NIHAO-LG: The uniqueness of Local Group dwarf galaxies

Nikhil Arora, Andrea V. Macciò, Stephane Courteau, Tobias Buck, Noam I. Libeskind, Jenny G. Sorce, Chris B. Brook, Yehuda Hoffman, Gustavo Yepes, Edoardo Carlesi, Connor Stone

Research output: Contribution to journalArticlepeer-review


Recent observational and theoretical studies of the Local Group (LG) dwarf galaxies have highlighted their unique star-formation history, stellar metallicity, gas content, and kinematics. We investigate the commonality of these features by comparing constrained LG and field central dwarf halo simulations in the Numerical Investigation of a Hundred Astrophysical Objects (NIHAO) project. Our simulations, performed with NIHAO-like hydrodynamics which track the evolution of the Milky Way (MW) and M31 along with ∼100 dwarfs in the LG, reveal the total gas mass and stellar properties (velocity dispersion, evolution history, etc.) of present-day LG dwarfs to be similar to field systems. However, relative to field galaxies, LG dwarfs have more cold gas in their central parts and more metal-rich gas in the halo stemming from interactions with other dwarfs living in a high-density environment like the LG. Interestingly, the direct impact of massive MW/M31 analogues on the metallicity evolution of LG dwarfs is minimal; LG dwarfs accrete high-metallicity gas mostly from other dwarfs at late times. We have also tested for the impact of metal diffusion on the chemical evolution of LG dwarfs, and found that it does not affect the stellar or gaseous content of LG dwarfs. Our simulations suggest that the stellar components of LG dwarfs offer a unique and unbiased local laboratory for galaxy-formation tests and comparisons, especially against the overall dwarf population in the Universe.

Original languageEnglish (US)
Pages (from-to)6134-6149
Number of pages16
JournalMonthly Notices of the Royal Astronomical Society
Issue number4
StatePublished - Jun 1 2022


  • galaxies: Dwarf
  • galaxies: Evolution
  • galaxies: Formation
  • galaxies: Local Group
  • methods: Numerical

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science


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