SIMBAD references

The formation pathways of different types of organic molecules in protostellar envelopes and other regions of star formation are subjects of intense current interest. We present here observations of C₄H and CH₃OH, tracing two distinct groups of interstellar organic molecules, toward 16 protostars in the Ophiuchus and Corona Australis molecular clouds. Together with observations in the literature, we present C₄H and CH₃OH data from single-dish observations of 40 embedded protostars. We find no correlation between the C₄H and CH₃OH column densities in this large sample. Based on this lack of correlation, a difference in line profiles between C₄H and CH₃OH, and previous interferometric observations of similar sources, we propose that the emission from these two molecules is spatially separated, with the CH₃OH tracing gas that has been transiently heated to high (∼70-100 K) temperatures and the C₄H tracing the cooler large-scale envelope where CH₄ molecules have been liberated from ices. These results provide insight in the differentiation between hot corino and warm carbon-chain chemistry in embedded protostars.