Chemical composition affects virtually all aspects of astrobiology, from stellar astrophysics to molecular biology. We present a synopsis of the research results presented at the “Stellar Stoichiometry” Workshop Without Walls hosted at Arizona State University April 11–12, 2013, under the auspices of the NASA Astrobiology Institute. The results focus on the measurement of chemical abundances and the effects of composition on processes from stellar to planetary scales. Of particular interest were the scientific connections between processes in these normally disparate fields. Measuring the abundances of elements in stars and giant and terrestrial planets poses substantial difficulties in technique and interpretation. One of the motivations for this conference was the fact that determinations of the abundance of a given element in a single star by different groups can differ by more than their quoted errors.
The problems affecting the reliability of abundance estimations and their inherent limitations are discussed. When these problems are taken into consideration, self-consistent surveys of stellar abundances show that there is still substantial variation (factors of ∼2) in the ratios of common elements (e.g., C, O, Na, Al, Mg, Si, Ca) important in rock-forming minerals, atmospheres, and biology. We consider how abundance variations arise through injection of supernova nucleosynthesis products into star-forming material and through photoevaporation of protoplanetary disks. The effects of composition on stellar evolution are substantial, and coupled with planetary atmosphere models can result in predicted habitable zone extents that vary by many tens of percent. Variations in the bulk composition of planets can affect rates of radiogenic heating and substantially change the mineralogy of planetary interiors, affecting properties such as convection and energy transport.
Details
- Astrobiological Stoichiometry
- Young, Patrick (Author)
- Desch, Steven (Author)
- Anbar, Ariel (Author)
- Barnes, Rory (Author)
- Hinkel, Natalie R. (Author)
- Kopparapu, Ravikumar (Author)
- Madhusudhan, Nikku (Author)
- Monga, Nikhil (Author)
- Pagano, Michael (Author)
- Riner, Miriam A. (Author)
- Scannapieco, Evan (Author)
- Shim, Sang-Heon (Author)
- Truitt, Amanda (Author)
- College of Liberal Arts and Sciences (Contributor)
- Digital object identifier: 10.1089/ast.2014.1143
- Identifier TypeInternational standard serial numberIdentifier Value1531-1074
- Identifier TypeInternational standard serial numberIdentifier Value1557-8070
- This is a copy of an article published in ASTROBIOLOGY. Copyright 2014 Mary Ann Liebert, Inc.; The final, published article is available online at: http://online.liebertpub.com/doi/abs/10.1089/ast.2014.1143
Citation and reuse
Cite this item
This is a suggested citation. Consult the appropriate style guide for specific citation guidelines.
Young, Patrick A., Desch, Steven J., Anbar, Ariel D., Barnes, Rory, Hinkel, Natalie R., Kopparapu, Ravikumar, Madhusudhan, Nikku, Monga, Nikhil, Pagano, Michael D., Riner, Miriam A., Scannapieco, Evan, Shim, Sang-Heon, & Truitt, Amanda (2014). Astrobiological Stoichiometry. ASTROBIOLOGY, 14(7), 603-626. http://dx.doi.org/10.1089/ast.2014.1143