The KLEVER survey: nitrogen abundances at z ∼ 2 and probing the existence of a fundamental nitrogen relation
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Author
Hayden-Pawson, Connor
Curti, Mirko
Maiolino, Roberto
Cirasuolo, Michele
Belfiore, Francesco
Cappellari, Michele
Concas, Alice
Cresci, Giovanni
Cullen, Fergus
Kobayashi, Chiaki
Mannucci, Filippo
Marconi, Alessandro
Meneghetti, Massimo
Mercurio, Amata
Peng, Yingjie
Swinbank, Mark
Vincenzo, Fiorenzo
Attention
2299/26924
Abstract
We present a comparison of the nitrogen-to-oxygen ratio (N/O) in 37 high-redshift galaxies at z ∼2 taken from the KMOS Lensed Emission Lines and VElocity Review (KLEVER) Survey with a comparison sample of local galaxies, taken from the Sloan Digital Sky Survey (SDSS). The KLEVER sample shows only a mild enrichment in N/O of +0.1 dex when compared to local galaxies at a given gas-phase metallicity (O/H), but shows a depletion in N/O of -0.35 dex when compared at a fixed stellar mass (M∗). We find a strong anticorrelation in local galaxies between N/O and SFR in the M∗-N/O plane, similar to the anticorrelation between O/H and SFR found in the mass-metallicity relation (MZR). We use this anticorrelation to construct a fundamental nitrogen relation (FNR), analogous to the fundamental metallicity relation (FMR). We find that KLEVER galaxies are consistent with both the FMR and the FNR. This suggests that the depletion of N/O in high-z galaxies when considered at a fixed M∗ is driven by the redshift evolution of the mass-metallicity relation in combination with a near redshift-invariant N/O-O/H relation. Furthermore, the existence of an fundamental nitrogen relation suggests that the mechanisms governing the fundamental metallicity relation must be probed by not only O/H, but also N/O, suggesting pure-pristine gas inflows are not the primary driver of the FMR, and other properties such as variations in galaxy age and star formation efficiency must be important.