Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry
The role of manganese (Mn) in ecosystem carbon (C) biogeochemical cycling is gaining increasing attention. While soil Mn is mainly derived from bedrock, atmospheric deposition could be a major source of Mn to surface soils, with implications for soil C cycling. However, quantification of the atmospheric Mn cycle, which comprises emissions from natural (desert dust, sea salts, volcanoes, primary biogenic particles, and wildfires) and anthropogenic sources (e.g., industrialization and land-use change due to agriculture), transport, and deposition, remains uncertain. Here, we use compiled emission data sets for each identified source to model and quantify the atmospheric Mn cycle by combining an atmospheric model and in situ atmospheric concentration measurements. We estimated global emissions of atmospheric Mn in aerosols (<10 μm in aerodynamic diameter) to be 1,400 Gg Mn year−1. Approximately 31% of the emissions come from anthropogenic sources. Deposition of the anthropogenic Mn shortened Mn “pseudo” turnover times in 1-m-thick surface soils (ranging from 1,000 to over 10,000,000 years) by 1–2 orders of magnitude in industrialized regions. Such anthropogenic Mn inputs boosted the Mn-to-N ratio of the atmospheric deposition in non-desert dominated regions (between 5 × 10−5 and 0.02) across industrialized areas, but that was still lower than soil Mn-to-N ratio by 1–3 orders of magnitude. Correlation analysis revealed a negative relationship between Mn deposition and topsoil C density across temperate and (sub)tropical forests, consisting with atmospheric Mn deposition enhancing carbon respiration as seen in in situ biogeochemical studies.
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| Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Format: | artículo biblioteca |
| Language: | English |
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John Wiley & Sons
2024-03-27
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| Subjects: | Atmospheric, Mn cycle, Mn deposition, C turnover, Community Earth System Model (CESM), aerosol modeling, terrestial ecosystem, atmospheric circulation, Terrestrial ecosystems, |
| Online Access: | http://hdl.handle.net/10261/370477 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100004837 http://dx.doi.org/10.13039/501100011033 |
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Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems |
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Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems Lu, Louis Li, Longlei Rathod, Sagar Hess, Peter Martínez, Carmen Fernandez, Nicole Goodale, Christine Thies, Janice Wong, Michelle Y. Alaimo, Maria Grazia Artaxo, Paulo Barraza, Francisco Barreto, Africa Beddows, David Chellam, Shankarararman Chen, Ying Chuang, Patrick Cohen, David D. Dongarrà, Gaetano Gaston, Cassandra Gómez, Darío Morera-Gómez, Yasser Hakola, Hannele Hand, Jenny Harrison, Roy Hopke, Philip Hueglin, Christoph Kuang, Yuan-Wen Kyllönen, Katriina Lambert, Fabrice Maenhaut, Willy Martin, Randall Paytan, Adina Prospero, Joseph González, Yenny Rodríguez, Sergio Smichowski, Patricia Varrica, Daniela Walsh, Brenna Weagle, Crystal Xiao, Yi-Hua Mahowald, Natalie Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| description |
The role of manganese (Mn) in ecosystem carbon (C) biogeochemical cycling is gaining increasing attention. While soil Mn is mainly derived from bedrock, atmospheric deposition could be a major source of Mn to surface soils, with implications for soil C cycling. However, quantification of the atmospheric Mn cycle, which comprises emissions from natural (desert dust, sea salts, volcanoes, primary biogenic particles, and wildfires) and anthropogenic sources (e.g., industrialization and land-use change due to agriculture), transport, and deposition, remains uncertain. Here, we use compiled emission data sets for each identified source to model and quantify the atmospheric Mn cycle by combining an atmospheric model and in situ atmospheric concentration measurements. We estimated global emissions of atmospheric Mn in aerosols (<10 μm in aerodynamic diameter) to be 1,400 Gg Mn year−1. Approximately 31% of the emissions come from anthropogenic sources. Deposition of the anthropogenic Mn shortened Mn “pseudo” turnover times in 1-m-thick surface soils (ranging from 1,000 to over 10,000,000 years) by 1–2 orders of magnitude in industrialized regions. Such anthropogenic Mn inputs boosted the Mn-to-N ratio of the atmospheric deposition in non-desert dominated regions (between 5 × 10−5 and 0.02) across industrialized areas, but that was still lower than soil Mn-to-N ratio by 1–3 orders of magnitude. Correlation analysis revealed a negative relationship between Mn deposition and topsoil C density across temperate and (sub)tropical forests, consisting with atmospheric Mn deposition enhancing carbon respiration as seen in in situ biogeochemical studies. |
| author2 |
European Commission |
| author_facet |
European Commission Lu, Louis Li, Longlei Rathod, Sagar Hess, Peter Martínez, Carmen Fernandez, Nicole Goodale, Christine Thies, Janice Wong, Michelle Y. Alaimo, Maria Grazia Artaxo, Paulo Barraza, Francisco Barreto, Africa Beddows, David Chellam, Shankarararman Chen, Ying Chuang, Patrick Cohen, David D. Dongarrà, Gaetano Gaston, Cassandra Gómez, Darío Morera-Gómez, Yasser Hakola, Hannele Hand, Jenny Harrison, Roy Hopke, Philip Hueglin, Christoph Kuang, Yuan-Wen Kyllönen, Katriina Lambert, Fabrice Maenhaut, Willy Martin, Randall Paytan, Adina Prospero, Joseph González, Yenny Rodríguez, Sergio Smichowski, Patricia Varrica, Daniela Walsh, Brenna Weagle, Crystal Xiao, Yi-Hua Mahowald, Natalie |
| format |
artículo |
| topic_facet |
Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems |
| author |
Lu, Louis Li, Longlei Rathod, Sagar Hess, Peter Martínez, Carmen Fernandez, Nicole Goodale, Christine Thies, Janice Wong, Michelle Y. Alaimo, Maria Grazia Artaxo, Paulo Barraza, Francisco Barreto, Africa Beddows, David Chellam, Shankarararman Chen, Ying Chuang, Patrick Cohen, David D. Dongarrà, Gaetano Gaston, Cassandra Gómez, Darío Morera-Gómez, Yasser Hakola, Hannele Hand, Jenny Harrison, Roy Hopke, Philip Hueglin, Christoph Kuang, Yuan-Wen Kyllönen, Katriina Lambert, Fabrice Maenhaut, Willy Martin, Randall Paytan, Adina Prospero, Joseph González, Yenny Rodríguez, Sergio Smichowski, Patricia Varrica, Daniela Walsh, Brenna Weagle, Crystal Xiao, Yi-Hua Mahowald, Natalie |
| author_sort |
Lu, Louis |
| title |
Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| title_short |
Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| title_full |
Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| title_fullStr |
Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| title_full_unstemmed |
Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry |
| title_sort |
characterizing the atmospheric mn cycle and its impact on terrestrial biogeochemistry |
| publisher |
John Wiley & Sons |
| publishDate |
2024-03-27 |
| url |
http://hdl.handle.net/10261/370477 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100004837 http://dx.doi.org/10.13039/501100011033 |
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1816138292604698624 |
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dig-ipna-es-10261-3704772024-10-30T02:05:25Z Characterizing the Atmospheric Mn Cycle and Its Impact on Terrestrial Biogeochemistry Lu, Louis Li, Longlei Rathod, Sagar Hess, Peter Martínez, Carmen Fernandez, Nicole Goodale, Christine Thies, Janice Wong, Michelle Y. Alaimo, Maria Grazia Artaxo, Paulo Barraza, Francisco Barreto, Africa Beddows, David Chellam, Shankarararman Chen, Ying Chuang, Patrick Cohen, David D. Dongarrà, Gaetano Gaston, Cassandra Gómez, Darío Morera-Gómez, Yasser Hakola, Hannele Hand, Jenny Harrison, Roy Hopke, Philip Hueglin, Christoph Kuang, Yuan-Wen Kyllönen, Katriina Lambert, Fabrice Maenhaut, Willy Martin, Randall Paytan, Adina Prospero, Joseph González, Yenny Rodríguez, Sergio Smichowski, Patricia Varrica, Daniela Walsh, Brenna Weagle, Crystal Xiao, Yi-Hua Mahowald, Natalie European Commission Agencia Estatal de Investigación (España) Ministerio de Ciencia e Innovación (España) Agencia Estatal de Meteorología (España) Lu, Louis [0009-0001-1719-8143] Li, Longlei [0000-0003-2107-8459] Hess, Peter [0000-0003-2439-3796] Martínez, Carmen [0000-0001-8553-2118] Fernandez, Nicole [0000-0003-0052-4042] Goodale, Christine [0000-0003-4317-3983] Thies, Janice [0000-0003-1280-8309] Wong, Michelle Y. [0000-0002-7830-8035] Alaimo, Maria Grazia [0000-0002-5551-7635] Artaxo, Paulo [0000-0001-7754-3036] Barraza, Francisco [0000-0001-8738-1368] Barreto, Africa [0000-0001-5806-585X] Beddows, David [0000-0001-9277-2099] Chellam, Shankarararman [0000-0001-9173-1439] Chen, Ying [0000-0002-1982-9252] Chuang, Patrick [0000-0003-2290-8346] Cohen, David D. [0000-0002-1209-9234] Dongarrà, Gaetano [0000-0001-8049-2938] Gaston, Cassandra [0000-0003-1383-8585] Gómez, Darío [0000-0003-3435-2437] Morera-Gómez, Yasser [0000-0001-6174-3869] Hakola, Hannele [0000-0002-9711-9053] Hand, Jenny [0000-0002-4644-2459] Harrison, Roy [0000-0002-2684-5226] Hopke, Philip [0000-0003-2367-9661] Hueglin, Christoph [0000-0002-6973-522X] Kuang, Yuan-Wen [0000-0003-0627-9519] Kyllönen, Katriina [0000-0001-8211-5634] Lambert, Fabrice [0000-0002-2192-024X] Maenhaut, Willy [0000-0002-4715-4627] Martin, Randall [0000-0003-2632-8402] Paytan, Adina [0000-0001-8360-4712] Prospero, Joseph [0000-0003-3608-6160] González, Yenny [0000-0001-5153-3972] Rodríguez, Sergio [0000-0002-1727-3107] Smichowski, Patricia [0000-0002-6351-7248] Varrica, Daniela [0000-0003-1491-8325] Walsh, Brenna [0000-0003-4508-8344] Weagle, Crystal [0000-0002-7705-9604] Xiao, Yi-Hua [0000-0003-3205-4364] Mahowald, Natalie [0000-0002-2873-997X] Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] Atmospheric Mn cycle Mn deposition C turnover Community Earth System Model (CESM) aerosol modeling terrestial ecosystem atmospheric circulation Terrestrial ecosystems The role of manganese (Mn) in ecosystem carbon (C) biogeochemical cycling is gaining increasing attention. While soil Mn is mainly derived from bedrock, atmospheric deposition could be a major source of Mn to surface soils, with implications for soil C cycling. However, quantification of the atmospheric Mn cycle, which comprises emissions from natural (desert dust, sea salts, volcanoes, primary biogenic particles, and wildfires) and anthropogenic sources (e.g., industrialization and land-use change due to agriculture), transport, and deposition, remains uncertain. Here, we use compiled emission data sets for each identified source to model and quantify the atmospheric Mn cycle by combining an atmospheric model and in situ atmospheric concentration measurements. We estimated global emissions of atmospheric Mn in aerosols (<10 μm in aerodynamic diameter) to be 1,400 Gg Mn year−1. Approximately 31% of the emissions come from anthropogenic sources. Deposition of the anthropogenic Mn shortened Mn “pseudo” turnover times in 1-m-thick surface soils (ranging from 1,000 to over 10,000,000 years) by 1–2 orders of magnitude in industrialized regions. Such anthropogenic Mn inputs boosted the Mn-to-N ratio of the atmospheric deposition in non-desert dominated regions (between 5 × 10−5 and 0.02) across industrialized areas, but that was still lower than soil Mn-to-N ratio by 1–3 orders of magnitude. Correlation analysis revealed a negative relationship between Mn deposition and topsoil C density across temperate and (sub)tropical forests, consisting with atmospheric Mn deposition enhancing carbon respiration as seen in in situ biogeochemical studies. NMM and LL would like to acknowledge the support of DOE Grant: DE-SC0021302. SR acknowledges the support of Grants AEROEXTREME PID2021-125669NB-I00, AEROATLAN CGL 2015-66299-P & POLLINDUST CGL2011-26259 funded by ERDF and the Research State Agency of Spain. Peer reviewed 2024-10-29T11:34:18Z 2024-10-29T11:34:18Z 2024-03-27 artículo http://purl.org/coar/resource_type/c_6501 Global Biogeochemical Cycles, 38(4), e2023GB007967: 1-30 (2024) 0886-6236 http://hdl.handle.net/10261/370477 10.1029/2023GB007967 1944-9224 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100004837 http://dx.doi.org/10.13039/501100011033 en #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2021-2023/PID2021-125669NB-I00/ES/ESTUDIO DE EVENTOS EXTREMOS DE AEROSOLES DE ORIGEN DESERTICO Y VOLCANICO EN EL ATLANTICO NORTE TROPICAL Y SUBTROPICAL/ info:eu-repo/grantAgreement/MINECO//CGL2015-66299-P/ES/TENDENCIA Y VARIABILIDAD MULTI-DECADA DE LAS PROPIEDADES DE LOS AEROSOLES EN EL ATLANTICO NORTE/ info:eu-repo/grantAgreement/MICINN//CGL2011-26259/ES/COMPOSICION, FUENTES Y EVOLUCION MULTI-DECADA DEL POLVO Y CONTAMINANTES PARTICULADOS OBSERVADOS EN LA CAPA DE AIR SAHARIANO/ Publisher's version https://doi.org/10.1029/2023GB007967 Sí open John Wiley & Sons |