Studying speciation in birds
Researchers in Sweden studied interbreeding in flycatchers to better understand how species evolve in real time.
Despite huge advances in genomic sequencing and other molecular tools,
scientists still lack a technical understanding of how speciation occurs
in animals. In particular, it would be valuable to understand the
genetic mechanisms that result in speciation.
The EU-funded 'Speciation genomics in a wild bird populations'
(SPECIATIONGENOMICS) project studied interbreeding between the collared
flycatcher (Ficedula albicollis) and the pied flycatcher (Ficedula
hypolecua). Flycatchers are good study species as they happily breed in
box nests and usually stay in one breeding site for long periods.
Researchers collected data about breeding, physical appearance and
behaviour in these birds over a long period. They compared this data to
genetic changes either on the sex-linked chromosome (called the Z
chromosome in birds) or elsewhere in the birds' genomes.
Generally, researchers found that changes on the Z chromosome were
minor in comparison to non-sex-linked variation. One exception was
noted: wing patches in collared flycatchers varied widely and were
associated with changes on the Z chromosome.
Lastly, SPECIATIONGENOMICS used a molecular biology technique to
identify areas of the genome that influence physical traits. The
recently sequenced genome of the collared flycatcher and the
physiological data collected previously allowed researchers to search
for genes associated with speciation.
The work done during SPECIATIONGENOMICS has advanced our
understanding of the mechanics driving speciation. This will contribute
to scientists' grasp of evolution, and may lead to improved conservation
efforts.
published: 2015-03-04