Multi-year black carbon emissions from cropland burning in the russian federation

Cropland fires are an important source of black carbon (BC) emissions. Previous research has suggested that springtime cropland burning in Eastern Europe, more specifically Russia, is a main contributor of BC in the Arctic atmosphere, acting as a short-lived climate forcer strongly influencing snow-...

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Published in:Atmospheric Environment
Main Authors: McCarty, Jessica L., Ellicott, Evan A., Romanenkov, Vladimir, Rukhovitch, Dmitry, Koroleva, Polina
Format: Text
Language:unknown
Published: Digital Commons @ Michigan Tech 2012
Subjects:
Cropland fires
Remote sensing
Black carbon
Biomass burning
Russian Federation
Environmental Sciences
Physical Sciences and Mathematics
Arctic
albedo
black carbon
Siberia
Online Access:https://digitalcommons.mtu.edu/mtri_p/35
https://doi.org/10.1016/j.atmosenv.2012.08.053
id ftmichigantuniv:oai:digitalcommons.mtu.edu:mtri_p-1046
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spelling ftmichigantuniv:oai:digitalcommons.mtu.edu:mtri_p-1046 2023-05-15T13:12:05+02:00 Multi-year black carbon emissions from cropland burning in the russian federation McCarty, Jessica L. Ellicott, Evan A. Romanenkov, Vladimir Rukhovitch, Dmitry Koroleva, Polina 2012-09-17T07:00:00Z https://digitalcommons.mtu.edu/mtri_p/35 https://doi.org/10.1016/j.atmosenv.2012.08.053 unknown Digital Commons @ Michigan Tech https://digitalcommons.mtu.edu/mtri_p/35 http://dx.doi.org/10.1016/j.atmosenv.2012.08.053 Michigan Tech Research Institute Publications Cropland fires Remote sensing Black carbon Biomass burning Russian Federation Environmental Sciences Physical Sciences and Mathematics text 2012 ftmichigantuniv https://doi.org/10.1016/j.atmosenv.2012.08.053 2022-01-23T10:29:30Z Cropland fires are an important source of black carbon (BC) emissions. Previous research has suggested that springtime cropland burning in Eastern Europe, more specifically Russia, is a main contributor of BC in the Arctic atmosphere, acting as a short-lived climate forcer strongly influencing snow-ice albedo and radiation transmission. BC emissions from cropland burning were estimated for the Russian Federation for years 2003 through 2009 using three satellite fire products, the 1 km MODIS Active Fire Product, 0.5° MODIS Fire Radiative Power monthly climate modeling grid product, and the 500 m MODIS Burned Area Product, and a agricultural statistics approach based on a modified method developed and published by the All-Russian Institute of Organic Peat and Fertilizers to estimate farm- and regional-level residue loading from straw surplus left after grain harvesting, while accounting for agricultural management and agrometeorological inputs. The satellite-based emission calculations utilized several different land cover classification schemas for defining croplands in Russia for both the 1 km MODIS Land Cover Product and the 300 m MERIS GlobCover v2.2 data sets. In general, the peaks of BC emissions from cropland burning occurred during the spring (April–May), summer (July–August), and the fall (October). 2008 had the highest annual BC emissions. The range of average annual BC emissions from cropland burning calculated from the different satellite fire products was 2.49 Gg–22.2 Gg, with the agricultural statistics approach annual average equal to 8.90 Gg. The Global Fire Emissions Database (GFED) version 3 reported an annual average of 11.9 Gg of BC from agricultural burning. The results from this analysis showed that the majority of BC emissions originated in European Russia, followed by smaller contributions from West Siberia, Far East Russia, and East Siberia macro-regions. An uncertainty assessment on data used to calculate the BC emissions found moderate uncertainty in some of the input data used in this first attempt to produce spatially and temporally explicit BC emission estimates from cropland burning in the Russian Federation. Text albedo Arctic black carbon Siberia Michigan Technological University: Digital Commons @ Michigan Tech Arctic Atmospheric Environment 63 223 238
institution Open Polar
collection Michigan Technological University: Digital Commons @ Michigan Tech
op_collection_id ftmichigantuniv
language unknown
topic Cropland fires
Remote sensing
Black carbon
Biomass burning
Russian Federation
Environmental Sciences
Physical Sciences and Mathematics
spellingShingle Cropland fires
Remote sensing
Black carbon
Biomass burning
Russian Federation
Environmental Sciences
Physical Sciences and Mathematics
McCarty, Jessica L.
Ellicott, Evan A.
Romanenkov, Vladimir
Rukhovitch, Dmitry
Koroleva, Polina
Multi-year black carbon emissions from cropland burning in the russian federation
topic_facet Cropland fires
Remote sensing
Black carbon
Biomass burning
Russian Federation
Environmental Sciences
Physical Sciences and Mathematics
description Cropland fires are an important source of black carbon (BC) emissions. Previous research has suggested that springtime cropland burning in Eastern Europe, more specifically Russia, is a main contributor of BC in the Arctic atmosphere, acting as a short-lived climate forcer strongly influencing snow-ice albedo and radiation transmission. BC emissions from cropland burning were estimated for the Russian Federation for years 2003 through 2009 using three satellite fire products, the 1 km MODIS Active Fire Product, 0.5° MODIS Fire Radiative Power monthly climate modeling grid product, and the 500 m MODIS Burned Area Product, and a agricultural statistics approach based on a modified method developed and published by the All-Russian Institute of Organic Peat and Fertilizers to estimate farm- and regional-level residue loading from straw surplus left after grain harvesting, while accounting for agricultural management and agrometeorological inputs. The satellite-based emission calculations utilized several different land cover classification schemas for defining croplands in Russia for both the 1 km MODIS Land Cover Product and the 300 m MERIS GlobCover v2.2 data sets. In general, the peaks of BC emissions from cropland burning occurred during the spring (April–May), summer (July–August), and the fall (October). 2008 had the highest annual BC emissions. The range of average annual BC emissions from cropland burning calculated from the different satellite fire products was 2.49 Gg–22.2 Gg, with the agricultural statistics approach annual average equal to 8.90 Gg. The Global Fire Emissions Database (GFED) version 3 reported an annual average of 11.9 Gg of BC from agricultural burning. The results from this analysis showed that the majority of BC emissions originated in European Russia, followed by smaller contributions from West Siberia, Far East Russia, and East Siberia macro-regions. An uncertainty assessment on data used to calculate the BC emissions found moderate uncertainty in some of the input data used in this first attempt to produce spatially and temporally explicit BC emission estimates from cropland burning in the Russian Federation.
format Text
author McCarty, Jessica L.
Ellicott, Evan A.
Romanenkov, Vladimir
Rukhovitch, Dmitry
Koroleva, Polina
author_facet McCarty, Jessica L.
Ellicott, Evan A.
Romanenkov, Vladimir
Rukhovitch, Dmitry
Koroleva, Polina
author_sort McCarty, Jessica L.
title Multi-year black carbon emissions from cropland burning in the russian federation
title_short Multi-year black carbon emissions from cropland burning in the russian federation
title_full Multi-year black carbon emissions from cropland burning in the russian federation
title_fullStr Multi-year black carbon emissions from cropland burning in the russian federation
title_full_unstemmed Multi-year black carbon emissions from cropland burning in the russian federation
title_sort multi-year black carbon emissions from cropland burning in the russian federation
publisher Digital Commons @ Michigan Tech
publishDate 2012
url https://digitalcommons.mtu.edu/mtri_p/35
https://doi.org/10.1016/j.atmosenv.2012.08.053
geographic Arctic
geographic_facet Arctic
genre albedo
Arctic
black carbon
Siberia
genre_facet albedo
Arctic
black carbon
Siberia
op_source Michigan Tech Research Institute Publications
op_relation https://digitalcommons.mtu.edu/mtri_p/35
http://dx.doi.org/10.1016/j.atmosenv.2012.08.053
op_doi https://doi.org/10.1016/j.atmosenv.2012.08.053
container_title Atmospheric Environment
container_volume 63
container_start_page 223
op_container_end_page 238
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