Extreme enrichment in atmospheric 15 N 15 N | Zendy

Laurence Y. Yeung | Zendy; Shuning Li | Zendy; I. E. Kohl | Zendy; Joshua A. Haslun | Zendy; Nathaniel E. Ostrom | Zendy; Huanting Hu | Zendy; Tobias P. Fischer | Zendy; E. A. Schauble | Zendy; Edward Young | Zendy

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Extreme enrichment in atmospheric ¹⁵ N ¹⁵ N

Author(s) -

Laurence Y. Yeung,

Shuning Li,

I. E. Kohl,

Joshua A. Haslun,

Nathaniel E. Ostrom,

Huanting Hu,

Tobias P. Fischer,

E. A. Schauble,

Edward Young

Publication year - 2017

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.aao6741

Subject(s) - atmospheric chemistry , astrobiology , environmental chemistry , environmental science , atmospheric sciences , radiochemistry , physics , chemistry , meteorology , ozone

Data description: This dataset contains two types of data. The first is a set of isotopic data (d15N, d29, d30, and D30 values) collected on an ultrahigh resolution mass spectrometer. The second is a set of model parameters and results. Both were used to support the findings reported in L. Y. Yeung, S. Li, I. E. Kohl, J. A. Haslun, N. E. Ostrom, H. Hu, T. P. Fischer, E. A. Schauble, E. D. Young, Extreme enrichment in atmospheric 15N15N. Sci. Adv. 3, eaao6741 (2017). doi: 10.1126/sciadv.aao6741.Table descriptions follow below: table S1. Isotopic data for air samples and heated gases. table S2. Isotopic data for biological experiments. table S3. Data for electrolysis experiments. table S4. Reactions used in the model of the electrolysis experiments. table S5. Data for volcanic N2 samples and end members used to derive mixing fractions fRS and fmantle. table S6. Results from diffusion experiment for verifying instrumental accuracy

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