A. Karion

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    A[A. Karion]
    AC["Associated Concepts (24)"]
    AW["Authored Works (13)"]
    CA["Linked Co-Authors (33)"]
    CI["Linked Collaborating Institutions (22)"]
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    click CA "#co-authors"
    click CI "#collaborating-institutions"

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ORCiD

https://orcid.org/0000-0002-6304-3513

OpenAlex ID

https://openalex.org/A5002362085 (API record)

Associated Concepts [?]

• Environmental science
• Geology
• Biology
• Physics
• Ecology
• Geography
• Chemistry
• Organic chemistry
• Oceanography
• Meteorology
• Greenhouse gas
• Atmospheric sciences
• Engineering
• Methane
• Climatology
• Materials science
• Quantum mechanics
• Thermodynamics
• Waste management
• Mathematics
• History
• Paleontology
• Computer science
• Archaeology

Authored Works

sorted by decreasing year, and then by display-name

• Spatial attribution of aircraft mass balance experiment CO2 estimations for policy relevant boundaries: New York City
• Seasonal and Inter-annual Variability in Methane Emissions in Washington, DC and Baltimore, MD, USA
• Mapping Methane Sources in the Baltimore-Washington, DC Area Using an Instrumented Mobile Platform
• Evaluation of Fossil CO2 Emissions at Regional Scale Using a Global Inverse Modeling System
• Atmospheric GHG Data Assimilation To Support US and International Climate Mitigation Efforts: Transitioning Research Systems to Sustained Operations
• Analyzing "Grey Zone" Turbulent Kinetic Energy from Three WRF-PBL Schemes, with Impacts from Buildings, using Aircraft Measurements over New York City
• Reconciliation of asynchronous satellite-based NO2 and anthropogenic XCO2 enhancements with WRF-Chem over two metropolitan areas
• Observations From Multi-City Greenhouse Gas Networks Detect the Abrupt Changes in Emissions During the COVID-19 Lockdown
• Investigating methane emissions variability in Washington DC and Baltimore metropolitan areas using atmospheric observations
• Impacts of COVID-19 on Emissions of Short Lived Pollutants and Greenhouse Gases in the Mid-Atlantic States.
• Analyzing Turbulent Kinetic Energy predictions at the grey zone from three WRF-PBL Schemes, with comparison to Aircraft measurements over New York City
• Analysis of the trends in ambient methane in the Baltimore-Washington region and comparison to model outputs and WetCHARTs wetland emissions.
• A high-resolution inventory for inverse modeling ofNew York City methane emissions

Linked Co-Authors

• A. E. Andrews
• Allen Hope
• C. Gately
• Christopher P. Loughner
• Dolly Hall
• Doyeon Ahn
• Felix Vogel
• Geoffrey Roest
• Hao He
• J. R. Whetstone
• Jocelyn Turnbull
• John C. Lin
• Jooil Kim
• Joseph Pitt
• K. R. Gurney
• K. R. Verhulst
• K. W. Bowman
• Kenneth J. Davis
• Kimberly Mueller
• Kristian D. Hajny
• P. B. Shepson
• R. Commane
• R. J. Salawitch
• Ruixue Lei
• Russell R. Dickerson
• Sha Feng
• Shamil Maksyutov
• Sharon Gourdji
• T. Oda
• Thomas Lauvaux
• Tsuneo Matsunaga
• Vanessa C. Monteiro
• Xinrong Ren

Linked Collaborating Institutions

• Aerodyne Research Inc., Massachusetts
• Boston University, Massachusetts
• Bristol Myers Squibb Company
• Columbia University, New York
• Geological and Nuclear Science Ltd, New Zealand
• Harvard University, Massachusetts
• Jet Propulsion Laboratory
• Johns Hopkins University, Maryland
• Laboratoire des Sciences du Climat et de l'Environnement
• NASA Goddard Space Flight Center, Maryland
• National Autonomous University of Mexico
• National Institute for Environmental Studies, Japan
• National Institute of Standards and Technology, Maryland
• Northern Arizona University
• Pacific Northwest National Laboratory
• Pennsylvania State University
• Purdue University, Indiana
• SUNY Stony Brook, New York
• University of California, San Diego
• University of Manchester, UK
• University of Maryland, College Park
• University of Utah

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