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ABSTRACT

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This is event-level polygons for the fire event delineation (FIRED) product for HUNGARY from November 2000  to December 2024. It is derived from the MODIS MCD64A1 burned area product (see https://lpdaac.usgs.gov/products/mcd64a1v061/ for more details). The MCD64A1 is a monthly raster grid of estimated burned dates. Firedpy (https://github.com/earthlab/firedpy) is an algorithm that converts these rasters into events by stacking the entire time series into a spatial-temporal data cube, then uses an algorithm to assign event identification numbers to pixels that fit into the same 3-dimensional spatial temporal window. This particular dataset was created using a spatial parameter of 1 pixels and 5 days. Daily polygons are included and the event identification numbers are the same for both files, but the event-level product has only single polygons for each entire event, while the daily product has separate polygons for each date per event. See the associated paper for more details on the methods and more:

Balch, J.K.; St. Denis, L.A.; Mahood, A.L.; Mietkiewicz, N.P.; Williams, T.M.; McGlinchy, J.; Cook, M.C. FIRED (Fire Events Delineation): An Open, Flexible Algorithm and Database of US Fire Events Derived from the MODIS Burned Area Product (2001–2019). Remote Sens. 2020, 12, 3498. https://doi.org/10.3390/rs12213498 

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        GENERAL INFORMATION

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        1. Title of Dataset:  FIRED  HUNGARY 

        
        
        2. Authors: Jennifer K. Balch, Lise A. St. Denis, Adam L. Mahood, Nathan P.  Mietkiewicz, Travis Williams, 
        Joe McGlinchy, Maxwell C. Cook, Estelle J. Lindrooth, Erick A. Verleye.

        
        
        3. Contact information: jennifer.balch@colorado.edu; adam.mahood@colorado.edu

        
        
        4. Date of data collection:November 2000 - December 2024

        
        
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        SHARING/ACCESS INFORMATION

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        1. Licenses/restrictions placed on the data: MIT

        
        
        2. Links to publications that cite or use the data: TBD

        
        
        3. Links to other publicly accessible locations of the data: None

        
        
        4. Recommended citation for the data: 

        
        Balch, J.K.; St. Denis, L.A.; Mahood, A.L.; Mietkiewicz, N.P.; Williams, T.M.; McGlinchy, J.; Cook, M.C. FIRED (Fire 
        Events Delineation): An Open, Flexible Algorithm and Database of US Fire Events Derived from the MODIS Burned Area 
        Product (2001–2019). Remote Sens. 2020, 12, 3498. https://doi.org/10.3390/rs12213498
 
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DATA & FILE OVERVIEW

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1. File List: 

     1. Table:
 
         A. fired_hungary_2000_to_2024_to2024336_events.csv

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METHODOLOGICAL INFORMATION

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 1. Spatial window: 1 

 2. Temporal window: 5 

See Balch et al 2020 for complete methods. DOI: https://doi.org/10.3390/rs12213498

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1. Number of variables: 24

3. Projection information (proj4 string): +proj=sinu +lon_0=0 +x_0=0 +y_0=0 +a=6371007.181 +b=6371007.181 +units=m +no_defs

3.1. The projection is the native projection from the MODIS MCD64A1 burned area product from which this dataset is derived. The MCD64A1 product is a raster grid with a resolution of 463 meters. More info at https://lpdaac.usgs.gov/products/mcd64a1v006/ 

4. Variable List: 

        A. Name: id  

        	i. Description: Unique identifier of the fire event. 

        B. Name: ig_date 

            i. Description: The earliest date contained in the event  

        C. Name: ig_day  

            i. Description: The day of the year of the earliest date contained in the event  

        D. Name: ig_month  

            i. Description: The month of the earliest date contained in the event  

        E. Name: ig_year 

            i. Description: The year of the earliest date contained in the event.  

        F. Name: last_date  

            i. Description: The latest date contained in the event  

        G. Name: event_day   

            i. Description: Days since ignition date + 1 (ignition date is day 1)   

        H. Name: pixels   

            i. Description: Total number of pixels burned that day.   

        I. Name: tot_px   

            i. Description:  Total pixels burned for the entire event.   

        J. Name: tot_ar_km2   

            i. Description: Area burned in square kilometers for the entire event.   

        K. Name: fsr_px_dy   

            i. Description: Total pixels burned for the entire event divided by the duration of the fire event.   

        L. Name: fsr_km2_dy   

            i. Description: Total kilometers burned for the entire event divided by the duration of the fire event.   

        M. Name: mx_grw_px   

            i. Description: maximum growth in pixels   

        N. Name: mn_grw_px   

            i. Description: minimum growth in pixels   

        O. Name: mu_grw_px   

            i. Description: mean growth in pixels   

        P. Name: mx_grw_km2   

            i. Description: maximum growth in square kilometers   

        Q. Name: mn_grw_km2   

            i. Description: minimum growth in square kilometers   

        R. Name: mu_grw_km2  

            i. Description: mean growth in square kilometers   

        S. Name: mx_grw_dte   

            i. Description: date of maximum   

        T. Name: lc_code   

            i. Description: Numeric code for the land_cover type extracted from the MODIS land_cover product for the year preceding the fire.  
 
        U. Name: lc_mode   

            i. Description: Numeric code for the land_cover type extracted from the MODIS land_cover product for the year preceding the fire.   

        V. Name: lc_name   

            i. Description: Character string of the land_cover type from the year before the fire.   

        W. Name: lc_desc   

            i. Description: Character string description of the land_cover type from the year before the fire.   

        X. Name: lc_type   

            i. Description: Which land_cover classification type was used from the MCD12Q1 product? Default is IGBP global vegetation classification scheme   

        Y. Name: eco_mode  

            i. Description: Modal ecoregion code  

        Z. Name: eco_type   

            i. Description: Which type and level of ecoregion classification was used (North america EPA (levels 1-3) vs World Wildlife Federation)   

        AA. Name: eco_name  

            i. Description: Character string of the ecoregion type where the event occurred.   

        BB. Name: ig_utm_x  

            i. Description: estimated ignition x coordinate   

        CC. Name: ig_utm_y  

            i. Description: estimated ignition y coordinate   

        DD. Name: tot_perim   

            i. Description: Total perimeter of the fire event. 


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        RUNTIME INFORMATION

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        Time to complete: 871.0102205025032 seconds
        Peak memory usage: 0.0020902976393699646 GB 
        Cores used: 39
        
