Add to ORKGIron (Fe) is a key micronutrient regulating primary productivity in many parts of the global ocean. Dust deposition is an important source of Fe to the surface ocean, but most of this Fe is biologically unavailable. Atmospheric processing and reworking of Fe in dust aerosol can increase the bioavailable Fe inputs to the ocean, yet the processes are not well understood. Here, we experimentally simulate and model the cycling of Fe-bearing dust between wet aerosol and cloud droplets. Our results show that insoluble Fe in dust particles readily dissolves under acidic conditions relevant to wet aerosols. By contrast, under the higher pH conditions generally relevant to clouds, Fe dissolution tends to stop, and dissolved Fe precipitates as poorly...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec
ABSTRACT: Iron (Fe) is a key micronutrient regulating primary productivity in many parts of the glob...
Acidification of dust aerosols may increase aerosol iron (Fe) solubility, which is linked to mineral...
Acidification of dust aerosols may increase aerosol iron (Fe) solubility, which is linked to mineral...
AbstractIron is an essential nutrient for phytoplankton. Although iron-containing dust mobilized fro...
Nutrification of the open ocean originates mainly from deposited aerosol in which the bio-avaliable ...
AbstractLaboratory simulation of cloud processing of three model dust types with distinct Fe-content...
AbstractLaboratory simulation of cloud processing of three model dust types with distinct Fe-content...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modulat...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modulat...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modula...
The majority of bioavailable iron (Fe) from the atmosphere is delivered from arid and semiarid regio...
Desert dust deposition to the ocean may be a significant source of biogeochemically important elemen...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec
ABSTRACT: Iron (Fe) is a key micronutrient regulating primary productivity in many parts of the glob...
Acidification of dust aerosols may increase aerosol iron (Fe) solubility, which is linked to mineral...
Acidification of dust aerosols may increase aerosol iron (Fe) solubility, which is linked to mineral...
AbstractIron is an essential nutrient for phytoplankton. Although iron-containing dust mobilized fro...
Nutrification of the open ocean originates mainly from deposited aerosol in which the bio-avaliable ...
AbstractLaboratory simulation of cloud processing of three model dust types with distinct Fe-content...
AbstractLaboratory simulation of cloud processing of three model dust types with distinct Fe-content...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modulat...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modulat...
Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modula...
The majority of bioavailable iron (Fe) from the atmosphere is delivered from arid and semiarid regio...
Desert dust deposition to the ocean may be a significant source of biogeochemically important elemen...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Mineral dust is the largest source of aerosol iron (Fe) to the offshore global ocean, but acidic pro...
Poster abstract A21A-0013 presented at 2011 Fall Meeting, AGU, San Francisco, Calif., 5-9 Dec