Anthropogenic Perturbations to the Atmospheric Molybdenum Cycle

Anthropogenic Perturbations to the Atmospheric Molybdenum Cycle

Molybdenum (Mo) is a key cofactor in enzymes used for nitrogen (N) fixation and nitrate reduction, and the low availability of Mo can constrain N inputs, affecting ecosystem productivity. Natural atmospheric Mo aerosolization and deposition from sources such as desert dust, sea‐salt spray, and volca...

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Veröffentlicht in:Global biogeochemical cycles 2021-02, Vol.35 (2), p.n/a
Hauptverfasser: Wong, Michelle Y., Rathod, Sagar D., Marino, Roxanne, Li, Longlei, Howarth, Robert W., Alastuey, Andres, Alaimo, Maria Grazia, Barraza, Francisco, Carneiro, Manuel Castro, Chellam, Shankararaman, Chen, Yu‐Cheng, Cohen, David D., Connelly, David, Dongarra, Gaetano, Gómez, Darió, Hand, Jenny, Harrison, R. M., Hopke, Philip K., Hueglin, Christoph, Kuang, Yuan‐wen, Lambert, Fabrice, Liang, James, Losno, Remi, Maenhaut, Willy, Milando, Chad, Monteiro, Maria Inês Couto, Morera‐Gómez, Yasser, Querol, Xavier, Rodríguez, Sergio, Smichowski, Patricia, Varrica, Daniela, Xiao, Yi‐hua, Xu, Yangjunjie, Mahowald, Natalie M.
Format: Artikel
Sprache:eng
Schlagworte:
aerosol deposition
Anthropogenic changes
Anthropogenic factors
Aquatic ecosystems
Atmosphere
Atmospheric models
Atmospheric particulates
Combustion
Cycles
Deposition
Deserts
Dust
Dust storms
Ecological function
Ecosystems
Human influences
Mass balance
Modelling
Molybdenum
Motor vehicles
Nitrate reduction
Nitrogen
Nitrogen cycle
Nitrogen fixation
nitrogenase
Nitrogenation
nutrient limitation
particulate matter
Perturbation
Regions
Sciences of the Universe
Sea spray
Soil
Soils
Synthesis
Terrestrial ecosystems
Trace elements
Turnover time
Uptake
Vehicles
Volcanic dust
Volcanoes
Weathering
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Zusammenfassung:Molybdenum (Mo) is a key cofactor in enzymes used for nitrogen (N) fixation and nitrate reduction, and the low availability of Mo can constrain N inputs, affecting ecosystem productivity. Natural atmospheric Mo aerosolization and deposition from sources such as desert dust, sea‐salt spray, and volcanoes can affect ecosystem function across long timescales, but anthropogenic activities such as combustion, motor vehicles, and agricultural dust have accelerated the natural Mo cycle. Here we combined a synthesis of global atmospheric concentration observations and modeling to identify and estimate anthropogenic sources of atmospheric Mo. To project the impact of atmospheric Mo on terrestrial ecosystems, we synthesized soil Mo data and estimated the global distribution of soil Mo using two approaches to calculate turnover times. We estimated global emissions of atmospheric Mo in aerosols (
ISSN:0886-6236
1944-9224
1944-8224
DOI:10.1029/2020GB006787