Genetic diversity in old populations of sessile oak from Calabria assessed by nuclear and chloroplast SSR

[1]  Michele R. Dudash,et al.  Conservation and Genetics , 2018, The Yale journal of biology and medicine.

[2]  F. Lombardi,et al.  Forest structure of a maple old-growth stand: a case study on the Apennines mountains (Southern Italy) , 2017, Journal of Mountain Science.

[3]  F. Valladares,et al.  Some positive effects of the fragmentation of holm oak forests: Attenuation of water stress and enhancement of acorn production , 2016 .

[4]  Michal R. Chmielewski,et al.  Chloroplast microsatellites as a tool for phylogeographic studies: the case of white oaks in Poland , 2015 .

[5]  O. Lepais,et al.  Genetic structure of a natural oak community in central Italy: Evidence of gene flow between three sympatric white oak species (Quercus, Fagaceae) , 2015 .

[6]  M. C. Fiore,et al.  Genetic variation of an Italian long shelf-life tomato (Solanum lycopersicon L.) collection by using SSR and morphological fruit traits , 2015, Genetic Resources and Crop Evolution.

[7]  N. Shabanian,et al.  Genetic variability and structure of Quercus brantii assessed by ISSR, IRAP and SCoT markers. , 2014, Gene.

[8]  L. Johnson,et al.  Microsatellite primer development for post oak, Quercus stellata (Fagaceae) , 2014, Applications in plant sciences.

[9]  Y. El-Kassaby,et al.  Assessment of the Genetic Diversity in Forest Tree Populations Using Molecular Markers , 2014 .

[10]  Zhian N. Kamvar,et al.  Poppr: an R package for genetic analysis of populations with clonal, partially clonal, and/or sexual reproduction , 2014, PeerJ.

[11]  J. Burczyk,et al.  Seeing the forest through the trees: comprehensive inference on individual mating patterns in a mixed stand of Quercus robur and Q. petraea. , 2013, Annals of botany.

[12]  H. Hänninen,et al.  Potential for evolutionary responses to climate change – evidence from tree populations , 2013, Global change biology.

[13]  J. Leebens-Mack,et al.  Single nucleotide polymorphism isolated from a novel EST dataset in garden asparagus (Asparagus officinalis L.). , 2013, Plant science : an international journal of experimental plant biology.

[14]  O. Gailing,et al.  Morphological and genetic variation within and among four Quercus petraea and Q. robur natural populations , 2013 .

[15]  B. Muys,et al.  Meta‐Analysis of Susceptibility of Woody Plants to Loss of Genetic Diversity through Habitat Fragmentation , 2012, Conservation biology : the journal of the Society for Conservation Biology.

[16]  Thibaut Jombart,et al.  adegenet 1.3-1: new tools for the analysis of genome-wide SNP data , 2011, Bioinform..

[17]  B. Shiran,et al.  Morphological and molecular diversity among populations of Quercus brantii Lindl. in western forest of Iran , 2011 .

[18]  F. Alberto,et al.  Population differentiation of sessile oak at the altitudinal front of migration in the French Pyrenees , 2010, Molecular ecology.

[19]  F. Aravanopoulos,et al.  Detecting interspecific and geographic differentiation patterns in two interfertile oak species (Quercus petraea (Matt.) Liebl. and Q. robur L.) using small sets of microsatellite markers. , 2010, 1306.2131.

[20]  L. Balaguer,et al.  Variation in sclerophylly among Iberian populations of Quercus coccifera L. is associated with genetic differentiation across contrasting environments. , 2009, Plant biology.

[21]  Yu Li,et al.  Population structure and linkage disequilibrium of a mini core set of maize inbred lines in China , 2008, Theoretical and Applied Genetics.

[22]  T. Geburek,et al.  Why the Conservation of Forest Genetic Resources Has Not Worked , 2008, Conservation biology : the journal of the Society for Conservation Biology.

[23]  R. Finkeldey,et al.  Evidence for hybridization and introgression within a species-rich oak (Quercus spp.) community , 2007, BMC Evolutionary Biology.

[24]  H. Jacquemyn,et al.  Susceptibility of Common and Rare Plant Species to the Genetic Consequences of Habitat Fragmentation , 2007, Conservation biology : the journal of the Society for Conservation Biology.

[25]  A. Hoffmann,et al.  Limits to the adaptive potential of small populations , 2006 .

[26]  G. Luikart,et al.  Conservation and the genetics of populations , 2006 .

[27]  P. Smouse,et al.  genalex 6: genetic analysis in Excel. Population genetic software for teaching and research , 2006 .

[28]  G. Evanno,et al.  Detecting the number of clusters of individuals using the software structure: a simulation study , 2005, Molecular ecology.

[29]  M. Navascués,et al.  Chloroplast microsatellites: measures of genetic diversity and the effect of homoplasy , 2005, Molecular ecology.

[30]  K. Oyama,et al.  Genetic variation and differentiation of populations within the Quercus affinis Quercus laurina (Fagaceae) complex analyzed with RAPD markers , 2005 .

[31]  R. Petit,et al.  Use of chloroplast microsatellites to differentiate oak populations , 2004 .

[32]  C. Scotti-Saintagne,et al.  Genome Scanning for Interspecific Differentiation Between Two Closely Related Oak Species [Quercus robur L. and Q. petraea (Matt.) Liebl.] , 2004, Genetics.

[33]  J. Hamrick,et al.  Response of forest trees to global environmental changes , 2004 .

[34]  H. Schulenburg,et al.  A simple method for the calculation of microsatellite genotype distances irrespective of ploidy level , 2004, Molecular ecology.

[35]  S. Carnevale,et al.  A new set of mono‐ and dinucleotide chloroplast microsatellites in Fagaceae , 2004 .

[36]  A. Lowe,et al.  Ecological Genetics: Design, Analysis, and Application , 2004 .

[37]  F. Bussotti,et al.  Morphological and molecular diversity among Italian populations of Quercus petraea (Fagaceae). , 2003, Annals of botany.

[38]  J. Cottrell,et al.  Leaf morphological differentiation between Quercus robur and Quercus petraea is stable across western European mixed oak stands , 2002 .

[39]  P. Leberg,et al.  Estimating allelic richness: Effects of sample size and bottlenecks , 2002, Molecular ecology.

[40]  R. Petit,et al.  Chloroplast DNA variation of oaks in France and the influence of forest fragmentation on genetic diversity , 2002 .

[41]  P. Donnelly,et al.  Inference of population structure using multilocus genotype data. , 2000, Genetics.

[42]  F. Bussotti,et al.  Morphological and Molecular Differentiation between Quercus petraea(Matt.) Liebl. and Quercus pubescens Willd. (Fagaceae) in Northern and Central Italy , 2000 .

[43]  C. Werth,et al.  Clonal population structure and genetic variation in sand-shinnery oak,Quercus havardii (Fagaceae). , 1998, American journal of botany.

[44]  R. Petit,et al.  Phylogeographic structure of white oaks throughout the European continent. , 1997, Genetics.

[45]  H. Steinkellner,et al.  Identification and characterization of (GA/CT)n- microsatellite loci from Quercus petraea , 1997, Plant Molecular Biology.

[46]  J. Isebrands,et al.  Isozyme variation in oaks of the Apostle Islands in Wisconsin: genetic structure and levels of inbreeding in Quercus rubra and Q. ellipsoidalis (Fagaceae) , 1993 .

[47]  L. Excoffier,et al.  Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. , 1992, Genetics.

[48]  D. Botstein,et al.  Construction of a genetic linkage map in man using restriction fragment length polymorphisms. , 1980, American journal of human genetics.

[49]  Jennifer Lind-Riehl Genetic variation, local adaptation and population structure in North American red oak species, Quercus rubra L. and Q. ellipsoidalis E. J. Hill , 2014 .

[50]  F. Ghanati,et al.  GENETIC DIVERSITY IN PERSIAN OAK (QUERCUS BRANTI LINDL) FROM KOHKILUYE AND BOYERAHMAD USING SSR , 2008 .

[51]  M. Krawczak,et al.  Genetic Diversity in the , 2008 .

[52]  Z. Jie Genetic diversity analysis of Quercus mongolica populations with In-ter-Simple Sequence Repeats (ISSR) technique , 2007 .

[53]  R. Finkeldey,et al.  Genetic variation and differentiation within a natural community of five oak species (Quercus spp.). , 2007, Plant biology.

[54]  R. Petit,et al.  Gene diversity in natural populations of oak species , 1993 .

[55]  K. Nixon Infrageneric classification of Quercus (Fagaceae) and typification of sectional names , 1993 .

[56]  B. Weir,et al.  Allozyme diversity in plant species. , 1990 .

[57]  A. W. F. EDWARDS,et al.  Population structure , 1974, Nature.