TY - JOUR
T1 - Oxygen and nitrogen in Leo A and GR 8
AU - Van Zee, Liese
AU - Skillman, Evan D.
AU - Haynes, Martha P.
PY - 2006/1/20
Y1 - 2006/1/20
N2 - We present elemental abundances for multiple H n regions in Leo A and GR 8 obtained from long-slit optical spectroscopy of these two nearby low-luminosity dwarf irregular galaxies. As expected from their luminosities, and in agreement with previous observations, the derived oxygen abundances are extremely low in both galaxies. High signal-to-noise ratio (S/N) observations of a planetary nebula in Leo A yield 12 + log (O/H) = 7.30±0.05; semiempirical calculations of the oxygen abundance in four H II regions in Leo A indicate 12 + log(O/H) = 7.38±0.10. These results confirm that Leo A has one of the lowest ISM metal abundances of known nearby galaxies. Based on results from two H II regions with high S/N measurements of the weak [O III] λ4363 line, the mean oxygen abundance of GR 8 is 12 + log (O/H) = 7.65±0.06; using "empirical" and "semiempirical" methods, similar abundances are derived for six other GR 8 H II regions. Similar to previous results in other low-metallicity galaxies, the mean log (N/O) = -1.53±0.09 for Leo A and -1.51±0.07 for GR 8. There is no evidence of significant variations in either O/H or N/O in the H II regions. The metallicity-luminosity relation for nearby (D < 5 Mpc) dwarf irregular galaxies with measured oxygen abundances has a mean correlation of 12 + log (O/H) = 5.67MB-0.151 MB, with a dispersion in oxygen about the relationship of σ = 0.21, These observations confirm that gas-rich, low-luminosity galaxies have extremely low elemental abundances in the ionized gas phase of their interstellar media. Although Leo A has one of the lowest metal abundances of known nearby galaxies, detection of tracers of an older stellar population (RR Lyrae variable stars, horizontal branch stars, and a well-populated red giant branch) indicate that it is not a newly formed galaxy, as has been proposed for some other similar low-metallicity star-forming galaxies.
AB - We present elemental abundances for multiple H n regions in Leo A and GR 8 obtained from long-slit optical spectroscopy of these two nearby low-luminosity dwarf irregular galaxies. As expected from their luminosities, and in agreement with previous observations, the derived oxygen abundances are extremely low in both galaxies. High signal-to-noise ratio (S/N) observations of a planetary nebula in Leo A yield 12 + log (O/H) = 7.30±0.05; semiempirical calculations of the oxygen abundance in four H II regions in Leo A indicate 12 + log(O/H) = 7.38±0.10. These results confirm that Leo A has one of the lowest ISM metal abundances of known nearby galaxies. Based on results from two H II regions with high S/N measurements of the weak [O III] λ4363 line, the mean oxygen abundance of GR 8 is 12 + log (O/H) = 7.65±0.06; using "empirical" and "semiempirical" methods, similar abundances are derived for six other GR 8 H II regions. Similar to previous results in other low-metallicity galaxies, the mean log (N/O) = -1.53±0.09 for Leo A and -1.51±0.07 for GR 8. There is no evidence of significant variations in either O/H or N/O in the H II regions. The metallicity-luminosity relation for nearby (D < 5 Mpc) dwarf irregular galaxies with measured oxygen abundances has a mean correlation of 12 + log (O/H) = 5.67MB-0.151 MB, with a dispersion in oxygen about the relationship of σ = 0.21, These observations confirm that gas-rich, low-luminosity galaxies have extremely low elemental abundances in the ionized gas phase of their interstellar media. Although Leo A has one of the lowest metal abundances of known nearby galaxies, detection of tracers of an older stellar population (RR Lyrae variable stars, horizontal branch stars, and a well-populated red giant branch) indicate that it is not a newly formed galaxy, as has been proposed for some other similar low-metallicity star-forming galaxies.
KW - Galaxies: abundances
KW - Galaxies: dwarf
KW - Galaxies: evolution galaxies: individual (Leo A, GR 8)
KW - Galaxies: irregular
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U2 - 10.1086/498298
DO - 10.1086/498298
M3 - Article
AN - SCOPUS:33644523739
SN - 0004-637X
VL - 637
SP - 269
EP - 282
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1 I
ER -