Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population

Luca Montana; Romolo Caniglia; Marco Galaverni; Elena Fabbri; Atidje Ahmed; Barbora Černa Bolfíková; Sylwia D. Czarnomska; Ana Galov; Raquel Godinho; Maris Hindrikson; Pavel Hulva; Bogumiła Jȩdrzejewska; Maja Jelenčič; Miroslav Kutal; Urmas Saarma; Tomaž Skrbinšek; Ettore Randi

doi:10.1371/journal.pone.0176560

Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population

Luca Montana, Romolo Caniglia, Marco Galaverni, Elena Fabbri, Atidje Ahmed, Barbora Černa Bolfíková, Sylwia D. Czarnomska, Ana Galov, Raquel Godinho, Maris Hindrikson, Pavel Hulva, Bogumiła Jȩdrzejewska, Maja Jelenčič, Miroslav Kutal, Urmas Saarma, Tomaž Skrbinšek, Ettore Randi

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Abstract

The survival of isolated small populations is threatened by both demographic and genetic factors. Large carnivores declined for centuries in most of Europe due to habitat changes, overhunting of their natural prey and direct persecution. However, the current rewilding trends are driving many carnivore populations to expand again, possibly reverting the erosion of their genetic diversity. In this study we reassessed the extent and origin of the genetic variation of the Italian Wolf population, which is expanding after centuries of decline and isolation. We genotyped wolves from Italy and other nine populations at four mtDNA regions (control-region, ATP6, COIII and ND4) and 39 autosomal microsatellites. Results of phylo-genetic analyses and assignment procedures confirmed in the Italian wolves a second private mtDNA haplotype, which belongs to a haplogroup distributed mostly in southern Europe. Coalescent analyses showed that the unique mtDNA haplotypes in the Italian wolves likely originated during the late Pleistocene. ABC simulations concordantly showed that the extant Wolf populations in Italy and in south-western Europe started to be isolated and declined right after the last glacial maximum. Thus, the standing genetic variation in the Italian wolves principally results from the historical isolation south of the Alps.

Original language	English
Article number	e0176560
Journal	PLOS ONE
Volume	12
Issue number	5
Number of pages	19
ISSN	1932-6203
DOIs	https://doi.org/10.1371/journal.pone.0176560
Publication status	Published - 10 May 2017

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Montana, L., Caniglia, R., Galaverni, M., Fabbri, E., Ahmed, A., Bolfíková, B. Č., Czarnomska, S. D., Galov, A., Godinho, R., Hindrikson, M., Hulva, P., Jȩdrzejewska, B., Jelenčič, M., Kutal, M., Saarma, U., Skrbinšek, T., & Randi, E. (2017). Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population. PLOS ONE, 12(5), Article e0176560. https://doi.org/10.1371/journal.pone.0176560

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title = "Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population",

abstract = "The survival of isolated small populations is threatened by both demographic and genetic factors. Large carnivores declined for centuries in most of Europe due to habitat changes, overhunting of their natural prey and direct persecution. However, the current rewilding trends are driving many carnivore populations to expand again, possibly reverting the erosion of their genetic diversity. In this study we reassessed the extent and origin of the genetic variation of the Italian Wolf population, which is expanding after centuries of decline and isolation. We genotyped wolves from Italy and other nine populations at four mtDNA regions (control-region, ATP6, COIII and ND4) and 39 autosomal microsatellites. Results of phylo-genetic analyses and assignment procedures confirmed in the Italian wolves a second private mtDNA haplotype, which belongs to a haplogroup distributed mostly in southern Europe. Coalescent analyses showed that the unique mtDNA haplotypes in the Italian wolves likely originated during the late Pleistocene. ABC simulations concordantly showed that the extant Wolf populations in Italy and in south-western Europe started to be isolated and declined right after the last glacial maximum. Thus, the standing genetic variation in the Italian wolves principally results from the historical isolation south of the Alps.",

author = "Luca Montana and Romolo Caniglia and Marco Galaverni and Elena Fabbri and Atidje Ahmed and Bolf{\'i}kov{\'a}, {Barbora {\v C}erna} and Czarnomska, {Sylwia D.} and Ana Galov and Raquel Godinho and Maris Hindrikson and Pavel Hulva and Bogumi{\l}a Jȩdrzejewska and Maja Jelen{\v c}i{\v c} and Miroslav Kutal and Urmas Saarma and Toma{\v z} Skrbin{\v s}ek and Ettore Randi",

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Montana, L, Caniglia, R, Galaverni, M, Fabbri, E, Ahmed, A, Bolfíková, BČ, Czarnomska, SD, Galov, A, Godinho, R, Hindrikson, M, Hulva, P, Jȩdrzejewska, B, Jelenčič, M, Kutal, M, Saarma, U, Skrbinšek, T & Randi, E 2017, 'Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population', PLOS ONE, vol. 12, no. 5, e0176560. https://doi.org/10.1371/journal.pone.0176560

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T1 - Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population

AU - Montana, Luca

AU - Caniglia, Romolo

AU - Galaverni, Marco

AU - Fabbri, Elena

AU - Ahmed, Atidje

AU - Bolfíková, Barbora Černa

AU - Czarnomska, Sylwia D.

AU - Galov, Ana

AU - Godinho, Raquel

AU - Hindrikson, Maris

AU - Hulva, Pavel

AU - Jȩdrzejewska, Bogumiła

AU - Jelenčič, Maja

AU - Kutal, Miroslav

AU - Saarma, Urmas

AU - Skrbinšek, Tomaž

AU - Randi, Ettore

PY - 2017/5/10

Y1 - 2017/5/10

N2 - The survival of isolated small populations is threatened by both demographic and genetic factors. Large carnivores declined for centuries in most of Europe due to habitat changes, overhunting of their natural prey and direct persecution. However, the current rewilding trends are driving many carnivore populations to expand again, possibly reverting the erosion of their genetic diversity. In this study we reassessed the extent and origin of the genetic variation of the Italian Wolf population, which is expanding after centuries of decline and isolation. We genotyped wolves from Italy and other nine populations at four mtDNA regions (control-region, ATP6, COIII and ND4) and 39 autosomal microsatellites. Results of phylo-genetic analyses and assignment procedures confirmed in the Italian wolves a second private mtDNA haplotype, which belongs to a haplogroup distributed mostly in southern Europe. Coalescent analyses showed that the unique mtDNA haplotypes in the Italian wolves likely originated during the late Pleistocene. ABC simulations concordantly showed that the extant Wolf populations in Italy and in south-western Europe started to be isolated and declined right after the last glacial maximum. Thus, the standing genetic variation in the Italian wolves principally results from the historical isolation south of the Alps.

AB - The survival of isolated small populations is threatened by both demographic and genetic factors. Large carnivores declined for centuries in most of Europe due to habitat changes, overhunting of their natural prey and direct persecution. However, the current rewilding trends are driving many carnivore populations to expand again, possibly reverting the erosion of their genetic diversity. In this study we reassessed the extent and origin of the genetic variation of the Italian Wolf population, which is expanding after centuries of decline and isolation. We genotyped wolves from Italy and other nine populations at four mtDNA regions (control-region, ATP6, COIII and ND4) and 39 autosomal microsatellites. Results of phylo-genetic analyses and assignment procedures confirmed in the Italian wolves a second private mtDNA haplotype, which belongs to a haplogroup distributed mostly in southern Europe. Coalescent analyses showed that the unique mtDNA haplotypes in the Italian wolves likely originated during the late Pleistocene. ABC simulations concordantly showed that the extant Wolf populations in Italy and in south-western Europe started to be isolated and declined right after the last glacial maximum. Thus, the standing genetic variation in the Italian wolves principally results from the historical isolation south of the Alps.

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U2 - 10.1371/journal.pone.0176560

DO - 10.1371/journal.pone.0176560

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AN - SCOPUS:85018931772

SN - 1932-6203

VL - 12

JO - PLOS ONE

JF - PLOS ONE

IS - 5

M1 - e0176560

ER -

Combining phylogenetic and demographic inferences to assess the origin of the genetic diversity in an isolated Wolf population

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