We study phases and transitions of a triangular Hubbard model subject to commensurate magnetic field, called the Hofstadter-Hubbard model. At filling one fermion per site, for the number of fermion flavors 2 <= N <= 4, we identify three distinct phases and calculate critical interaction strength from self-consistent mean-field approximation. Integer quantum Hall, chiral spin liquid, and valence bond solid (or stripe) states could be realized upon varying the Hubbard interaction U. We study the critical transport behavior using quantum Boltzmann equations for general N for the putative continuous transition from quantum Hall states to chiral spin liquid. The critical behavior serves as strong signatures of the critical theory and consequently of the existence of chiral spin liquid as the proximate phase.<br/>9 pages, 4 figures<br/>

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