Add to ORKGLarge Arctic rivers are important suppliers of iron to the Arctic Ocean. However, the sources of Fe-bearing particles in permafrost-dominated systems and the mechanisms driving this supply of Fe are poorly resolved. Here, Fe isotope ratios were used to determine the sources of Fe-bearing particles and colloids in the Lena River and tributaries. In samples collected after the spring floods, Fe-bearing particles (>0.22 µm) carried ∼70% of the Fe and have isotope ratios that are lower than, or similar to that of the continental crust. These particles are composed of a leachable Fe fraction of largely ferrihydrite, with isotope values of −1.40‰ to −0.12‰, and a fraction of clays and Fe oxides with continental crust values. Co-existing Fe-beari...
We have studied iron (Fe)-isotope signals in particles (> 0.22 µm) and the dissolved phase (< 0.22 µ...
The cycling of iron (Fe) is often closely linked with that of carbon, nitrogen, phosphorus and manga...
Incipient warming of peatlands at high latitudes is expected to modify soil drainage and hence the r...
Large Arctic rivers are an important source of iron (Fe) to the Arctic Ocean, though seasonal variat...
Iron is an important mediator of biotic and abiotic processes on the Earth’s surface, being an elect...
cited By 7International audienceThe input of iron to the Arctic Ocean plays a critical role in the p...
Riverine Fe input is the primary Fe source for the ocean. This study is focused on the distribution ...
Stable Fe isotope compositions have been measured in water samples of the subarctic Kalix River, a f...
Rivers are significant contributors of Fe to the ocean. However, the characteristics of chemically r...
The geochemistry of iron (Fe) during freshwater transport and estuarine mixing has been investigated...
Riverine suspended particulate matter (SPM) is essential for the delivery of micronutrients such as ...
The cycling of iron (Fe) is a key component for understanding water quality and biogeochemical proce...
We have studied iron (Fe)-isotope signals in particles (> 0.22 µm) and the dissolved phase (< 0.22 µ...
The cycling of iron (Fe) is often closely linked with that of carbon, nitrogen, phosphorus and manga...
Incipient warming of peatlands at high latitudes is expected to modify soil drainage and hence the r...
Large Arctic rivers are an important source of iron (Fe) to the Arctic Ocean, though seasonal variat...
Iron is an important mediator of biotic and abiotic processes on the Earth’s surface, being an elect...
cited By 7International audienceThe input of iron to the Arctic Ocean plays a critical role in the p...
Riverine Fe input is the primary Fe source for the ocean. This study is focused on the distribution ...
Stable Fe isotope compositions have been measured in water samples of the subarctic Kalix River, a f...
Rivers are significant contributors of Fe to the ocean. However, the characteristics of chemically r...
The geochemistry of iron (Fe) during freshwater transport and estuarine mixing has been investigated...
Riverine suspended particulate matter (SPM) is essential for the delivery of micronutrients such as ...
The cycling of iron (Fe) is a key component for understanding water quality and biogeochemical proce...
We have studied iron (Fe)-isotope signals in particles (> 0.22 µm) and the dissolved phase (< 0.22 µ...
The cycling of iron (Fe) is often closely linked with that of carbon, nitrogen, phosphorus and manga...
Incipient warming of peatlands at high latitudes is expected to modify soil drainage and hence the r...