The Fire Inventory from NCAR version 2.5: an updated global fire emissions model for climate and chemistry applications
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Published:2023-07-12
Issue:13
Volume:16
Page:3873-3891
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ISSN:1991-9603
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Container-title:Geoscientific Model Development
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language:en
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Short-container-title:Geosci. Model Dev.
Author:
Wiedinmyer ChristineORCID, Kimura Yosuke, McDonald-Buller Elena C., Emmons Louisa K.ORCID, Buchholz Rebecca R.ORCID, Tang WenfuORCID, Seto Keenan, Joseph Maxwell B., Barsanti Kelley C.ORCID, Carlton Annmarie G.ORCID, Yokelson RobertORCID
Abstract
Abstract. We present the Fire Inventory from National Center for Atmospheric Research (NCAR) version 2.5 (FINNv2.5), a fire emissions inventory that provides publicly available emissions of trace gases and aerosols for various applications, including use in global and regional atmospheric chemistry modeling. FINNv2.5 includes numerous updates to the FINN version 1 framework to better represent burned area, vegetation burned, and chemicals emitted. Major changes include the use of active fire detections from the Visible Infrared Imaging Radiometer Suite (VIIRS) at 375 m spatial resolution, which allows smaller fires to be included in the emissions processing. The calculation of burned area has been updated such that a more rigorous approach is used to aggregate fire detections, which better accounts for larger fires and enables using multiple satellite products simultaneously for emissions estimates. Fuel characterization and emissions factors have also been updated in FINNv2.5. Daily fire emissions for many trace gases and aerosols are determined for 2002–2019 (Moderate Resolution Imaging Spectroradiometer (MODIS)-only fire detections) and 2012–2019 (MODIS + VIIRS fire detections). The non-methane organic gas emissions are allocated to the species of several commonly used chemical mechanisms. We compare FINNv2.5 emissions against other widely used fire emissions inventories. The performance of FINNv2.5 emissions as inputs to a chemical transport model is assessed with satellite observations. Uncertainties in the emissions estimates remain, particularly in Africa and South America during August–October and in southeast and equatorial Asia in March and April. Recommendations for future evaluation and use are given.
Funder
Climate Program Office National Science Foundation National Aeronautics and Space Administration National Oceanic and Atmospheric Administration
Publisher
Copernicus GmbH
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