530 citations. Previous affiliations of Daniel J. Jacob include NASA Headquarters & California Institute of Technology.
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Journal Article
Couplings between changes in the climate system and biogeochemistry
Surabi Menon,Kenneth L. Denman,Guy Brasseur,Amnat Chidthaisong,Philippe Ciais,Peter M. Cox,Robert E. Dickinson,Didier Hauglustaine,Christoph Heinze,Elisabeth A. Holland,Daniel J. Jacob,Ulrike Lohmann,S. Ramachandran,Pedro Leite da Silva Dias,Steven C. Wofsy,Xiaoye Zhang +15 more
TL;DR: Denman et al. as discussed by the authors presented the Couplings between changes in the climate system and biogeochemistry Coordinating Lead Authors: Kenneth L. Denman (Canada), Guy Brasseur (USA, Germany), Amnat Chidthaisong (Thailand), Philippe Ciais (France), Peter M. Cox (UK), Robert E. Austin (USA), D.B. Wofsy (USA) and Xiaoye Zhang (China).
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Global modeling of tropospheric chemistry with assimilated meteorology : Model description and evaluation
Isabelle Bey,Daniel J. Jacob,Robert M. Yantosca,Jennifer A. Logan,B. D. Field,Arlene M. Fiore,Qinbin Li,Honguy Y. Liu,Loretta J. Mickley,Martin G. Schultz +9 more
TL;DR: The GEOS-CHEM model as mentioned in this paper is a 3D model of tropospheric chemistry driven by assimilated meteorological observations from the Goddard Earth Observing System (GEOS) of the NASA Data Assimilation Office (DAO).
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Mercury as a Global Pollutant: Sources, Pathways, and Effects
TL;DR: Understanding of sources, atmosphere-land-ocean Hg dynamics and health effects are synthesized, and integration of Hg science with national and international policy efforts is needed to target efforts and evaluate efficacy.
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Effect of Climate Change on Air Quality
TL;DR: This article found that climate change alone will increase summertime surface ozone in polluted regions by 1-10 ppb over the coming decades, with the largest effects in urban areas and during pollution episodes.
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Heterogeneous chemistry and tropospheric ozone
TL;DR: In this article, it is recommended that standard O 3 models include in their chemical mechanisms the following reaction probability parameterizations for reactive uptake of gases by aqueous aerosols and clouds: γ HO 2 =0.2 (range 0.1-1) for HO 2 → 0.5 H 2 O 2, γ NO 2 =10 −4 (10 −6 −10 −3 ) for NO 2 → HNO 3, and γ N 2 O 5 → 2 H NO 3.