A persistently aerobic marine nitrogen cycle featuring the biologically mediated oxidation of ammonium to nitrate has likely been in place since the Great Oxidation Event (GOE) some 2.3 billion years ago. Although nitrogen isotope data from some Neoarchaean sediments suggests transient nitrate availability prior to the GOE, these data are open to other interpretations. This is especially so as these data come from relatively deep-water environments that were spatially divorced from shallow-water settings that were the most likely sites for the accumulation of oxygen and the generation of nitrate. Here we present the first nitrogen isotope data from contemporaneous shallow-water sediments to constrain the nitrogen cycle in shallow Late Archa...
Nitrogen cycling has been evaluated across a depth transect in the late Paleoproterozoic Animikie Ba...
The aftermath of end-Permian mass extinction was marked by a ~5 million year interval of poorly-unde...
International audienceThe end of the Neoproterozoic Era (1000 to 541 Ma) is widely believed to have ...
A persistently aerobic marine nitrogen cycle featuring the biologically mediated oxidation of ammoni...
The Hamersley Group comprises a Late Archean sedimentary succession, which is thought to record the ...
Fixed nitrogen is an essential nutrient for eukaryotes. As N2 fixation and assimilation of nitrate a...
MAK acknowledges support from NSF Graduate Research Fellowship DGE-1256082. AB acknowledges funding ...
The marine nitrogen cycle is dominated by redox-controlled biogeochemical processes and, therefore, ...
The rise of oxygen on the early Earth (about 2.4 billion years ago) caused a reorganization of marin...
This study was supported financially by Natural Environment Research Council Standard Grants NE/M001...
Nitrogen is an essential nutrient for life, and its sources and cycling have varied over earth histo...
International audienceNitrogen isotope compositions (δ 15 N) in sedimentary rocks are extensively us...
CAF was funded by University of Maryland Horn Point Laboratory start-up funds.During the productive ...
The Mesozoic is marked by several widespread occurrences of intense organic matter burial. Sediments...
The present-day marine nitrogen (N) cycle is strongly regulated by biology. Deficiencies in the avai...
Nitrogen cycling has been evaluated across a depth transect in the late Paleoproterozoic Animikie Ba...
The aftermath of end-Permian mass extinction was marked by a ~5 million year interval of poorly-unde...
International audienceThe end of the Neoproterozoic Era (1000 to 541 Ma) is widely believed to have ...
A persistently aerobic marine nitrogen cycle featuring the biologically mediated oxidation of ammoni...
The Hamersley Group comprises a Late Archean sedimentary succession, which is thought to record the ...
Fixed nitrogen is an essential nutrient for eukaryotes. As N2 fixation and assimilation of nitrate a...
MAK acknowledges support from NSF Graduate Research Fellowship DGE-1256082. AB acknowledges funding ...
The marine nitrogen cycle is dominated by redox-controlled biogeochemical processes and, therefore, ...
The rise of oxygen on the early Earth (about 2.4 billion years ago) caused a reorganization of marin...
This study was supported financially by Natural Environment Research Council Standard Grants NE/M001...
Nitrogen is an essential nutrient for life, and its sources and cycling have varied over earth histo...
International audienceNitrogen isotope compositions (δ 15 N) in sedimentary rocks are extensively us...
CAF was funded by University of Maryland Horn Point Laboratory start-up funds.During the productive ...
The Mesozoic is marked by several widespread occurrences of intense organic matter burial. Sediments...
The present-day marine nitrogen (N) cycle is strongly regulated by biology. Deficiencies in the avai...
Nitrogen cycling has been evaluated across a depth transect in the late Paleoproterozoic Animikie Ba...
The aftermath of end-Permian mass extinction was marked by a ~5 million year interval of poorly-unde...
International audienceThe end of the Neoproterozoic Era (1000 to 541 Ma) is widely believed to have ...