Genetic variability in Peregrine falcon populations of the Western Palaearctic region

Risultato della ricerca: Paper

Abstract

We analyzed variation in ten polymorphic microsatellites and a portion of cytochrome b mitochondrial DNA in 4 populations of the Peregrine falcon (Falco peregrinus). living in northern and southern Italy. Spain and Czech Republic to assess species diversity in the poorly investigated Western Palearctic region. The Spanish population lives in the contact zone between F. peregrinus peregrinus and F. p. brookei. both the northern Italian and the Czech populations live within the range of F. p. peregrinus and the southern Italian is within the F. p. brookei. We added to our cytochrome b sequence dataset comprising 81 samples. previously published mitochondrial DNA sequences (n = 31) of English F. p. peregrinus. Spanish F. p. brookei and 8 Peregrine falcon subspecies to outline genetic variation in the region on a worldwide basis. Genetic differentiation in nuclear STR loci was almost absent and it is not possible to distinguish geographical groupings. Regarding mtDNA we identified 17 haplotypes from the 112 Peregrine Falcon samples. of which 11 were unique and 6 were shared among two or more subspecies. The 68% of sample belonged to 2 shared haplotypes. Overwintering of F. p. calidus in Italy was confirmed on a genetic basis. The Spanish and Sicilian brookei peregrines split up among haplotypes. but the 35% of Sicilian falcon shared a new haplotype unique for the island. There was neither concordance between cytochrome b variation and taxonomic designation at the subspecies level. nor any phylogeographic pattern in the genetic data. Our analysis. regarding the investigated European region. supported that historical and recent dispersal. combined with rapid morphological evolution. may have originated such a lack of concordance between genetic variation (cytochrome b mtDNA sequences and nuclear STR loci) and phylogeography in the Peregrine falcon.
Lingua originaleEnglish
Stato di pubblicazionePublished - 2017

Fingerprint

Falco peregrinus
cytochrome b
Peregrinus
genetic variation
haplotypes
mitochondrial DNA
Italy
loci
phylogeography
sampling
overwintering
Czech Republic
Palaearctic region
Spain
microsatellite repeats
nucleotide sequences
species diversity

Cita questo

@conference{a986d637fe2e41a6ac75132fad719a6f,
title = "Genetic variability in Peregrine falcon populations of the Western Palaearctic region",
abstract = "We analyzed variation in ten polymorphic microsatellites and a portion of cytochrome b mitochondrial DNA in 4 populations of the Peregrine falcon (Falco peregrinus). living in northern and southern Italy. Spain and Czech Republic to assess species diversity in the poorly investigated Western Palearctic region. The Spanish population lives in the contact zone between F. peregrinus peregrinus and F. p. brookei. both the northern Italian and the Czech populations live within the range of F. p. peregrinus and the southern Italian is within the F. p. brookei. We added to our cytochrome b sequence dataset comprising 81 samples. previously published mitochondrial DNA sequences (n = 31) of English F. p. peregrinus. Spanish F. p. brookei and 8 Peregrine falcon subspecies to outline genetic variation in the region on a worldwide basis. Genetic differentiation in nuclear STR loci was almost absent and it is not possible to distinguish geographical groupings. Regarding mtDNA we identified 17 haplotypes from the 112 Peregrine Falcon samples. of which 11 were unique and 6 were shared among two or more subspecies. The 68{\%} of sample belonged to 2 shared haplotypes. Overwintering of F. p. calidus in Italy was confirmed on a genetic basis. The Spanish and Sicilian brookei peregrines split up among haplotypes. but the 35{\%} of Sicilian falcon shared a new haplotype unique for the island. There was neither concordance between cytochrome b variation and taxonomic designation at the subspecies level. nor any phylogeographic pattern in the genetic data. Our analysis. regarding the investigated European region. supported that historical and recent dispersal. combined with rapid morphological evolution. may have originated such a lack of concordance between genetic variation (cytochrome b mtDNA sequences and nuclear STR loci) and phylogeography in the Peregrine falcon.",
author = "Maurizio Sara'",
year = "2017",
language = "English",

}

TY - CONF

T1 - Genetic variability in Peregrine falcon populations of the Western Palaearctic region

AU - Sara', Maurizio

PY - 2017

Y1 - 2017

N2 - We analyzed variation in ten polymorphic microsatellites and a portion of cytochrome b mitochondrial DNA in 4 populations of the Peregrine falcon (Falco peregrinus). living in northern and southern Italy. Spain and Czech Republic to assess species diversity in the poorly investigated Western Palearctic region. The Spanish population lives in the contact zone between F. peregrinus peregrinus and F. p. brookei. both the northern Italian and the Czech populations live within the range of F. p. peregrinus and the southern Italian is within the F. p. brookei. We added to our cytochrome b sequence dataset comprising 81 samples. previously published mitochondrial DNA sequences (n = 31) of English F. p. peregrinus. Spanish F. p. brookei and 8 Peregrine falcon subspecies to outline genetic variation in the region on a worldwide basis. Genetic differentiation in nuclear STR loci was almost absent and it is not possible to distinguish geographical groupings. Regarding mtDNA we identified 17 haplotypes from the 112 Peregrine Falcon samples. of which 11 were unique and 6 were shared among two or more subspecies. The 68% of sample belonged to 2 shared haplotypes. Overwintering of F. p. calidus in Italy was confirmed on a genetic basis. The Spanish and Sicilian brookei peregrines split up among haplotypes. but the 35% of Sicilian falcon shared a new haplotype unique for the island. There was neither concordance between cytochrome b variation and taxonomic designation at the subspecies level. nor any phylogeographic pattern in the genetic data. Our analysis. regarding the investigated European region. supported that historical and recent dispersal. combined with rapid morphological evolution. may have originated such a lack of concordance between genetic variation (cytochrome b mtDNA sequences and nuclear STR loci) and phylogeography in the Peregrine falcon.

AB - We analyzed variation in ten polymorphic microsatellites and a portion of cytochrome b mitochondrial DNA in 4 populations of the Peregrine falcon (Falco peregrinus). living in northern and southern Italy. Spain and Czech Republic to assess species diversity in the poorly investigated Western Palearctic region. The Spanish population lives in the contact zone between F. peregrinus peregrinus and F. p. brookei. both the northern Italian and the Czech populations live within the range of F. p. peregrinus and the southern Italian is within the F. p. brookei. We added to our cytochrome b sequence dataset comprising 81 samples. previously published mitochondrial DNA sequences (n = 31) of English F. p. peregrinus. Spanish F. p. brookei and 8 Peregrine falcon subspecies to outline genetic variation in the region on a worldwide basis. Genetic differentiation in nuclear STR loci was almost absent and it is not possible to distinguish geographical groupings. Regarding mtDNA we identified 17 haplotypes from the 112 Peregrine Falcon samples. of which 11 were unique and 6 were shared among two or more subspecies. The 68% of sample belonged to 2 shared haplotypes. Overwintering of F. p. calidus in Italy was confirmed on a genetic basis. The Spanish and Sicilian brookei peregrines split up among haplotypes. but the 35% of Sicilian falcon shared a new haplotype unique for the island. There was neither concordance between cytochrome b variation and taxonomic designation at the subspecies level. nor any phylogeographic pattern in the genetic data. Our analysis. regarding the investigated European region. supported that historical and recent dispersal. combined with rapid morphological evolution. may have originated such a lack of concordance between genetic variation (cytochrome b mtDNA sequences and nuclear STR loci) and phylogeography in the Peregrine falcon.

UR - http://hdl.handle.net/10447/252395

M3 - Paper

ER -