Multi-molecule observations towards an increasing variety of galaxies have
been showing that the relative molecular abundances are affected by the type of
activity. However, these studies are biased towards bright active galaxies,
which are typically in interaction. We study the molecular composition of one
of the most isolated galaxies in the local Universe where the physical and
chemical properties of their molecular clouds have been determined by intrinsic
mechanisms. We present 3 mm broad band observations of the galaxy CIG 638,
extracted from the AMIGA sample of isolated galaxies. The emission of the J=1-0
transitions of CCH, HCN, HCO+, and HNC are detected. Integrated intensity
ratios between these line are compared with similar observations from the
literature towards active galaxies including starburst galaxies (SB), active
galactic nuclei (AGN), luminous infrared galaxies (LIRG), and GMCs in M33. A
significantly high ratio of CCH with respect to HCN, HCO+, and HNC is found
towards CIG 638 when compared with all other galaxies where these species have
been detected. This points to either an overabundance of CCH or to a relative
lack of dense molecular gas as supported by the low HCN/CO ratio, or both. The
data suggest that the CIG 638 is naturally a less perturbed galaxy where a
lower fraction of dense molecular gas, as well as a more even distribution
could explain the measured ratios. In this scenario the dense gas tracers would
be naturally dimmer, while the UV enhanced CCH, would be overproduced in a less
shielded medium.Comment: Letter accepted for publication in A&
