Morphometric raw data (29 characters) of di- and tetraploid Arabidopsis arenosa and A. lyrata ssp. petraea from Eastern Austria and the Western Carpathians

In the first column the individuals are listed. Their unique identification numbers comprise a population number first and an individual number second. In rare cases a third number is found between these two, which further characterizes the population and refers to our internal unique identifier system. Taxonomic assignment of the populations is as follows: diploid Arabidopsis arenosa (915140-915141), tetraploid A. arenosa (Ex04-93), diploid A. lyrata ssp. petraea (87-74), tetraploid A. lyrata ssp. petraea (01-95). In columns 2-24 morphological characters are listed. The character abbreviations 1-29 are as follows: Number of upper stem leaves above the midpoint of the stem (1), plant height (2), number of flowers (3), number of stem leaves (4), length of leafy stem part (5), length of second stem leaf (6), width of second stem leaf (7), length of uppermost stem leaf (8), width of uppermost stem leaf (9), length of biggest rosette leaf (10), length of biggest rosette leaf from the first leaf tooth to the leaf tip (11), basic number of leaf teeth of the biggest rosette leaf (12), length of stem from the ground rosette to the biggest stem leaf (13), length of stem from the ground rosette to the smallest stem leaf (14), hairs on leafy stem part (15), hairs on stem from the ground rosette to the first leaf (16), simple hairs on stem from the ground rosette to the first leaf (17), bifurcated hairs on stem from the ground rosette to the first leaf (18), trifurcated hairs on stem from the ground rosette to the first leaf (19), hairs on leafless stem part (20), simple hairs on flower buds (21), bifurcated hairs on flower buds (22), trifurcated hairs on flower buds (23), simple hairs on second stem leaf (24), bifurcated hairs on second stem leaf (25), trifurcated hairs on second stem leaf (26), white petal colour (27), light pink petal colour (28), dark pink petal colour (29). Eleven characters are used as ratios, e.g., 2:5. Characters 1-14 are either discrete or continuous quantitative characters. Characters 15-29 are qualitative characters

Microsatellite raw data (seven markers) of di- and tetraploid Arabidopsis arenosa and A. lyrata ssp. petraea from Eastern Austria and the Western Carpathians

Data are deposited as BAPS input file. Individuals are listed in the first column. Their unique identification numbers comprise a population number first and an individual number second. In rare cases a third number is found between these two, which further characterizes the population and refers to our internal unique identifier system. POP stands for "population". Taxonomic assignment of the populations is as follows: diploid Arabidopsis arenosa (126-915141), tetraploid A. arenosa (03-81), diploid A. lyrata ssp. petraea (115-74), tetraploid A. lyrata ssp. petraea (01-140). In columns two-eight the microsatellite markers are listed (ATTS0392, SLL2, ICE13, ICE7, NGA162, ICE14, AthZFPG). Each allele of each marker was annotated with a two digit code number

Accession data

Accession list with detailed information on origin, DNA data, cytogenetic data and inferences and haplotype definition

Arabidopsis Microsatellite data

Microsatellite input data (STRUCTURE) set for seven loci. Accession codes refer to the respective accession list. Missing data "-9". In the second row numbers 1-23 indicates taxa (taxon identifyer as used in accession list

ITS alignment

Alignment of Arabidopsis ITS types

MRP_supertree_fromRAxMLGeneTrees_OxalisHybSeq

MRP supertree from 727 low-copy nuclear gene trees of 25 southern African Oxalis accessions (gene tree estimation with maximum likelihood). Oxalis corniculata was used as outgroup

ASTRAL_speciesTree_fromMrBayesGeneTrees_OxalisHybSeq

ASTRAL species tree from 727 low-copy nuclear gene trees of 25 southern African Oxalis accessions (gene tree estimation with Bayesian inference). Oxalis corniculata was used as outgroup

concatenatedLCNloci_bootstrapped_RAxML_OxalisHybSeq

Bootstrapped maximum likelihood tree based on concatenation of 727 low-copy nuclear genes of 25 southern African Oxalis accessions. Oxalis corniculata was used as outgroup

STAR_speciesTree_fromMrBayesGeneTrees_OxalisHybSeq

STAR species tree from 727 low-copy nuclear gene trees of 25 southern African Oxalis accessions (gene tree estimation with Bayesian inference). Oxalis corniculata was used as outgroup

STAR_bootstrappedSpeciesTree_fromRAxMLGeneTrees_OxalisHybSeq

Bootstrapped STAR species tree from 727 low-copy nuclear gene trees of 25 southern African Oxalis accessions (gene tree estimation with maximum likelihood). Oxalis corniculata was used as outgroup