Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Abundances in the Galaxy: field stars
- Part II Abundances in the Galaxy: Galactic stars in clusters, bulges and the centre
- Part III Observations – abundances in extragalactic contexts
- Part IV Stellar populations and mass functions
- Part V Physical processes at high metallicity
- Part VI Formation and evolution of metal-rich stars and stellar yields
- 36 Massive-star evolution at high metallicity
- 37 Supernovae in Galactic evolution: direct and indirect metallicity effects
- 38 Progenitor evolution of Type-I supernovae: evolution and implications for yields
- 39 Star formation in the metal-rich Universe
- 40 Metallicity of Solar-type main-sequence stars: seismic tests
- 41 Chemical-abundance gradients in early-type galaxies
- 42 Oxygen-rich droplets and the enrichment of the interstellar medium
- Part VII Chemical and photometric evolution beyond Solar metallicity
36 - Massive-star evolution at high metallicity
Published online by Cambridge University Press: 02 December 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Abundances in the Galaxy: field stars
- Part II Abundances in the Galaxy: Galactic stars in clusters, bulges and the centre
- Part III Observations – abundances in extragalactic contexts
- Part IV Stellar populations and mass functions
- Part V Physical processes at high metallicity
- Part VI Formation and evolution of metal-rich stars and stellar yields
- 36 Massive-star evolution at high metallicity
- 37 Supernovae in Galactic evolution: direct and indirect metallicity effects
- 38 Progenitor evolution of Type-I supernovae: evolution and implications for yields
- 39 Star formation in the metal-rich Universe
- 40 Metallicity of Solar-type main-sequence stars: seismic tests
- 41 Chemical-abundance gradients in early-type galaxies
- 42 Oxygen-rich droplets and the enrichment of the interstellar medium
- Part VII Chemical and photometric evolution beyond Solar metallicity
Summary
After a review of the many effects of metallicity on the evolution of rotating and non-rotating stars, we discuss the consequences of a high metallicity for massive-star populations and stellar nucleosynthesis. The most striking effect of high metallicity is to enhance the amount of mass lost by stellar winds. Typically, at a metallicity of Z = 0.001 only 9% of the total mass returned by non-rotating massive stars is ejected by winds (91% by supernova explosions), whereas at Solar metallicity this fraction may amount to more than 40%. High metallicity favors the formation of Wolf–Rayet stars and Type-Ib supernovae, but militates against the occurrence of Type-Ic supernovae. We estimate empirical yields of carbon on the basis of the observed population of WC stars in the Solar neighborhood, and obtain that WC stars eject 0.2%–0.4% of the mass initially locked into stars in the form of newly synthesized carbon. Models give values well in agreement with these empirical yields. Chemical-evolution models indicate that such carbon yields may have an important impact on the abundance of carbon at high metallicity.
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- The Metal-Rich Universe , pp. 341 - 353Publisher: Cambridge University PressPrint publication year: 2008