Sarah E. Benish
University of Maryland, College Park
10 Papers
2 Citations
Sarah E. Benish is an academic researcher from University of Maryland, College Park. The author has contributed to research in topics: CMAQ & Environmental science. The author has an hindex of 3, co-authored 6 publications. Previous affiliations of Sarah E. Benish include Oak Ridge Institute for Science and Education.
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Papers
Long-term regional trends of nitrogen and sulfur deposition in the United States from 2002 to 2017
Sarah E. Benish,Jesse O. Bash,Kristen M. Foley,K. Wyat Appel,Christian Hogrefe,Robert C. Gilliam,George Pouliot +6 more
TL;DR: In this article , the authors evaluate wet, dry, and total N and S deposition from multi-year simulations within the contiguous US (CONUS) and evaluate model estimates of wet deposition and ambient concentrations, finding underestimates of SO4, NO3, and NH4, and overestimates of NH4 and SO4.
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Methane emissions from the Marcellus Shale in southwestern Pennsylvania and northern West Virginia based on airborne measurements.
Xinrong Ren,Xinrong Ren,D. L. Hall,T. Vinciguerra,Sarah E. Benish,P. Stratton,D. Ahn,J. R. Hansford,Mark Cohen,S. Sahu,Hao He,Courtney D. Grimes,Ross J. Salawitch,Sheryl H. Ehrman,Russell R. Dickerson +14 more
TL;DR: This study suggests that for a 20 year time scale, energy derived from the combustion of natural gas extracted from this region will require further controls before it can exert a net climate benefit compared to coal.
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Evaluation of Anthropogenic Emissions and Ozone Pollution in the North China Plain: Insights from the Air Chemistry Research in Asia (ARIAs) Campaign
Hao He,Xinrong Ren,Xinrong Ren,Sarah E. Benish,Zhanqing Li,Zhanqing Li,Fei Wang,Yuying Wang,Timothy P. Canty,Xiaobo Dong,Feng Lv,Yongtao Hu,Tong Zhu,Russell R. Dickerson +13 more
TL;DR: In this article, CMAQ simulations with the 2010 EDGAR emissions can capture the basic spatial and temporal variations of ozone and its major precursors such as CO, NOx and VOCs, but significantly underestimate their concentrations.
Reply on RC2
Sarah E. Benish
- 01 Jul 2022
TL;DR: In this paper , the authors evaluated wet, dry, and total nitrogen and sulfur (S) deposition from multi-year simulations within the contiguous US (CONUS) and found that the estimates of wet deposition and ambient concentrations were poor over parts of the West and Northern Rockies, due to errors in precipitation estimates caused by complex terrain and uncertainty in emissions at the relatively coarse 12âkm grid resolution used in this study.
Reply on RC1
Sarah E. Benish
- 01 Jul 2022
TL;DR: In this paper , the authors evaluated wet, dry, and total nitrogen and sulfur (S) deposition from multi-year simulations within the contiguous US (CONUS) and found that the estimates of wet deposition and ambient concentrations were poor over parts of the West and Northern Rockies, due to errors in precipitation estimates caused by complex terrain and uncertainty in emissions at the relatively coarse 12âkm grid resolution used in this study.