Add to ORKGabstract: Iron (Fe) scarcity limits biological productivity in high-nutrient low-chlorophyll (HNLC) ocean regions. Thus, the input, output and abundance of Fe in seawater likely played a critical role in shaping the development of modern marine ecosystems and perhaps even contributed to past changes in Earth’s climate. Three sources of Fe—wind-blown dust, hydrothermal activity, and sediment dissolution—carry distinct Fe isotopic fingerprints, and can therefore be used to track Fe source variability through time. However, establishing the timing of this source variability through Earth’s history remains challenging because the major depocenters for dissolved Fe in the ocean lack well-established chronologies. This is due to the fact that the...
he global carbon cycle during the mid-Cretaceous (~125-88 million years ago, Ma) experienced numerou...
Atmospheric dust is a primary source of iron (Fe) to the open ocean, and its flux is particularly im...
Oceanic iron inputs must be traced and quantified to learn how they affect primary productivity and ...
Biological carbon fixation is limited by the supply of Fe in vast regions of the global ocean. Disso...
We use tracers to partition dissolved iron (dFe) into the contributions from each source within a nu...
Biological productivity in the modern equatorial Pacific Ocean, a region with high nutrients and low...
In recent years, iron (Fe) has been recognized as one of the key elements in Earth’s biogeochemical ...
Temporal variations in Fe isotope compositions at three locations in the Pacific Ocean over the last...
Iron (Fe) is present over a very wide range of redox conditions and is one of most the important nut...
Constraints on characteristics of past oceans-- ocean circulation, sedimentation processes, and sour...
International audienceAs an essential micronutrient, iron plays a key role in oceanic biogeochemistr...
Although iron (Fe) is a key regulator of primary production over much of the ocean, many components ...
The purpose of this work is to study the mobility and budget of Fe isotopes in the oceanic crust and...
Iron is a scarce but essential micronutrient in the oceans that limits primary productivity in many ...
In the oceans’ high-nitrate–low-chlorophyll regions, such as the Peru/Humboldt Current system and th...
he global carbon cycle during the mid-Cretaceous (~125-88 million years ago, Ma) experienced numerou...
Atmospheric dust is a primary source of iron (Fe) to the open ocean, and its flux is particularly im...
Oceanic iron inputs must be traced and quantified to learn how they affect primary productivity and ...
Biological carbon fixation is limited by the supply of Fe in vast regions of the global ocean. Disso...
We use tracers to partition dissolved iron (dFe) into the contributions from each source within a nu...
Biological productivity in the modern equatorial Pacific Ocean, a region with high nutrients and low...
In recent years, iron (Fe) has been recognized as one of the key elements in Earth’s biogeochemical ...
Temporal variations in Fe isotope compositions at three locations in the Pacific Ocean over the last...
Iron (Fe) is present over a very wide range of redox conditions and is one of most the important nut...
Constraints on characteristics of past oceans-- ocean circulation, sedimentation processes, and sour...
International audienceAs an essential micronutrient, iron plays a key role in oceanic biogeochemistr...
Although iron (Fe) is a key regulator of primary production over much of the ocean, many components ...
The purpose of this work is to study the mobility and budget of Fe isotopes in the oceanic crust and...
Iron is a scarce but essential micronutrient in the oceans that limits primary productivity in many ...
In the oceans’ high-nitrate–low-chlorophyll regions, such as the Peru/Humboldt Current system and th...
he global carbon cycle during the mid-Cretaceous (~125-88 million years ago, Ma) experienced numerou...
Atmospheric dust is a primary source of iron (Fe) to the open ocean, and its flux is particularly im...
Oceanic iron inputs must be traced and quantified to learn how they affect primary productivity and ...