A new host for a new Rossomyrmex minuchae population

Social parasites usually rely on chemical cues (cuticular hydrocarbons) to successfully invade and coexist with their hosts. Most ants that are obligate social parasites (slave-makers) can parasitize several related host species with different levels of chemical similarity although there are few exceptions where there is only a single host species. An example of the latter is Rossomyrmex minuchae, which was known to be only associated with Proformica longiseta. However, a recent discovery of a new R. minuchae population revealed that it can parasitize P. nasuta, a species with a separate distribution to P. longiseta. Chemical analyses of cuticular hydrocarbons show local adaptation of the parasite to its host in this new population, being more similar to P. nasuta than to other R. minuchae populations. In addition, genetic analyses evidence differences from the other known populations, from which it split 1.21 Mya during glacial and interglacial periods of the Pleistocene and remained separated to the present day. This historical genetic isolation and the chemical differences found between parasite populations may evidence a speciation process and support the local host-parasite coevolution.

Automated summary

Social parasites rely on chemical cues to invade and coexist with hosts. Most ants that are obligate social parasites can parasitize several host species with different levels of chemical similarity. However, there are exceptions, such as Rossomyrmex minuchae, which can only parasitize a single host species. A recent discovery of a new R. minuchae population showed local adaptation to a different host species, P. nasuta, and genetic differences from other populations, indicating historical genetic isolation and potential speciation.