Add to ORKGPatagonia, due to its geographic position and the dominance of westerly winds, is a key area that contributes to the supply of nutrients to the Southern Ocean, both through mineral dust and through the periodic deposits of volcanic ash. Here we evaluate the characteristics of Fe dissolved (into soluble and colloidal species) from volcanic ash for three recent southern Andes volcanic eruptions having contrasting features and chemical compositions. Contact between cloud waters (wet deposition) and end-members of andesitic (Hudson volcano) and rhyolitic (Chaiten volcano) materials was simulated. Results indicate higher Fe release and faster liberation rates in the andesitic material. Fe release during particle-seawater interaction (dry deposit...
Iron is a key limiting micro-nutrient for marine primary productivity. It can be supplied to the oce...
Volcanic ash deposition to seawater can alleviate the dissolved iron (Fe) deficiency that limits mar...
Volcanic ash from explosive eruptions can provide iron (Fe) to oceanic regions where this micronutri...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Iron (Fe) is an essential micronutrient for phytoplankton, the main primary producers of the marine ...
Surface ocean iron (Fe) fertilization can affect the marine primary productivity (MPP), thereby impa...
The deposition of volcanic ash from explosive eruptions to the surface ocean is a source of iron (Fe...
The ash material produced by volcanic eruptions carries important information about the underground ...
The ash material produced by volcanic eruptions carries important information about the underground ...
Iron is a key micronutrient for phytoplankton growth in the surface ocean. Yet the significance of v...
In this study, we performed leaching experiments for timescales of hours-to-months in deionized wate...
Volcanic ash deposition to the ocean forms a natural source of iron (Fe) to surface water microbial ...
Iron is a key limiting micro-nutrient for marine primary productivity. It can be supplied to the oce...
Volcanic ash deposition to seawater can alleviate the dissolved iron (Fe) deficiency that limits mar...
Volcanic ash from explosive eruptions can provide iron (Fe) to oceanic regions where this micronutri...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Patagonia, due to its geographic position and the dominance of westerly winds, is a key area that co...
Iron (Fe) is an essential micronutrient for phytoplankton, the main primary producers of the marine ...
Surface ocean iron (Fe) fertilization can affect the marine primary productivity (MPP), thereby impa...
The deposition of volcanic ash from explosive eruptions to the surface ocean is a source of iron (Fe...
The ash material produced by volcanic eruptions carries important information about the underground ...
The ash material produced by volcanic eruptions carries important information about the underground ...
Iron is a key micronutrient for phytoplankton growth in the surface ocean. Yet the significance of v...
In this study, we performed leaching experiments for timescales of hours-to-months in deionized wate...
Volcanic ash deposition to the ocean forms a natural source of iron (Fe) to surface water microbial ...
Iron is a key limiting micro-nutrient for marine primary productivity. It can be supplied to the oce...
Volcanic ash deposition to seawater can alleviate the dissolved iron (Fe) deficiency that limits mar...
Volcanic ash from explosive eruptions can provide iron (Fe) to oceanic regions where this micronutri...
.svg%3Fwidth%3D300&w=3840&q=75)