**JC**
04-30-2020, 08:27 AM
AncestryDNA test.
Using single population
----- START OF POPULATIONS FOR CHROMOSOME 1 -----
Mixed Mode:
1 92.58% CL83_collegno_italy_longobard + 7.42% sar00665_sar00665 @ 2.135
2 63.67% CL93_collegno_italy_longobard + 36.33% I8474_iberia @ 2.287
3 50.39% I0164_Unetice + 49.61% I8474_iberia @ 2.288
4 50.39% I8474_iberia + 49.61% I0164_Unetice @ 2.297
5 69.14% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 + 30.86% I4252_Malopolska_Bell_Beaker_R1b_R1b @ 2.413
6 55.86% I8474_iberia + 44.14% Andronovo_RISE503_Russia_174601298_BC @ 2.506
7 57.42% RISE150_Przeclawice_Poland_3469_years_U5a1b1 + 42.58% I8474_iberia @ 2.564
8 90.23% CL83_collegno_italy_longobard + 9.77% I0410_SpainEN @ 2.632
9 53.52% I8474_iberia + 46.48% RISE386_Bulanovo_Russia_3775_years_M_R_P231_J1c1b1 a @ 2.685
10 53.52% I8474_iberia + 46.48% Sintashta_RISE386_Russia_229801754_BC @ 2.697
Least-squares method.
Using 1 populations approximation
1 100% CL87_collegno_italy_longobard @ 5.118
2 100% UneticeBellBeaker_RISE577_Poland_250001900_BC @ 5.518
3 100% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 @ 6.136
4 100% CrusaderSI39KingdomofJerusalem @ 7.029
5 100% CL83_collegno_italy_longobard @ 7.103
6 100% I8206_iberia @ 7.465
7 100% SZ14_szolad_hungary_longobard @ 8.018
8 100% CL102_collegno_italy_longobard @ 8.508
9 100% CL84_collegno_italy_longobard @ 8.727
10 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 8.850
----- START OF POPULATIONS FOR CHROMOSOME 2 -----
Mixed Mode:
1 55.86% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 44.14% IA_Civitavecchia_R473 @ 1.326
2 73.05% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 26.95% Anatolian_Hunter_Gatherer_Turkey_13642013073_BC @ 1.596
3 73.83% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 26.17% LBK_Stuttgart._Germany @ 1.642
4 75.39% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 24.61% SZ19_szolad_hungary_longobard @ 1.696
5 75.39% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 24.61% I1496_NE6_HungaryEN @ 1.750
6 80.08% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 19.92% I8215_iberia @ 1.771
7 81.64% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 18.36% Tep002_Tepecik_Ciftlik_level_5_c_6500_BCE_8500_BP @ 1.873
8 81.64% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 18.36% Tepecik002_Tepecik002 @ 1.873
9 66.02% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 33.98% I7498_Muslim_Iberian_1000_1100_CE_E1b1b1a1b1a_H3a1 @ 2.004
10 71.48% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 28.52% N28_Neolithic_Kujawy_Lengyel_BKG @ 2.034
Least-squares method.
Using 1 populations approximation
1 100% SZ3.SG_szolad_hungary_longobard @ 6.874
2 100% CL87_collegno_italy_longobard @ 6.956
3 100% SZ8_szolad_hungary_longobard @ 7.529
4 100% SZ24_szolad_hungary_longobard @ 9.063
5 100% CL102_collegno_italy_longobard @ 9.391
6 100% SZ38_szolad_hungary_longobard @ 9.417
7 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 9.441
8 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 9.632
9 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 9.644
10 100% I8206_iberia @ 9.931
----- START OF POPULATIONS FOR CHROMOSOME 3 -----
Mixed Mode:
1 87.11% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 12.89% SZ35_szolad_hungary_longobard @ 1.630
2 83.98% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 16.02% I3808_morisco_I3808_morisco @ 1.897
3 82.42% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 17.58% I7499_Muslim_Iberian_1000_1100_CE2 @ 2.017
4 83.98% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 16.02% I3808_iberia @ 2.092
5 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% LevantPPNB_I0867_Israel_730006750 @ 2.115
6 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% I0867_LevantN @ 2.172
7 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% i1183_peqi_in_Israel_4500_3900_BCE @ 2.203
8 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% LevantBA_M291439 @ 2.237
9 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% Sidon_BA_ERS1790731 @ 2.242
10 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% i1152_peqi_in_Israel_4500_3900_BCE @ 2.281
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 5.636
2 100% CL87_collegno_italy_longobard @ 5.964
3 100% CL84_collegno_italy_longobard @ 6.242
4 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 6.383
5 100% CL83_collegno_italy_longobard @ 7.213
6 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 7.365
7 100% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 7.461
8 100% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 8.026
9 100% SZ24_szolad_hungary_longobard @ 8.314
10 100% SZ7_szolad_hungary_longobard @ 8.482
----- START OF POPULATIONS FOR CHROMOSOME 4 -----
Mixed Mode:
1 52.73% SZ3.SG_szolad_hungary_longobard + 47.27% Bichon_Switzerland_11000_y_old @ 4.122
2 50.39% Bichon_Switzerland_11000_y_old + 49.61% SZ3.SG_szolad_hungary_longobard @ 4.244
3 52.73% SZ3.SG_szolad_hungary_longobard + 47.27% I2158_Late_Upper_Paleolithic_Sicilian_hunter_gathe rer @ 4.263
4 58.98% SZ8_szolad_hungary_longobard + 41.02% Ajvide58_Sweden_3000_BC @ 4.377
5 50.39% I2158_Late_Upper_Paleolithic_Sicilian_hunter_gathe rer + 49.61% SZ3.SG_szolad_hungary_longobard @ 4.385
6 57.42% SZ3.SG_szolad_hungary_longobard + 42.58% Bichon_Switzerland_11000_y_old_2 @ 4.406
7 69.92% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 30.08% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 @ 4.419
8 62.11% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 37.89% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 4.446
9 65.23% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 34.77% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 4.467
10 83.98% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 16.02% RISE502_Bystrovka_Russia_3140_years_F_U5a1d @ 4.498
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 6.793
2 100% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a @ 6.917
3 100% SZ41_szolad_hungary_longobard @ 7.501
4 100% CL92_collegno_italy_longobard @ 8.123
5 100% SZ7_szolad_hungary_longobard @ 8.313
6 100% SZ9_szolad_hungary_longobard @ 9.192
7 100% SZ12_szolad_hungary_longobard @ 9.194
8 100% SZ16_szolad_hungary_longobard @ 9.319
9 100% CL84_collegno_italy_longobard @ 9.549
10 100% 84001_Sigtuna_10_12_century @ 9.665
----- START OF POPULATIONS FOR CHROMOSOME 5 -----
Mixed Mode:
1 64.45% scy303_scythian_Moldova_380_203bce + 35.55% SZ6_szolad_hungary_longobard @ 4.077
2 71.48% kls001_Sigtuna_10_12_century_M_R1_h1b1 + 28.52% SZ6_szolad_hungary_longobard @ 4.252
3 69.14% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 + 30.86% SZ6_szolad_hungary_longobard @ 4.465
4 66.02% SZ41_szolad_hungary_longobard + 33.98% SZ6_szolad_hungary_longobard @ 4.507
5 81.64% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 18.36% SZ6_szolad_hungary_longobard @ 4.630
6 71.48% Hallstatt_Celt_DA112_Bylany_Czechia + 28.52% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 4.759
7 95.70% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 4.30% australian @ 4.786
8 51.95% kls001_Sigtuna_10_12_century_M_R1_h1b1 + 48.05% SZ8_szolad_hungary_longobard @ 4.876
9 50.39% SZ8_szolad_hungary_longobard + 49.61% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 4.885
10 66.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 33.20% SZ8_szolad_hungary_longobard @ 4.984
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 6.178
2 100% CL84_collegno_italy_longobard @ 8.177
3 100% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 8.402
4 100% SZ8_szolad_hungary_longobard @ 8.800
5 100% CL87_collegno_italy_longobard @ 8.967
6 100% SZ24_szolad_hungary_longobard @ 9.017
7 100% SZ30_szolad_hungary_longobard @ 9.082
8 100% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 9.115
9 100% CL146_collegno_italy_longobard @ 9.225
10 100% SZ12_szolad_hungary_longobard @ 9.300
----- START OF POPULATIONS FOR CHROMOSOME 6 -----
Mixed Mode:
1 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% Ma’lta_South_Central0Siberia_22.000_BC @ 3.738
2 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 4.252
3 87.89% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.11% AfontovaGora3_AfontovaGora2_merge @ 4.323
4 78.52% I4251_Malopolska_Bell_Beaker_R1b_R1b + 21.48% MJ13_West_Scythian_580_BC @ 4.372
5 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% I0124_EHG_I0124_S @ 4.385
6 58.98% RISE505_Kytmanovo_Russia_3391_years_U4a1b + 41.02% I8341_iberia @ 4.391
7 58.98% Andronovo_RISE505_Russia + 41.02% I8341_iberia @ 4.391
8 81.64% CrusaderSI39KingdomofJerusalem + 18.36% Vintas(598)_Vintas(598) @ 4.445
9 74.61% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R + 25.39% ANCIENT_SA6001Sharakhalsun6_Steppe_of_Maykop_cultu re_5444 @ 4.490
10 88.67% I4251_Malopolska_Bell_Beaker_R1b_R1b + 11.33% Botai_CA_Yamnaya @ 4.545
Least-squares method.
Using 1 populations approximation
1 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 7.366
2 100% DA194_Hungary_Scythian @ 9.590
3 100% Albertsdedt_Germany_LN_M107790 @ 9.893
4 100% SZ23_szolad_hungary_longobard @ 10.527
5 100% CrusaderSI47KingdomofJerusalem @ 11.088
6 100% MigrationPeriod_DA119_Slovakia_3750400_AD @ 11.361
7 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 11.928
8 100% sz22_Longobard @ 12.035
9 100% SZ25_szolad_hungary_longobard @ 12.586
10 100% SZ42_szolad_hungary_longobard @ 12.673
----- START OF POPULATIONS FOR CHROMOSOME 7 -----
Mixed Mode:
1 76.17% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 23.83% Crimean_Nogay @ 3.332
2 80.86% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 19.14% Crimean_Nogay @ 3.475
3 91.02% CL97_collegno_italy_longobard + 8.98% i1632_areni_merged @ 3.527
4 93.36% CL97_collegno_italy_longobard + 6.64% I1658_ArmeniaEBA @ 3.559
5 93.36% CL97_collegno_italy_longobard + 6.64% Kura_Araxes @ 3.559
6 94.14% CL97_collegno_italy_longobard + 5.86% i1662_iranchl @ 3.590
7 94.14% CL97_collegno_italy_longobard + 5.86% i1674_iranchl @ 3.592
8 94.14% CL97_collegno_italy_longobard + 5.86% I1665_IRAN_CHL_I1665 @ 3.620
9 91.02% CL97_collegno_italy_longobard + 8.98% RISE423_Armenian_MBA @ 3.684
10 91.02% CL97_collegno_italy_longobard + 8.98% CL38_collegno_italy_longobard @ 3.704
Least-squares method.
Using 1 populations approximation
1 100% CL97_collegno_italy_longobard @ 5.881
2 100% Polish_Bell_Beaker_I4253_Samborzec._Poland_2571022 08_BC @ 7.655
3 100% SZ14_szolad_hungary_longobard @ 7.798
4 100% SZ30_szolad_hungary_longobard @ 8.020
5 100% CrusaderSI39KingdomofJerusalem @ 9.231
6 100% SZ15.SG_szolad_hungary_longobard @ 9.661
7 100% SZ12_szolad_hungary_longobard @ 9.883
8 100% sz22_Longobard @ 10.031
9 100% SZ11.SG_szolad_hungary_longobard @ 10.711
10 100% CL93_collegno_italy_longobard @ 10.788
----- START OF POPULATIONS FOR CHROMOSOME 8 -----
Mixed Mode:
1 83.20% BeakerNorthItaly_I2478 + 16.80% Kotias_CHG @ 5.917
2 83.20% I2478_Beaker_North_Italy_I2478 + 16.80% Kotias_CHG @ 5.917
3 58.98% I1388_Beaker_South_France_I1388 + 41.02% DA145_Ancient_Sarmatian_R @ 6.219
4 83.98% BeakerNorthItaly_I2478 + 16.02% SATP_SATP_extract23+BAK_merged @ 6.223
5 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% SATP_SATP_extract23+BAK_merged @ 6.223
6 83.98% BeakerNorthItaly_I2478 + 16.02% Kotias2_5700_BC @ 6.237
7 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% Kotias2_5700_BC @ 6.237
8 83.98% BeakerNorthItaly_I2478 + 16.02% kk1_Kotias_7500_7900_BC_M_J2a_H13c @ 6.277
9 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% kk1_Kotias_7500_7900_BC_M_J2a_H13c @ 6.277
10 83.98% BeakerNorthItaly_I2478 + 16.02% Kotias @ 6.285
Least-squares method.
Using 1 populations approximation
1 100% I6581_Silesia_Bell_Beaker_R1b_R1b @ 12.959
2 100% I6582_Silesia_Bell_Beaker @ 13.326
3 100% I8203_iberia @ 13.635
4 100% I8474_iberia @ 15.639
5 100% CrusaderSI47KingdomofJerusalem @ 15.801
6 100% I3759_Celtiberian_I3759_Celtiberian_m @ 15.842
7 100% CL94_collegno_italy_longobard @ 15.889
8 100% I3757_Celtiberian_I3757_Celtiberian_U @ 16.508
9 100% CL102_collegno_italy_longobard @ 16.538
10 100% I3758_Celtiberian_U @ 16.721
----- START OF POPULATIONS FOR CHROMOSOME 9 -----
Mixed Mode:
1 57.42% I0017Motala12 + 42.58% BeakerNorthItaly_I2478 @ 1.825
2 57.42% I0017Motala12 + 42.58% I2478_Beaker_North_Italy_I2478 @ 1.825
3 66.02% Loschbour_Loschbour._Luxembourg_6000_BC + 33.98% I8341_iberia @ 1.871
4 58.20% ZVEJ26_Latvia_MN1_6201_5926_bc4251_3976_cal + 41.80% BeakerNorthItaly_I2478 @ 1.936
5 58.20% ZVEJ26_Latvia_MN1_6201_5926_bc4251_3976_cal + 41.80% I2478_Beaker_North_Italy_I2478 @ 1.936
6 54.30% Loschbour_Loschbour._Luxembourg_6000_BC + 45.70% N42_Neolithic_Kujawy_Lengyel_BKG @ 2.020
7 84.77% Bichon_Switzerland_11000_y_old_2 + 15.23% sar00665_sar00665 @ 2.200
8 54.30% Spiginas2_Lithuania_2130_1750y_old + 45.70% BeakerNorthItaly_I2478 @ 2.232
9 54.30% Spiginas2_Lithuania_2130_1750y_old + 45.70% I2478_Beaker_North_Italy_I2478 @ 2.232
10 53.52% ZVEJ25_latvia_HG2_narva_7791_7586_BC5841_5636_calB C + 46.48% BeakerNorthItaly_I2478 @ 2.309
Least-squares method.
Using 1 populations approximation
1 100% grt036_Sigtuna_10_12_century @ 3.915
2 100% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 @ 6.926
3 100% RISE98_L_Beddinge_56_Sweden_3736_years_M_R_M405_K1 b1a @ 7.190
4 100% scy009_scythian_Ukraine_768_431bce @ 8.087
5 100% el_Miron @ 8.882
6 100% I0112_BellBeaker @ 10.332
7 100% DA194_Hungary_Scythian @ 10.565
8 100% I0116_Unetice @ 10.574
9 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 11.293
10 100% MigrationPeriod_DA119_Slovakia_3750400_AD @ 11.436
----- START OF POPULATIONS FOR CHROMOSOME 10 -----
Mixed Mode:
1 82.42% RISE371_Szoreg_C_(Sziv_Utca)_Hungary + 17.58% south_asian @ 4.723
2 82.42% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years + 17.58% south_asian @ 4.723
3 90.23% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 9.77% Ma911_Hoabinhian_Ma911 @ 5.242
4 90.23% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 9.77% Ma911_Ma911_M @ 5.242
5 92.58% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 7.42% Kajan @ 5.264
6 89.45% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 10.55% Yak_Bab_Yak_Bab @ 5.271
7 91.02% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.98% Hoabinhian_LA368_Laos_6000_BC @ 5.397
8 91.02% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.98% La368_Hoabinhian_La368 @ 5.398
9 91.80% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.20% Yak_Bab_Yak_Bab @ 5.404
10 90.23% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 9.77% Kajan @ 5.437
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 9.029
2 100% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 @ 9.047
3 100% SZ30_szolad_hungary_longobard @ 10.192
4 100% RISE71_2196_2023_BC_Denmark_203_604 @ 10.262
5 100% SZ15.SG_szolad_hungary_longobard @ 10.276
6 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 10.625
7 100% CL97_collegno_italy_longobard @ 10.729
8 100% CL146_collegno_italy_longobard @ 10.846
9 100% I8206_iberia @ 11.164
10 100% SZ14_szolad_hungary_longobard @ 11.614
----- START OF POPULATIONS FOR CHROMOSOME 11 -----
Mixed Mode:
1 68.36% Ukraine_Ukraine_N1_Vovnigi_6469_6293_BC4519_4343_c al_BC_M_U4 + 31.64% I0410_SpainEN @ 1.025
2 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% I2650_Neolithic_Orkney_5kya @ 1.696
3 53.52% Spiginas2_Lithuania_2130_1750y_old + 46.48% Neolithic_GAC_Farmer_Globular_Amphora_Culture_(GAC )._RISE1168_Koszyce._Southern_Poland @ 1.700
4 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% ATP2_iberia @ 1.776
5 59.77% Spiginas2_Lithuania_2130_1750y_old + 40.23% Ballynahatty_Ireland_3343_3020_BCE @ 1.827
6 62.11% I0017Motala12 + 37.89% I5359_Neolithic_Wales_6kya @ 1.828
7 79.30% I1502_BR1 + 20.70% DA191_Hungary_Scythian_550_BC_550_bc @ 1.842
8 56.64% I0017Motala12 + 43.36% Gökhem2_Sweden_3000_BC @ 1.866
9 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% I0406_SpainMN @ 1.887
10 55.86% Motala012_Östergötland._Sweden_5000_BC + 44.14% Gökhem2_Sweden_3000_BC @ 1.888
Least-squares method.
Using 1 populations approximation
1 100% I1502_BR1 @ 3.468
2 100% BR1_Hungary_Mako_Culture_2100_BC_2100_BC @ 5.740
3 100% scy009_scythian_Ukraine_768_431bce @ 7.036
4 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 7.323
5 100% DA194_Hungary_Scythian @ 7.813
6 100% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 @ 8.690
7 100% RISE479_Erd_4_Hungary_2000_years_M_I_L1228_T2b @ 9.941
8 100% DA191_Hungary_Scythian_550_BC_550_bc @ 11.630
9 100% BR2_Hungary_1200_BC @ 11.796
10 100% grt036_Sigtuna_10_12_century @ 13.600
----- START OF POPULATIONS FOR CHROMOSOME 12 -----
Mixed Mode:
1 53.52% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 46.48% N36_Neolithic_Kujawy_Lengyel_BKG @ 1.670
2 62.11% mur004_srubno_alakulskaya_1888_1697bce + 37.89% NE6_Apc_Berekalja_I_Hungary_4950_5300_cal_BC_M_C_P 255_K1a3a3 @ 1.750
3 51.95% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 + 48.05% scy192_scythian_2863_2503bce @ 1.944
4 54.30% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 45.70% I1497_CO1_Hungary_MN @ 2.100
5 50.39% scy192_scythian_2863_2503bce + 49.61% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 @ 2.102
6 55.08% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 44.92% I1495_NE7_HungaryEN @ 2.189
7 58.20% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 + 41.80% IA_Prenestina_Selicata_R437 @ 2.301
8 55.86% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 44.14% N19_Neolithic_Kujawy_Funnel_Beaker @ 2.322
9 73.05% SZ28_szolad_hungary_longobard + 26.95% RISE555_Stalingard_Quarry_Russia_4082_years_R_CTS6 23_N1a @ 2.347
10 66.02% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 + 33.98% Chalcolithic_Age_Anatolian_Barcinhoyuk._Turkey_394 3_BC @ 2.414
Least-squares method.
Using 1 populations approximation
1 100% DA195_Hungary_Scythian @ 6.875
2 100% SZ45.SG_szolad_hungary_longobard @ 7.913
3 100% SZ5.SG_szolad_hungary_longobard @ 8.745
4 100% DA199_Late_Medieval_Hungary @ 8.913
5 100% SZ18_szolad_hungary_longobard @ 9.830
6 100% CL53_collegno_italy_longobard @ 10.161
7 100% CL49_collegno_italy_longobard @ 10.685
8 100% CL63_collegno_italy_longobard @ 10.991
9 100% scy301_scythian_Moldova_390_205bce @ 11.398
10 100% BR2_Hungary_1200_BC @ 11.635
----- START OF POPULATIONS FOR CHROMOSOME 13 -----
Mixed Mode:
1 75.39% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 24.61% SZ20_szolad_hungary_longobard @ 4.934
2 56.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 43.36% SZ6_szolad_hungary_longobard @ 7.003
3 51.17% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 48.83% SZ8_szolad_hungary_longobard @ 7.095
4 69.14% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 30.86% DA195_Hungary_Scythian @ 7.133
5 50.39% SZ8_szolad_hungary_longobard + 49.61% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 7.133
6 66.02% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 33.98% CL49_collegno_italy_longobard @ 7.255
7 55.86% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 44.14% SZ38_szolad_hungary_longobard @ 7.313
8 57.42% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 42.58% SZ3.SG_szolad_hungary_longobard @ 7.318
9 71.48% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 28.52% SZ1.SG_szolad_hungary_longobard @ 7.319
10 73.83% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 26.17% SZ31_szolad_hungary_longobard @ 7.334
Least-squares method.
Using 1 populations approximation
1 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 16.004
2 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 16.004
3 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 17.114
4 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 18.031
5 100% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 @ 18.097
6 100% grt035_Sigtuna_10-12_century @ 19.610
7 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 19.687
8 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 19.691
9 100% CL146_collegno_italy_longobard @ 20.026
10 100% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 20.204
----- START OF POPULATIONS FOR CHROMOSOME 14 -----
Mixed Mode:
1 53.52% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 46.48% I7426_iberia @ 3.078
2 65.23% SZ14_szolad_hungary_longobard + 34.77% I7426_iberia @ 3.322
3 69.14% CrusaderSI39KingdomofJerusalem + 30.86% I7426_iberia @ 3.329
4 50.39% I7426_iberia + 49.61% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 3.828
5 58.20% RISE71_2196_2023_BC_Denmark_203_604 + 41.80% I7426_iberia @ 3.918
6 58.98% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 + 41.02% I7426_iberia @ 3.971
7 84.77% I4251_Malopolska_Bell_Beaker_R1b_R1b + 15.23% Natufian_merged_M041601 @ 4.014
8 62.89% CL83_collegno_italy_longobard + 37.11% I7426_iberia @ 4.182
9 67.58% CL87_collegno_italy_longobard + 32.42% I7426_iberia @ 4.191
10 62.89% SZ15.SG_szolad_hungary_longobard + 37.11% I7426_iberia @ 4.311
Least-squares method.
Using 1 populations approximation
1 100% SZ23_szolad_hungary_longobard @ 9.996
2 100% SZ5.SG_szolad_hungary_longobard @ 10.801
3 100% CrusaderSI47KingdomofJerusalem @ 10.983
4 100% BR2_Hungary_1200_BC @ 11.324
5 100% DA194_Hungary_Scythian @ 11.347
6 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 11.543
7 100% SZ45.SG_szolad_hungary_longobard @ 11.722
8 100% CL102_collegno_italy_longobard @ 12.076
9 100% SZ18_szolad_hungary_longobard @ 12.804
10 100% CL53_collegno_italy_longobard @ 13.127
----- START OF POPULATIONS FOR CHROMOSOME 15 -----
Mixed Mode:
1 83.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.80% I0124_EHG_I0124_S @ 5.631
2 83.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.80% I0061_OleniyOstrov @ 6.099
3 82.42% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 17.58% DA171_Lithuania_ca_350_650_AD_N1c_350_650_AD_N1c @ 6.185
4 79.30% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 20.70% 0LS03_lowquality @ 6.261
5 81.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 18.36% I1378_Mesolithic_Ukraine_6kya @ 6.368
6 74.61% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 25.39% Ajvide58_Sweden_3000_BC @ 6.426
7 81.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 18.36% I1819_Mesolithic_Ukraine_1st_oldest_R1a_9000_7000_ BCE_M_r1a_U5b2 @ 6.441
8 83.98% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.02% I0124_Samara_EHG @ 6.475
9 80.08% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 19.92% ILS01_lowquality @ 6.519
10 87.11% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 12.89% Vintas(598)_Vintas(598) @ 6.521
Least-squares method.
Using 1 populations approximation
1 100% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 14.955
2 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 16.425
3 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 16.425
4 100% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 @ 16.857
5 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 18.779
6 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 20.848
7 100% CL151_collegno_italy_longobard @ 21.499
8 100% grt035_Sigtuna_10-12_century @ 21.562
9 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 21.879
10 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 21.936
----- START OF POPULATIONS FOR CHROMOSOME 16 -----
Mixed Mode:
1 79.30% I4252_Malopolska_Bell_Beaker_R1b_R1b + 20.70% ANCIENT_SA6001Sharakhalsun6_Steppe_of_Maykop_cultu re_5444 @ 3.814
2 77.73% I4252_Malopolska_Bell_Beaker_R1b_R1b + 22.27% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 3.819
3 77.73% I4252_Malopolska_Bell_Beaker_R1b_R1b + 22.27% AfontovaGora3_AfontovaGora2_merge @ 4.704
4 66.80% I4252_Malopolska_Bell_Beaker_R1b_R1b + 33.20% MJ13_West_Scythian_580_BC @ 4.890
5 72.27% I4252_Malopolska_Bell_Beaker_R1b_R1b + 27.73% Afanasievo_RISE511_Russia_290902468_BC @ 5.096
6 72.27% I4252_Malopolska_Bell_Beaker_R1b_R1b + 27.73% RISE511_Bateni_Russia_4224_years_F_J2a2a @ 5.096
7 71.48% I4252_Malopolska_Bell_Beaker_R1b_R1b + 28.52% Rise511_Afansievo @ 5.108
8 59.77% I4252_Malopolska_Bell_Beaker_R1b_R1b + 40.23% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 @ 5.361
9 73.05% I4252_Malopolska_Bell_Beaker_R1b_R1b + 26.95% Yamnaya_I0231 @ 5.501
10 78.52% I4252_Malopolska_Bell_Beaker_R1b_R1b + 21.48% ANCIENT_PG2004Progress2_Steppe_of_N_Caucasus_6090 @ 5.548
Least-squares method.
Using 1 populations approximation
1 100% CL87_collegno_italy_longobard @ 9.362
2 100% CrusaderSI39KingdomofJerusalem @ 9.769
3 100% RISE436_Tiefbrunn_Germany_4124_years_M_CT_CTS3662_ N @ 9.846
4 100% CL83_collegno_italy_longobard @ 10.207
5 100% SZ24_szolad_hungary_longobard @ 10.287
6 100% SZ7_szolad_hungary_longobard @ 10.378
7 100% SZ23_szolad_hungary_longobard @ 10.537
8 100% I8206_iberia @ 11.187
9 100% SZ14_szolad_hungary_longobard @ 11.300
10 100% SZ12_szolad_hungary_longobard @ 11.314
----- START OF POPULATIONS FOR CHROMOSOME 17 -----
Mixed Mode:
1 84.77% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 15.23% Ma’lta_South_Central0Siberia_22.000_BC @ 3.733
2 66.80% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 33.20% Vestonice16_cze @ 4.397
3 84.77% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 15.23% Botai_CA_Yamnaya @ 4.509
4 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% GoyetQ116_1 @ 4.767
5 62.11% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 37.89% el_Miron @ 5.184
6 85.55% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 14.45% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 5.197
7 50.39% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 49.61% I8206_iberia @ 5.251
8 50.39% I8206_iberia + 49.61% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 5.256
9 91.02% RISE562_Landau_an_der_Isar_Germany_F_H2a1e + 8.98% Ust_Ishim_Siberia_45000_years_M_K_M526_R @ 5.340
10 76.17% RISE371_Szoreg_C_(Sziv_Utca)_Hungary + 23.83% GoyetQ116_1 @ 5.359
Least-squares method.
Using 1 populations approximation
1 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 7.704
2 100% I0462_beaker_iberia_I0462 @ 9.698
3 100% grt035_Sigtuna_10-12_century @ 9.967
4 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 10.010
5 100% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 @ 10.586
6 100% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 @ 10.684
7 100% RISE71_2196_2023_BC_Denmark_203_604 @ 10.733
8 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 11.053
9 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 11.053
10 100% CL146_collegno_italy_longobard @ 11.264
----- START OF POPULATIONS FOR CHROMOSOME 18 -----
Mixed Mode:
1 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Yoruba00920_Africa @ 3.350
2 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mandenka_Mandenka_I @ 3.363
3 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Denisova_Cave_Siberia_30000_years_F @ 3.373
4 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Biaka00448_Africa @ 3.376
5 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mbuti00449_Africa @ 3.399
6 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mezmaiskaya_Neanderthal_Mezmaiskaya_Neanderthal_F @ 3.407
7 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Kajan @ 3.447
8 98.05% SZ3.SG_szolad_hungary_longobard + 1.95% Hoabinhian_LA368_Laos_6000_BC @ 3.468
9 98.05% SZ3.SG_szolad_hungary_longobard + 1.95% La368_Hoabinhian_La368 @ 3.468
10 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Yak_Bab_Yak_Bab @ 3.487
Least-squares method.
Using 1 populations approximation
1 100% SZ3.SG_szolad_hungary_longobard @ 3.660
2 100% SZ8_szolad_hungary_longobard @ 8.304
3 100% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV @ 9.037
4 100% SZ38_szolad_hungary_longobard @ 9.121
5 100% SZ24_szolad_hungary_longobard @ 9.490
6 100% CL102_collegno_italy_longobard @ 10.326
7 100% CL47_collegno_italy_longobard @ 11.191
8 100% I8206_iberia @ 11.444
9 100% CL87_collegno_italy_longobard @ 11.538
10 100% CL63_collegno_italy_longobard @ 12.063
----- START OF POPULATIONS FOR CHROMOSOME 19 -----
Mixed Mode:
1 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% Gokhem7_Sweden_5000_years_F_H @ 2.323
2 63.67% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 36.33% I1388_Beaker_South_France_I1388 @ 2.511
3 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% SpaintheChalcolithic_I1300_Spain @ 2.549
4 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% I0408_SpainMN @ 2.815
5 72.27% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 27.73% I0460_beaker_iberia_I0460 @ 2.823
6 74.61% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 25.39% Neolithic_sample_from_Ireland_Carrowmore_004 @ 3.351
7 76.95% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.05% Sima_del_Angel._LU339_Spain_4889_BC @ 3.383
8 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% I0459_23andMeV3_beaker_iberia @ 3.515
9 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% I2932_Neolithic_Orkney_4kya @ 3.589
10 73.83% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.17% ATP2_iberia @ 3.593
Least-squares method.
Using 1 populations approximation
1 100% I2478_Beaker_North_Italy_I2478 @ 7.974
2 100% BeakerNorthItaly_I2478 @ 7.974
3 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 12.446
4 100% I0462_beaker_iberia_I0462 @ 14.583
5 100% I3758_Celtiberian_U @ 16.632
6 100% I8474_iberia @ 16.980
7 100% I3757_Celtiberian_I3757_Celtiberian_U @ 17.309
8 100% I3759_Celtiberian_I3759_Celtiberian_m @ 17.412
9 100% I8203_iberia @ 17.943
10 100% I4252_Malopolska_Bell_Beaker_R1b_R1b @ 19.695
----- START OF POPULATIONS FOR CHROMOSOME 20 -----
Mixed Mode:
1 80.08% Kivutkalns164_Ancient_Inflanty + 19.92% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3 @ 4.846
2 80.86% Kivutkalns164_Ancient_Inflanty + 19.14% i2051_Dolmen_1410_1210_BC_M_J2a_H6a1a2a @ 5.501
3 73.83% Kivutkalns164_Ancient_Inflanty + 26.17% RISE407_Norabak_Armenia_2827_years_CT_M5805_H8a @ 5.677
4 73.83% Kivutkalns164_Ancient_Inflanty + 26.17% RISE407_Armenian_LBA @ 5.699
5 76.17% Kivutkalns209_Ancient_Inflanty_R1a_R1a + 23.83% i1722_Unakozovskaya_Eneolithic_Caucasus_6403_F_R1a @ 5.720
6 81.64% Kivutkalns164_Ancient_Inflanty + 18.36% i1722_Unakozovskaya_Eneolithic_Caucasus_6403_F_R1a @ 5.785
7 81.64% Kivutkalns164_Ancient_Inflanty + 18.36% i6268_Klady_Maykop_culture_5564_M_R1a_j2a1 @ 5.872
8 74.61% Kivutkalns164_Ancient_Inflanty + 25.39% iv3002_maykop_step_outlier_ipatovo_T @ 5.912
9 76.95% Kivutkalns164_Ancient_Inflanty + 23.05% Sigauri_Sigauri._Melkhiy_(Chechen_Republic) @ 5.939
10 76.17% Kivutkalns209_Ancient_Inflanty_R1a_R1a + 23.83% i2051_Dolmen_1410_1210_BC_M_J2a_H6a1a2a @ 5.955
Least-squares method.
Using 1 populations approximation
1 100% RISE555_Stalingard_Quarry_Russia_4082_years_R_CTS6 23_N1a @ 15.689
2 100% DA29_European_in_Kazakhstan_1300_AD_700 @ 15.992
3 100% Kivutkalns164_Ancient_Inflanty @ 17.803
4 100% IIIt_lowquality @ 17.929
5 100% RISE511_Bateni_Russia_4224_years_F_J2a2a @ 19.874
6 100% Afanasievo_RISE511_Russia_290902468_BC @ 19.874
7 100% MJ13_West_Scythian_580_BC @ 20.755
8 100% SA6003_ANCIENT_Sharakhalsun6_Catacomb_culture_4292 @ 20.756
9 100% ZO2002_Zolotarevka_2_Yamnaya_Caucasus_4850_U5a1 @ 21.077
10 100% RISE548_Temrta_IV_Russia_2000_years_M_R_L23_U4 @ 21.158
----- START OF POPULATIONS FOR CHROMOSOME 21 -----
Mixed Mode:
1 74.61% CrusaderSI47KingdomofJerusalem + 25.39% I7426_iberia @ 3.608
2 59.77% MJ13_West_Scythian_580_BC + 40.23% I0459_23andMeV3_beaker_iberia @ 3.654
3 58.98% MJ13_West_Scythian_580_BC + 41.02% I2405_Neolithic_Paluki_GAC_culture_I2a_I2a @ 3.934
4 55.08% MJ13_West_Scythian_580_BC + 44.92% I2403_Neolithic_Paluki_GAC_culture_I2a_I2a @ 4.082
5 65.23% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 + 34.77% I7426_iberia @ 4.366
6 63.67% MJ13_West_Scythian_580_BC + 36.33% SpaintheChalcolithic_I1300_Spain @ 4.756
7 60.55% MJ13_West_Scythian_580_BC + 39.45% I2932_Neolithic_Orkney_4kya @ 4.853
8 61.33% MJ13_West_Scythian_580_BC + 38.67% I0460_beaker_iberia_I0460 @ 4.875
9 81.64% I4251_Malopolska_Bell_Beaker_R1b_R1b + 18.36% SZ35_szolad_hungary_longobard @ 4.912
10 62.89% MJ13_West_Scythian_580_BC + 37.11% I0408_SpainMN @ 5.035
Least-squares method.
Using 1 populations approximation
1 100% CrusaderSI47KingdomofJerusalem @ 10.481
2 100% SZ23_szolad_hungary_longobard @ 11.753
3 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 11.799
4 100% SZ5.SG_szolad_hungary_longobard @ 12.053
5 100% DA194_Hungary_Scythian @ 12.521
6 100% SZ45.SG_szolad_hungary_longobard @ 12.617
7 100% BR2_Hungary_1200_BC @ 12.853
8 100% DA199_Late_Medieval_Hungary @ 13.126
9 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 13.965
10 100% CL102_collegno_italy_longobard @ 14.155
----- START OF POPULATIONS FOR CHROMOSOME 22 -----
Mixed Mode:
1 69.14% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 30.86% SZ20_szolad_hungary_longobard @ 7.689
2 84.77% RISE174_Oxie_7_Sweden_1521_years_W1 + 15.23% copt315_copt315 @ 8.857
3 83.98% RISE00_Sope_Estonia_2000_years_F_H5a1 + 16.02% copt315_copt315 @ 9.318
4 83.98% RISE00_Corded_Estonia_RISE00_Corded_Estonia + 16.02% copt315_copt315 @ 9.318
5 75.39% kzb001_kzb001_srubno-alakulskaya_F_U4b1a1a1_1742-1546BCE + 24.61% SZ20_szolad_hungary_longobard @ 9.553
6 57.42% RISE446_Bergrheinfeld_Germany_4015_years_M_R_M207_ U5b1c2 + 42.58% SZ6_szolad_hungary_longobard @ 9.620
7 89.45% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 10.55% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 9.623
8 84.77% kzb001_kzb001_srubno-alakulskaya_F_U4b1a1a1_1742-1546BCE + 15.23% copt315_copt315 @ 9.646
9 83.20% stg026_Sigtuna + 16.80% copt315_copt315 @ 9.661
10 54.30% Bichon_Switzerland_11000_y_old_2 + 45.70% SZ6_szolad_hungary_longobard @ 9.739
Least-squares method.
Using 1 populations approximation
1 100% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a @ 10.811
2 100% SZ38_szolad_hungary_longobard @ 14.279
3 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 14.656
4 100% SZ2.SG_szolad_hungary_longobard @ 15.128
5 100% SZ12_szolad_hungary_longobard @ 15.153
6 100% CL92_collegno_italy_longobard @ 15.271
7 100% CL145_collegno_italy_longobard @ 15.557
8 100% 84001_Sigtuna_10_12_century @ 15.632
9 100% SZ7_szolad_hungary_longobard @ 15.649
10 100% SZ30_szolad_hungary_longobard @ 15.650
--- nMonte for chromosome 1 ---
24.60% CrusaderSI47KingdomofJerusalem <---DEUS VULT!
22.80% I4252_Malopolska_Bell_Beaker_R1b_R1b
19.20% UneticeBellBeaker_RISE577_Poland_250001900_BC
17.40% CL83_collegno_italy_longobard
14.20% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1
00.60% Bot15_Rio_Doce._Minas_Gerais._Brazil
00.40% CrusaderSI39KingdomofJerusalem
00.20% CL87_collegno_italy_longobard
00.20% DA43_XiongNu_160_130_BC
00.20% Jomon_IK002
00.20% Nurbai_Nurbai
--- nMonte for chromosome 2 ---
28.80% SZ3.SG_szolad_hungary_longobard
23.60% nuf002_Sigtuna_10_12_century_M_t1a1j
21.00% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV
12.80% I4252_Malopolska_Bell_Beaker_R1b_R1b
07.00% SZ8_szolad_hungary_longobard
03.80% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5
02.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
00.20% SZ6_szolad_hungary_longobard
--- nMonte for chromosome 3 ---
37.00% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
24.40% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R
17.00% I4252_Malopolska_Bell_Beaker_R1b_R1b
14.20% SZ8_szolad_hungary_longobard
02.40% kls001_Sigtuna_10_12_century_M_R1_h1b1
02.40% SZ6_szolad_hungary_longobard
01.40% SZ3.SG_szolad_hungary_longobard
00.60% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5
00.40% Atacama
00.20% Karitiana_Male_II_Karitiana_Male_II
--- nMonte for chromosome 4 ---
37.00% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
25.00% stg026_Sigtuna
24.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
06.20% SZ6_szolad_hungary_longobard
03.40% kls001_Sigtuna_10_12_century_M_R1_h1b1
02.60% Glz_Bai_Glz_Bai
00.80% australian
00.20% SZ3.SG_szolad_hungary_longobard
--- nMonte for chromosome 5 ---
37.60% kls001_Sigtuna_10_12_century_M_R1_h1b1
29.20% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
13.20% SZ6_szolad_hungary_longobard
08.60% SZ8_szolad_hungary_longobard
03.60% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
03.40% australian
02.20% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years
02.20% RISE371_Szoreg_C_(Sziv_Utca)_Hungary
--- nMonte for chromosome 6 ---
68.60% I4251_Malopolska_Bell_Beaker_R1b_R1b
07.00% N17_Ancient_Kujawy_Iwno_Culture_R1a_r1a
05.80% Vestonice16_cze
04.00% Ma’lta_South_Central0Siberia_22.000_BC
03.40% Vintas(598)_Vintas(598)
03.20% scy009_scythian_Ukraine_768_431bce
02.40% I4252_Malopolska_Bell_Beaker_R1b_R1b
01.40% GoyetQ116_1
01.20% MJ31_Early_Kimmerian_R1a
01.00% Natufian_merged_M041601
00.80% MJ13_West_Scythian_580_BC
00.60% RISE505_Kytmanovo_Russia_3391_years_U4a1b
00.40% Gyvakarai1_Lithuania_2620_2470_y_old
00.20% Andronovo_RISE505_Russia
--- nMonte for chromosome 7 ---
59.60% CL97_collegno_italy_longobard
19.40% Polish_Bell_Beaker_I4253_Samborzec._Poland_2571022 08_BC
05.80% SZ31_szolad_hungary_longobard
05.60% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b
03.40% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
02.80% W-Usin_W-Usin_F_C4b
01.60% RISE423_Armenian_MBA
01.20% Ulchi-Nizhniy_Gavan_Ulchi-Nizhniy_Gavan
00.40% Mos4_Devil_s_Gate
00.20% M4_Borum_Eshoj_Denmark_LOW_QUALITY_1350_BC_M_B2
--- nMonte for chromosome 8 ---
26.80% BeakerNorthItaly_I2478
21.60% I2478_Beaker_North_Italy_I2478
20.20% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3
19.20% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1
04.60% I8203_iberia
03.40% LateNeolithicBronzeAgeLaos_LA364_11210930_BC
01.80% I0462_beaker_iberia_I0462
01.00% Bot15_Rio_Doce._Minas_Gerais._Brazil
00.80% Ma911_Hoabinhian_Ma911
00.40% Ma911_Ma911_M
00.20% I6581_Silesia_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 9 ---
72.00% grt036_Sigtuna_10_12_century
14.20% RISE479_Erd_4_Hungary_2000_years_M_I_L1228_T2b
08.60% RISE145_Wielkopolska_Unetice
03.40% el_Miron
01.20% Hallstatt_Celt_DA112_Bylany_Czechia
00.40% Karitiana_Male_II_Karitiana_Male_II
00.20% HDGP01054_Pima_Female_HDGP01054
--- nMonte for chromosome 10 ---
64.80% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b
14.40% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
09.60% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1
04.80% Kajan
03.20% australian
02.00% I8206_iberia
00.80% Yak_Bab_Yak_Bab
00.40% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1
--- nMonte for chromosome 11 ---
78.00% I1502_BR1
11.20% DA191_Hungary_Scythian_550_BC_550_bc
04.80% Hallstatt_Celt_DA112_Bylany_Czechia
02.20% scy009_scythian_Ukraine_768_431bce
01.00% I0124_EHG_I0124_S
01.00% Ma’lta_South_Central0Siberia_22.000_BC
00.80% Yoruba00920_Africa
00.40% Ajvide58_Sweden_3000_BC
00.20% el_Miron
00.20% Khvalynsk_EHG_merged_I0122_I0124_I0433
00.20% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
--- nMonte for chromosome 12 ---
45.40% DA195_Hungary_Scythian
25.00% BR1_Hungary_Mako_Culture_2100_BC_2100_BC
19.80% scy301_scythian_Moldova_390_205bce
02.80% SZ28_szolad_hungary_longobard
02.80% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3
02.00% DA199_Late_Medieval_Hungary
01.40% sar00665_sar00665
00.80% MJ12_Thraco_Kimmerian
--- nMonte for chromosome 13 ---
59.60% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
21.40% SZ6_szolad_hungary_longobard
10.00% SZ20_szolad_hungary_longobard
08.20% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
00.60% SZ31_szolad_hungary_longobard
00.20% SZ8_szolad_hungary_longobard
--- nMonte for chromosome 14 ---
44.00% SZ23_szolad_hungary_longobard
23.80% I7426_iberia
16.20% I4252_Malopolska_Bell_Beaker_R1b_R1b
06.20% IR1_Ludas_Varju_dulo_Hungary_830_980_cal_BC_M_N_M2 31_G2a1
05.60% Vestonice16_cze
04.20% I4251_Malopolska_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 15 ---
60.60% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
29.80% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
05.00% Bichon_Switzerland_11000_y_old_2
01.00% I4252_Malopolska_Bell_Beaker_R1b_R1b
01.00% Kajan
01.00% MARC1492_Ancient_Mi_kmaq_1492
00.80% La368_Hoabinhian_La368
00.40% Loschbour_Loschbour._Luxembourg_6000_BC
00.20% Hoabinhian_LA368_Laos_6000_BC
00.20% Karitiana_Male_II_Karitiana_Male_II
--- nMonte for chromosome 16 ---
36.60% RISE436_Tiefbrunn_Germany_4124_years_M_CT_CTS3662_ N
35.60% I4252_Malopolska_Bell_Beaker_R1b_R1b
08.00% I4251_Malopolska_Bell_Beaker_R1b_R1b
06.60% Vintas(598)_Vintas(598)
04.40% M4_Borum_Eshoj_Denmark_LOW_QUALITY_1350_BC_M_B2
04.20% Atacama
02.60% DA194_Hungary_Scythian
01.20% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R
00.60% SZ23_szolad_hungary_longobard
00.20% CrusaderSI47KingdomofJerusalem
--- nMonte for chromosome 17 ---
47.60% RISE562_Landau_an_der_Isar_Germany_F_H2a1e
32.00% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
09.00% I0462_beaker_iberia_I0462
07.40% GoyetQ116_1
01.40% LateNeolithicBronzeAgeLaos_LA364_11210930_BC
01.00% Hoabinhian_LA368_Laos_6000_BC
01.00% NA39_Laguna_de_los_Condores_Peru_1000_1500_AD_M_B2
00.20% Kajan
00.20% nuf002_Sigtuna_10_12_century_M_t1a1j
00.20% Ust_Ishim_Siberia_45000_years_M_K_M526_R
--- nMonte for chromosome 18 ---
85.80% SZ3.SG_szolad_hungary_longobard
05.40% SZ6_szolad_hungary_longobard
04.60% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV
01.00% Kajan
01.00% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years
00.60% Yoruba00920_Africa
00.40% DA191_Hungary_Scythian_550_BC_550_bc
00.40% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
00.40% RISE371_Szoreg_C_(Sziv_Utca)_Hungary
00.20% Mbuti00449_Africa
00.20% SZ20_szolad_hungary_longobard
--- nMonte for chromosome 19 ---
59.40% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
30.20% I1388_Beaker_South_France_I1388
05.40% I2478_Beaker_North_Italy_I2478
04.80% BeakerNorthItaly_I2478
00.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
--- nMonte for chromosome 20 ---
50.20% Kivutkalns164_Ancient_Inflanty
22.00% ANCIENT_PG2004Progress2_Steppe_of_N_Caucasus_6090
12.60% ZO2002_Zolotarevka_2_Yamnaya_Caucasus_4850_U5a1
06.20% DA29_European_in_Kazakhstan_1300_AD_700
05.20% Vintas(598)_Vintas(598)
03.80% sar00665_sar00665
--- nMonte for chromosome 21 ---
64.20% CrusaderSI47KingdomofJerusalem
22.20% I7426_iberia
06.20% SZ23_szolad_hungary_longobard
02.80% Atacama
02.40% MJ13_West_Scythian_580_BC
01.60% IR1_Ludas_Varju_dulo_Hungary_830_980_cal_BC_M_N_M2 31_G2a1
00.40% DA194_Hungary_Scythian
00.20% I4251_Malopolska_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 22 ---
53.40% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
17.00% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
14.00% SZ20_szolad_hungary_longobard
13.40% Bichon_Switzerland_11000_y_old_2
01.60% Mota1_Africa
00.60% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
Using single population
----- START OF POPULATIONS FOR CHROMOSOME 1 -----
Mixed Mode:
1 92.58% CL83_collegno_italy_longobard + 7.42% sar00665_sar00665 @ 2.135
2 63.67% CL93_collegno_italy_longobard + 36.33% I8474_iberia @ 2.287
3 50.39% I0164_Unetice + 49.61% I8474_iberia @ 2.288
4 50.39% I8474_iberia + 49.61% I0164_Unetice @ 2.297
5 69.14% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 + 30.86% I4252_Malopolska_Bell_Beaker_R1b_R1b @ 2.413
6 55.86% I8474_iberia + 44.14% Andronovo_RISE503_Russia_174601298_BC @ 2.506
7 57.42% RISE150_Przeclawice_Poland_3469_years_U5a1b1 + 42.58% I8474_iberia @ 2.564
8 90.23% CL83_collegno_italy_longobard + 9.77% I0410_SpainEN @ 2.632
9 53.52% I8474_iberia + 46.48% RISE386_Bulanovo_Russia_3775_years_M_R_P231_J1c1b1 a @ 2.685
10 53.52% I8474_iberia + 46.48% Sintashta_RISE386_Russia_229801754_BC @ 2.697
Least-squares method.
Using 1 populations approximation
1 100% CL87_collegno_italy_longobard @ 5.118
2 100% UneticeBellBeaker_RISE577_Poland_250001900_BC @ 5.518
3 100% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 @ 6.136
4 100% CrusaderSI39KingdomofJerusalem @ 7.029
5 100% CL83_collegno_italy_longobard @ 7.103
6 100% I8206_iberia @ 7.465
7 100% SZ14_szolad_hungary_longobard @ 8.018
8 100% CL102_collegno_italy_longobard @ 8.508
9 100% CL84_collegno_italy_longobard @ 8.727
10 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 8.850
----- START OF POPULATIONS FOR CHROMOSOME 2 -----
Mixed Mode:
1 55.86% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 44.14% IA_Civitavecchia_R473 @ 1.326
2 73.05% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 26.95% Anatolian_Hunter_Gatherer_Turkey_13642013073_BC @ 1.596
3 73.83% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 26.17% LBK_Stuttgart._Germany @ 1.642
4 75.39% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 24.61% SZ19_szolad_hungary_longobard @ 1.696
5 75.39% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 24.61% I1496_NE6_HungaryEN @ 1.750
6 80.08% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 19.92% I8215_iberia @ 1.771
7 81.64% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 18.36% Tep002_Tepecik_Ciftlik_level_5_c_6500_BCE_8500_BP @ 1.873
8 81.64% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 18.36% Tepecik002_Tepecik002 @ 1.873
9 66.02% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 33.98% I7498_Muslim_Iberian_1000_1100_CE_E1b1b1a1b1a_H3a1 @ 2.004
10 71.48% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 28.52% N28_Neolithic_Kujawy_Lengyel_BKG @ 2.034
Least-squares method.
Using 1 populations approximation
1 100% SZ3.SG_szolad_hungary_longobard @ 6.874
2 100% CL87_collegno_italy_longobard @ 6.956
3 100% SZ8_szolad_hungary_longobard @ 7.529
4 100% SZ24_szolad_hungary_longobard @ 9.063
5 100% CL102_collegno_italy_longobard @ 9.391
6 100% SZ38_szolad_hungary_longobard @ 9.417
7 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 9.441
8 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 9.632
9 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 9.644
10 100% I8206_iberia @ 9.931
----- START OF POPULATIONS FOR CHROMOSOME 3 -----
Mixed Mode:
1 87.11% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 12.89% SZ35_szolad_hungary_longobard @ 1.630
2 83.98% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 16.02% I3808_morisco_I3808_morisco @ 1.897
3 82.42% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 17.58% I7499_Muslim_Iberian_1000_1100_CE2 @ 2.017
4 83.98% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 16.02% I3808_iberia @ 2.092
5 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% LevantPPNB_I0867_Israel_730006750 @ 2.115
6 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% I0867_LevantN @ 2.172
7 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% i1183_peqi_in_Israel_4500_3900_BCE @ 2.203
8 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% LevantBA_M291439 @ 2.237
9 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% Sidon_BA_ERS1790731 @ 2.242
10 89.45% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 + 10.55% i1152_peqi_in_Israel_4500_3900_BCE @ 2.281
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 5.636
2 100% CL87_collegno_italy_longobard @ 5.964
3 100% CL84_collegno_italy_longobard @ 6.242
4 100% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R @ 6.383
5 100% CL83_collegno_italy_longobard @ 7.213
6 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 7.365
7 100% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 7.461
8 100% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 8.026
9 100% SZ24_szolad_hungary_longobard @ 8.314
10 100% SZ7_szolad_hungary_longobard @ 8.482
----- START OF POPULATIONS FOR CHROMOSOME 4 -----
Mixed Mode:
1 52.73% SZ3.SG_szolad_hungary_longobard + 47.27% Bichon_Switzerland_11000_y_old @ 4.122
2 50.39% Bichon_Switzerland_11000_y_old + 49.61% SZ3.SG_szolad_hungary_longobard @ 4.244
3 52.73% SZ3.SG_szolad_hungary_longobard + 47.27% I2158_Late_Upper_Paleolithic_Sicilian_hunter_gathe rer @ 4.263
4 58.98% SZ8_szolad_hungary_longobard + 41.02% Ajvide58_Sweden_3000_BC @ 4.377
5 50.39% I2158_Late_Upper_Paleolithic_Sicilian_hunter_gathe rer + 49.61% SZ3.SG_szolad_hungary_longobard @ 4.385
6 57.42% SZ3.SG_szolad_hungary_longobard + 42.58% Bichon_Switzerland_11000_y_old_2 @ 4.406
7 69.92% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 30.08% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 @ 4.419
8 62.11% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 37.89% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 4.446
9 65.23% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 34.77% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 4.467
10 83.98% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 16.02% RISE502_Bystrovka_Russia_3140_years_F_U5a1d @ 4.498
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 6.793
2 100% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a @ 6.917
3 100% SZ41_szolad_hungary_longobard @ 7.501
4 100% CL92_collegno_italy_longobard @ 8.123
5 100% SZ7_szolad_hungary_longobard @ 8.313
6 100% SZ9_szolad_hungary_longobard @ 9.192
7 100% SZ12_szolad_hungary_longobard @ 9.194
8 100% SZ16_szolad_hungary_longobard @ 9.319
9 100% CL84_collegno_italy_longobard @ 9.549
10 100% 84001_Sigtuna_10_12_century @ 9.665
----- START OF POPULATIONS FOR CHROMOSOME 5 -----
Mixed Mode:
1 64.45% scy303_scythian_Moldova_380_203bce + 35.55% SZ6_szolad_hungary_longobard @ 4.077
2 71.48% kls001_Sigtuna_10_12_century_M_R1_h1b1 + 28.52% SZ6_szolad_hungary_longobard @ 4.252
3 69.14% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 + 30.86% SZ6_szolad_hungary_longobard @ 4.465
4 66.02% SZ41_szolad_hungary_longobard + 33.98% SZ6_szolad_hungary_longobard @ 4.507
5 81.64% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 18.36% SZ6_szolad_hungary_longobard @ 4.630
6 71.48% Hallstatt_Celt_DA112_Bylany_Czechia + 28.52% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 4.759
7 95.70% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 4.30% australian @ 4.786
8 51.95% kls001_Sigtuna_10_12_century_M_R1_h1b1 + 48.05% SZ8_szolad_hungary_longobard @ 4.876
9 50.39% SZ8_szolad_hungary_longobard + 49.61% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 4.885
10 66.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 + 33.20% SZ8_szolad_hungary_longobard @ 4.984
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 6.178
2 100% CL84_collegno_italy_longobard @ 8.177
3 100% kls001_Sigtuna_10_12_century_M_R1_h1b1 @ 8.402
4 100% SZ8_szolad_hungary_longobard @ 8.800
5 100% CL87_collegno_italy_longobard @ 8.967
6 100% SZ24_szolad_hungary_longobard @ 9.017
7 100% SZ30_szolad_hungary_longobard @ 9.082
8 100% RISE175_Abekas_I_Sweden_3025_years_M_F_M235_T1a1 @ 9.115
9 100% CL146_collegno_italy_longobard @ 9.225
10 100% SZ12_szolad_hungary_longobard @ 9.300
----- START OF POPULATIONS FOR CHROMOSOME 6 -----
Mixed Mode:
1 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% Ma’lta_South_Central0Siberia_22.000_BC @ 3.738
2 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 4.252
3 87.89% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.11% AfontovaGora3_AfontovaGora2_merge @ 4.323
4 78.52% I4251_Malopolska_Bell_Beaker_R1b_R1b + 21.48% MJ13_West_Scythian_580_BC @ 4.372
5 87.11% I4251_Malopolska_Bell_Beaker_R1b_R1b + 12.89% I0124_EHG_I0124_S @ 4.385
6 58.98% RISE505_Kytmanovo_Russia_3391_years_U4a1b + 41.02% I8341_iberia @ 4.391
7 58.98% Andronovo_RISE505_Russia + 41.02% I8341_iberia @ 4.391
8 81.64% CrusaderSI39KingdomofJerusalem + 18.36% Vintas(598)_Vintas(598) @ 4.445
9 74.61% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R + 25.39% ANCIENT_SA6001Sharakhalsun6_Steppe_of_Maykop_cultu re_5444 @ 4.490
10 88.67% I4251_Malopolska_Bell_Beaker_R1b_R1b + 11.33% Botai_CA_Yamnaya @ 4.545
Least-squares method.
Using 1 populations approximation
1 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 7.366
2 100% DA194_Hungary_Scythian @ 9.590
3 100% Albertsdedt_Germany_LN_M107790 @ 9.893
4 100% SZ23_szolad_hungary_longobard @ 10.527
5 100% CrusaderSI47KingdomofJerusalem @ 11.088
6 100% MigrationPeriod_DA119_Slovakia_3750400_AD @ 11.361
7 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 11.928
8 100% sz22_Longobard @ 12.035
9 100% SZ25_szolad_hungary_longobard @ 12.586
10 100% SZ42_szolad_hungary_longobard @ 12.673
----- START OF POPULATIONS FOR CHROMOSOME 7 -----
Mixed Mode:
1 76.17% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 23.83% Crimean_Nogay @ 3.332
2 80.86% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 19.14% Crimean_Nogay @ 3.475
3 91.02% CL97_collegno_italy_longobard + 8.98% i1632_areni_merged @ 3.527
4 93.36% CL97_collegno_italy_longobard + 6.64% I1658_ArmeniaEBA @ 3.559
5 93.36% CL97_collegno_italy_longobard + 6.64% Kura_Araxes @ 3.559
6 94.14% CL97_collegno_italy_longobard + 5.86% i1662_iranchl @ 3.590
7 94.14% CL97_collegno_italy_longobard + 5.86% i1674_iranchl @ 3.592
8 94.14% CL97_collegno_italy_longobard + 5.86% I1665_IRAN_CHL_I1665 @ 3.620
9 91.02% CL97_collegno_italy_longobard + 8.98% RISE423_Armenian_MBA @ 3.684
10 91.02% CL97_collegno_italy_longobard + 8.98% CL38_collegno_italy_longobard @ 3.704
Least-squares method.
Using 1 populations approximation
1 100% CL97_collegno_italy_longobard @ 5.881
2 100% Polish_Bell_Beaker_I4253_Samborzec._Poland_2571022 08_BC @ 7.655
3 100% SZ14_szolad_hungary_longobard @ 7.798
4 100% SZ30_szolad_hungary_longobard @ 8.020
5 100% CrusaderSI39KingdomofJerusalem @ 9.231
6 100% SZ15.SG_szolad_hungary_longobard @ 9.661
7 100% SZ12_szolad_hungary_longobard @ 9.883
8 100% sz22_Longobard @ 10.031
9 100% SZ11.SG_szolad_hungary_longobard @ 10.711
10 100% CL93_collegno_italy_longobard @ 10.788
----- START OF POPULATIONS FOR CHROMOSOME 8 -----
Mixed Mode:
1 83.20% BeakerNorthItaly_I2478 + 16.80% Kotias_CHG @ 5.917
2 83.20% I2478_Beaker_North_Italy_I2478 + 16.80% Kotias_CHG @ 5.917
3 58.98% I1388_Beaker_South_France_I1388 + 41.02% DA145_Ancient_Sarmatian_R @ 6.219
4 83.98% BeakerNorthItaly_I2478 + 16.02% SATP_SATP_extract23+BAK_merged @ 6.223
5 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% SATP_SATP_extract23+BAK_merged @ 6.223
6 83.98% BeakerNorthItaly_I2478 + 16.02% Kotias2_5700_BC @ 6.237
7 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% Kotias2_5700_BC @ 6.237
8 83.98% BeakerNorthItaly_I2478 + 16.02% kk1_Kotias_7500_7900_BC_M_J2a_H13c @ 6.277
9 83.98% I2478_Beaker_North_Italy_I2478 + 16.02% kk1_Kotias_7500_7900_BC_M_J2a_H13c @ 6.277
10 83.98% BeakerNorthItaly_I2478 + 16.02% Kotias @ 6.285
Least-squares method.
Using 1 populations approximation
1 100% I6581_Silesia_Bell_Beaker_R1b_R1b @ 12.959
2 100% I6582_Silesia_Bell_Beaker @ 13.326
3 100% I8203_iberia @ 13.635
4 100% I8474_iberia @ 15.639
5 100% CrusaderSI47KingdomofJerusalem @ 15.801
6 100% I3759_Celtiberian_I3759_Celtiberian_m @ 15.842
7 100% CL94_collegno_italy_longobard @ 15.889
8 100% I3757_Celtiberian_I3757_Celtiberian_U @ 16.508
9 100% CL102_collegno_italy_longobard @ 16.538
10 100% I3758_Celtiberian_U @ 16.721
----- START OF POPULATIONS FOR CHROMOSOME 9 -----
Mixed Mode:
1 57.42% I0017Motala12 + 42.58% BeakerNorthItaly_I2478 @ 1.825
2 57.42% I0017Motala12 + 42.58% I2478_Beaker_North_Italy_I2478 @ 1.825
3 66.02% Loschbour_Loschbour._Luxembourg_6000_BC + 33.98% I8341_iberia @ 1.871
4 58.20% ZVEJ26_Latvia_MN1_6201_5926_bc4251_3976_cal + 41.80% BeakerNorthItaly_I2478 @ 1.936
5 58.20% ZVEJ26_Latvia_MN1_6201_5926_bc4251_3976_cal + 41.80% I2478_Beaker_North_Italy_I2478 @ 1.936
6 54.30% Loschbour_Loschbour._Luxembourg_6000_BC + 45.70% N42_Neolithic_Kujawy_Lengyel_BKG @ 2.020
7 84.77% Bichon_Switzerland_11000_y_old_2 + 15.23% sar00665_sar00665 @ 2.200
8 54.30% Spiginas2_Lithuania_2130_1750y_old + 45.70% BeakerNorthItaly_I2478 @ 2.232
9 54.30% Spiginas2_Lithuania_2130_1750y_old + 45.70% I2478_Beaker_North_Italy_I2478 @ 2.232
10 53.52% ZVEJ25_latvia_HG2_narva_7791_7586_BC5841_5636_calB C + 46.48% BeakerNorthItaly_I2478 @ 2.309
Least-squares method.
Using 1 populations approximation
1 100% grt036_Sigtuna_10_12_century @ 3.915
2 100% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 @ 6.926
3 100% RISE98_L_Beddinge_56_Sweden_3736_years_M_R_M405_K1 b1a @ 7.190
4 100% scy009_scythian_Ukraine_768_431bce @ 8.087
5 100% el_Miron @ 8.882
6 100% I0112_BellBeaker @ 10.332
7 100% DA194_Hungary_Scythian @ 10.565
8 100% I0116_Unetice @ 10.574
9 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 11.293
10 100% MigrationPeriod_DA119_Slovakia_3750400_AD @ 11.436
----- START OF POPULATIONS FOR CHROMOSOME 10 -----
Mixed Mode:
1 82.42% RISE371_Szoreg_C_(Sziv_Utca)_Hungary + 17.58% south_asian @ 4.723
2 82.42% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years + 17.58% south_asian @ 4.723
3 90.23% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 9.77% Ma911_Hoabinhian_Ma911 @ 5.242
4 90.23% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 9.77% Ma911_Ma911_M @ 5.242
5 92.58% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 7.42% Kajan @ 5.264
6 89.45% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 10.55% Yak_Bab_Yak_Bab @ 5.271
7 91.02% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.98% Hoabinhian_LA368_Laos_6000_BC @ 5.397
8 91.02% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.98% La368_Hoabinhian_La368 @ 5.398
9 91.80% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 8.20% Yak_Bab_Yak_Bab @ 5.404
10 90.23% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 + 9.77% Kajan @ 5.437
Least-squares method.
Using 1 populations approximation
1 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 9.029
2 100% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 @ 9.047
3 100% SZ30_szolad_hungary_longobard @ 10.192
4 100% RISE71_2196_2023_BC_Denmark_203_604 @ 10.262
5 100% SZ15.SG_szolad_hungary_longobard @ 10.276
6 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 10.625
7 100% CL97_collegno_italy_longobard @ 10.729
8 100% CL146_collegno_italy_longobard @ 10.846
9 100% I8206_iberia @ 11.164
10 100% SZ14_szolad_hungary_longobard @ 11.614
----- START OF POPULATIONS FOR CHROMOSOME 11 -----
Mixed Mode:
1 68.36% Ukraine_Ukraine_N1_Vovnigi_6469_6293_BC4519_4343_c al_BC_M_U4 + 31.64% I0410_SpainEN @ 1.025
2 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% I2650_Neolithic_Orkney_5kya @ 1.696
3 53.52% Spiginas2_Lithuania_2130_1750y_old + 46.48% Neolithic_GAC_Farmer_Globular_Amphora_Culture_(GAC )._RISE1168_Koszyce._Southern_Poland @ 1.700
4 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% ATP2_iberia @ 1.776
5 59.77% Spiginas2_Lithuania_2130_1750y_old + 40.23% Ballynahatty_Ireland_3343_3020_BCE @ 1.827
6 62.11% I0017Motala12 + 37.89% I5359_Neolithic_Wales_6kya @ 1.828
7 79.30% I1502_BR1 + 20.70% DA191_Hungary_Scythian_550_BC_550_bc @ 1.842
8 56.64% I0017Motala12 + 43.36% Gökhem2_Sweden_3000_BC @ 1.866
9 58.98% Spiginas2_Lithuania_2130_1750y_old + 41.02% I0406_SpainMN @ 1.887
10 55.86% Motala012_Östergötland._Sweden_5000_BC + 44.14% Gökhem2_Sweden_3000_BC @ 1.888
Least-squares method.
Using 1 populations approximation
1 100% I1502_BR1 @ 3.468
2 100% BR1_Hungary_Mako_Culture_2100_BC_2100_BC @ 5.740
3 100% scy009_scythian_Ukraine_768_431bce @ 7.036
4 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 7.323
5 100% DA194_Hungary_Scythian @ 7.813
6 100% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 @ 8.690
7 100% RISE479_Erd_4_Hungary_2000_years_M_I_L1228_T2b @ 9.941
8 100% DA191_Hungary_Scythian_550_BC_550_bc @ 11.630
9 100% BR2_Hungary_1200_BC @ 11.796
10 100% grt036_Sigtuna_10_12_century @ 13.600
----- START OF POPULATIONS FOR CHROMOSOME 12 -----
Mixed Mode:
1 53.52% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 46.48% N36_Neolithic_Kujawy_Lengyel_BKG @ 1.670
2 62.11% mur004_srubno_alakulskaya_1888_1697bce + 37.89% NE6_Apc_Berekalja_I_Hungary_4950_5300_cal_BC_M_C_P 255_K1a3a3 @ 1.750
3 51.95% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 + 48.05% scy192_scythian_2863_2503bce @ 1.944
4 54.30% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 45.70% I1497_CO1_Hungary_MN @ 2.100
5 50.39% scy192_scythian_2863_2503bce + 49.61% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 @ 2.102
6 55.08% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 44.92% I1495_NE7_HungaryEN @ 2.189
7 58.20% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 + 41.80% IA_Prenestina_Selicata_R437 @ 2.301
8 55.86% Plinkaigalis242_Plinkaigalis242_Lithuania_3260_263 0y_old + 44.14% N19_Neolithic_Kujawy_Funnel_Beaker @ 2.322
9 73.05% SZ28_szolad_hungary_longobard + 26.95% RISE555_Stalingard_Quarry_Russia_4082_years_R_CTS6 23_N1a @ 2.347
10 66.02% RISE569_Early_Medieval_Czech_Brandysek_other_versi on_2000_years_H1af2 + 33.98% Chalcolithic_Age_Anatolian_Barcinhoyuk._Turkey_394 3_BC @ 2.414
Least-squares method.
Using 1 populations approximation
1 100% DA195_Hungary_Scythian @ 6.875
2 100% SZ45.SG_szolad_hungary_longobard @ 7.913
3 100% SZ5.SG_szolad_hungary_longobard @ 8.745
4 100% DA199_Late_Medieval_Hungary @ 8.913
5 100% SZ18_szolad_hungary_longobard @ 9.830
6 100% CL53_collegno_italy_longobard @ 10.161
7 100% CL49_collegno_italy_longobard @ 10.685
8 100% CL63_collegno_italy_longobard @ 10.991
9 100% scy301_scythian_Moldova_390_205bce @ 11.398
10 100% BR2_Hungary_1200_BC @ 11.635
----- START OF POPULATIONS FOR CHROMOSOME 13 -----
Mixed Mode:
1 75.39% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 24.61% SZ20_szolad_hungary_longobard @ 4.934
2 56.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 43.36% SZ6_szolad_hungary_longobard @ 7.003
3 51.17% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 48.83% SZ8_szolad_hungary_longobard @ 7.095
4 69.14% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 30.86% DA195_Hungary_Scythian @ 7.133
5 50.39% SZ8_szolad_hungary_longobard + 49.61% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 7.133
6 66.02% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 33.98% CL49_collegno_italy_longobard @ 7.255
7 55.86% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 44.14% SZ38_szolad_hungary_longobard @ 7.313
8 57.42% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 42.58% SZ3.SG_szolad_hungary_longobard @ 7.318
9 71.48% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 28.52% SZ1.SG_szolad_hungary_longobard @ 7.319
10 73.83% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 26.17% SZ31_szolad_hungary_longobard @ 7.334
Least-squares method.
Using 1 populations approximation
1 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 16.004
2 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 16.004
3 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 17.114
4 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 18.031
5 100% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 @ 18.097
6 100% grt035_Sigtuna_10-12_century @ 19.610
7 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 19.687
8 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 19.691
9 100% CL146_collegno_italy_longobard @ 20.026
10 100% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 20.204
----- START OF POPULATIONS FOR CHROMOSOME 14 -----
Mixed Mode:
1 53.52% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b + 46.48% I7426_iberia @ 3.078
2 65.23% SZ14_szolad_hungary_longobard + 34.77% I7426_iberia @ 3.322
3 69.14% CrusaderSI39KingdomofJerusalem + 30.86% I7426_iberia @ 3.329
4 50.39% I7426_iberia + 49.61% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 3.828
5 58.20% RISE71_2196_2023_BC_Denmark_203_604 + 41.80% I7426_iberia @ 3.918
6 58.98% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 + 41.02% I7426_iberia @ 3.971
7 84.77% I4251_Malopolska_Bell_Beaker_R1b_R1b + 15.23% Natufian_merged_M041601 @ 4.014
8 62.89% CL83_collegno_italy_longobard + 37.11% I7426_iberia @ 4.182
9 67.58% CL87_collegno_italy_longobard + 32.42% I7426_iberia @ 4.191
10 62.89% SZ15.SG_szolad_hungary_longobard + 37.11% I7426_iberia @ 4.311
Least-squares method.
Using 1 populations approximation
1 100% SZ23_szolad_hungary_longobard @ 9.996
2 100% SZ5.SG_szolad_hungary_longobard @ 10.801
3 100% CrusaderSI47KingdomofJerusalem @ 10.983
4 100% BR2_Hungary_1200_BC @ 11.324
5 100% DA194_Hungary_Scythian @ 11.347
6 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 11.543
7 100% SZ45.SG_szolad_hungary_longobard @ 11.722
8 100% CL102_collegno_italy_longobard @ 12.076
9 100% SZ18_szolad_hungary_longobard @ 12.804
10 100% CL53_collegno_italy_longobard @ 13.127
----- START OF POPULATIONS FOR CHROMOSOME 15 -----
Mixed Mode:
1 83.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.80% I0124_EHG_I0124_S @ 5.631
2 83.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.80% I0061_OleniyOstrov @ 6.099
3 82.42% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 17.58% DA171_Lithuania_ca_350_650_AD_N1c_350_650_AD_N1c @ 6.185
4 79.30% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 20.70% 0LS03_lowquality @ 6.261
5 81.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 18.36% I1378_Mesolithic_Ukraine_6kya @ 6.368
6 74.61% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 25.39% Ajvide58_Sweden_3000_BC @ 6.426
7 81.64% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 18.36% I1819_Mesolithic_Ukraine_1st_oldest_R1a_9000_7000_ BCE_M_r1a_U5b2 @ 6.441
8 83.98% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 16.02% I0124_Samara_EHG @ 6.475
9 80.08% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 19.92% ILS01_lowquality @ 6.519
10 87.11% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 + 12.89% Vintas(598)_Vintas(598) @ 6.521
Least-squares method.
Using 1 populations approximation
1 100% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 14.955
2 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 16.425
3 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 16.425
4 100% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 @ 16.857
5 100% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1 @ 18.779
6 100% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b @ 20.848
7 100% CL151_collegno_italy_longobard @ 21.499
8 100% grt035_Sigtuna_10-12_century @ 21.562
9 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 21.879
10 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 21.936
----- START OF POPULATIONS FOR CHROMOSOME 16 -----
Mixed Mode:
1 79.30% I4252_Malopolska_Bell_Beaker_R1b_R1b + 20.70% ANCIENT_SA6001Sharakhalsun6_Steppe_of_Maykop_cultu re_5444 @ 3.814
2 77.73% I4252_Malopolska_Bell_Beaker_R1b_R1b + 22.27% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 3.819
3 77.73% I4252_Malopolska_Bell_Beaker_R1b_R1b + 22.27% AfontovaGora3_AfontovaGora2_merge @ 4.704
4 66.80% I4252_Malopolska_Bell_Beaker_R1b_R1b + 33.20% MJ13_West_Scythian_580_BC @ 4.890
5 72.27% I4252_Malopolska_Bell_Beaker_R1b_R1b + 27.73% Afanasievo_RISE511_Russia_290902468_BC @ 5.096
6 72.27% I4252_Malopolska_Bell_Beaker_R1b_R1b + 27.73% RISE511_Bateni_Russia_4224_years_F_J2a2a @ 5.096
7 71.48% I4252_Malopolska_Bell_Beaker_R1b_R1b + 28.52% Rise511_Afansievo @ 5.108
8 59.77% I4252_Malopolska_Bell_Beaker_R1b_R1b + 40.23% RISE569_Early_Medieval_Czech_2000_years_F_H1af2 @ 5.361
9 73.05% I4252_Malopolska_Bell_Beaker_R1b_R1b + 26.95% Yamnaya_I0231 @ 5.501
10 78.52% I4252_Malopolska_Bell_Beaker_R1b_R1b + 21.48% ANCIENT_PG2004Progress2_Steppe_of_N_Caucasus_6090 @ 5.548
Least-squares method.
Using 1 populations approximation
1 100% CL87_collegno_italy_longobard @ 9.362
2 100% CrusaderSI39KingdomofJerusalem @ 9.769
3 100% RISE436_Tiefbrunn_Germany_4124_years_M_CT_CTS3662_ N @ 9.846
4 100% CL83_collegno_italy_longobard @ 10.207
5 100% SZ24_szolad_hungary_longobard @ 10.287
6 100% SZ7_szolad_hungary_longobard @ 10.378
7 100% SZ23_szolad_hungary_longobard @ 10.537
8 100% I8206_iberia @ 11.187
9 100% SZ14_szolad_hungary_longobard @ 11.300
10 100% SZ12_szolad_hungary_longobard @ 11.314
----- START OF POPULATIONS FOR CHROMOSOME 17 -----
Mixed Mode:
1 84.77% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 15.23% Ma’lta_South_Central0Siberia_22.000_BC @ 3.733
2 66.80% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 33.20% Vestonice16_cze @ 4.397
3 84.77% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 15.23% Botai_CA_Yamnaya @ 4.509
4 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% GoyetQ116_1 @ 4.767
5 62.11% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 37.89% el_Miron @ 5.184
6 85.55% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 14.45% AY2003_Aygurskiy_2_Steppe_Maykop_5455_H2a1 @ 5.197
7 50.39% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 49.61% I8206_iberia @ 5.251
8 50.39% I8206_iberia + 49.61% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 5.256
9 91.02% RISE562_Landau_an_der_Isar_Germany_F_H2a1e + 8.98% Ust_Ishim_Siberia_45000_years_M_K_M526_R @ 5.340
10 76.17% RISE371_Szoreg_C_(Sziv_Utca)_Hungary + 23.83% GoyetQ116_1 @ 5.359
Least-squares method.
Using 1 populations approximation
1 100% RISE562_Landau_an_der_Isar_Germany_F_H2a1e @ 7.704
2 100% I0462_beaker_iberia_I0462 @ 9.698
3 100% grt035_Sigtuna_10-12_century @ 9.967
4 100% nuf002_Sigtuna_10_12_century_M_t1a1j @ 10.010
5 100% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1 @ 10.586
6 100% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5 @ 10.684
7 100% RISE71_2196_2023_BC_Denmark_203_604 @ 10.733
8 100% RISE371_Szoreg_C_(Sziv_Utca)_Hungary @ 11.053
9 100% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years @ 11.053
10 100% CL146_collegno_italy_longobard @ 11.264
----- START OF POPULATIONS FOR CHROMOSOME 18 -----
Mixed Mode:
1 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Yoruba00920_Africa @ 3.350
2 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mandenka_Mandenka_I @ 3.363
3 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Denisova_Cave_Siberia_30000_years_F @ 3.373
4 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Biaka00448_Africa @ 3.376
5 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mbuti00449_Africa @ 3.399
6 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Mezmaiskaya_Neanderthal_Mezmaiskaya_Neanderthal_F @ 3.407
7 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Kajan @ 3.447
8 98.05% SZ3.SG_szolad_hungary_longobard + 1.95% Hoabinhian_LA368_Laos_6000_BC @ 3.468
9 98.05% SZ3.SG_szolad_hungary_longobard + 1.95% La368_Hoabinhian_La368 @ 3.468
10 98.83% SZ3.SG_szolad_hungary_longobard + 1.17% Yak_Bab_Yak_Bab @ 3.487
Least-squares method.
Using 1 populations approximation
1 100% SZ3.SG_szolad_hungary_longobard @ 3.660
2 100% SZ8_szolad_hungary_longobard @ 8.304
3 100% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV @ 9.037
4 100% SZ38_szolad_hungary_longobard @ 9.121
5 100% SZ24_szolad_hungary_longobard @ 9.490
6 100% CL102_collegno_italy_longobard @ 10.326
7 100% CL47_collegno_italy_longobard @ 11.191
8 100% I8206_iberia @ 11.444
9 100% CL87_collegno_italy_longobard @ 11.538
10 100% CL63_collegno_italy_longobard @ 12.063
----- START OF POPULATIONS FOR CHROMOSOME 19 -----
Mixed Mode:
1 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% Gokhem7_Sweden_5000_years_F_H @ 2.323
2 63.67% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 36.33% I1388_Beaker_South_France_I1388 @ 2.511
3 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% SpaintheChalcolithic_I1300_Spain @ 2.549
4 76.17% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.83% I0408_SpainMN @ 2.815
5 72.27% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 27.73% I0460_beaker_iberia_I0460 @ 2.823
6 74.61% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 25.39% Neolithic_sample_from_Ireland_Carrowmore_004 @ 3.351
7 76.95% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 23.05% Sima_del_Angel._LU339_Spain_4889_BC @ 3.383
8 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% I0459_23andMeV3_beaker_iberia @ 3.515
9 73.05% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.95% I2932_Neolithic_Orkney_4kya @ 3.589
10 73.83% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 + 26.17% ATP2_iberia @ 3.593
Least-squares method.
Using 1 populations approximation
1 100% I2478_Beaker_North_Italy_I2478 @ 7.974
2 100% BeakerNorthItaly_I2478 @ 7.974
3 100% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1 @ 12.446
4 100% I0462_beaker_iberia_I0462 @ 14.583
5 100% I3758_Celtiberian_U @ 16.632
6 100% I8474_iberia @ 16.980
7 100% I3757_Celtiberian_I3757_Celtiberian_U @ 17.309
8 100% I3759_Celtiberian_I3759_Celtiberian_m @ 17.412
9 100% I8203_iberia @ 17.943
10 100% I4252_Malopolska_Bell_Beaker_R1b_R1b @ 19.695
----- START OF POPULATIONS FOR CHROMOSOME 20 -----
Mixed Mode:
1 80.08% Kivutkalns164_Ancient_Inflanty + 19.92% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3 @ 4.846
2 80.86% Kivutkalns164_Ancient_Inflanty + 19.14% i2051_Dolmen_1410_1210_BC_M_J2a_H6a1a2a @ 5.501
3 73.83% Kivutkalns164_Ancient_Inflanty + 26.17% RISE407_Norabak_Armenia_2827_years_CT_M5805_H8a @ 5.677
4 73.83% Kivutkalns164_Ancient_Inflanty + 26.17% RISE407_Armenian_LBA @ 5.699
5 76.17% Kivutkalns209_Ancient_Inflanty_R1a_R1a + 23.83% i1722_Unakozovskaya_Eneolithic_Caucasus_6403_F_R1a @ 5.720
6 81.64% Kivutkalns164_Ancient_Inflanty + 18.36% i1722_Unakozovskaya_Eneolithic_Caucasus_6403_F_R1a @ 5.785
7 81.64% Kivutkalns164_Ancient_Inflanty + 18.36% i6268_Klady_Maykop_culture_5564_M_R1a_j2a1 @ 5.872
8 74.61% Kivutkalns164_Ancient_Inflanty + 25.39% iv3002_maykop_step_outlier_ipatovo_T @ 5.912
9 76.95% Kivutkalns164_Ancient_Inflanty + 23.05% Sigauri_Sigauri._Melkhiy_(Chechen_Republic) @ 5.939
10 76.17% Kivutkalns209_Ancient_Inflanty_R1a_R1a + 23.83% i2051_Dolmen_1410_1210_BC_M_J2a_H6a1a2a @ 5.955
Least-squares method.
Using 1 populations approximation
1 100% RISE555_Stalingard_Quarry_Russia_4082_years_R_CTS6 23_N1a @ 15.689
2 100% DA29_European_in_Kazakhstan_1300_AD_700 @ 15.992
3 100% Kivutkalns164_Ancient_Inflanty @ 17.803
4 100% IIIt_lowquality @ 17.929
5 100% RISE511_Bateni_Russia_4224_years_F_J2a2a @ 19.874
6 100% Afanasievo_RISE511_Russia_290902468_BC @ 19.874
7 100% MJ13_West_Scythian_580_BC @ 20.755
8 100% SA6003_ANCIENT_Sharakhalsun6_Catacomb_culture_4292 @ 20.756
9 100% ZO2002_Zolotarevka_2_Yamnaya_Caucasus_4850_U5a1 @ 21.077
10 100% RISE548_Temrta_IV_Russia_2000_years_M_R_L23_U4 @ 21.158
----- START OF POPULATIONS FOR CHROMOSOME 21 -----
Mixed Mode:
1 74.61% CrusaderSI47KingdomofJerusalem + 25.39% I7426_iberia @ 3.608
2 59.77% MJ13_West_Scythian_580_BC + 40.23% I0459_23andMeV3_beaker_iberia @ 3.654
3 58.98% MJ13_West_Scythian_580_BC + 41.02% I2405_Neolithic_Paluki_GAC_culture_I2a_I2a @ 3.934
4 55.08% MJ13_West_Scythian_580_BC + 44.92% I2403_Neolithic_Paluki_GAC_culture_I2a_I2a @ 4.082
5 65.23% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1 + 34.77% I7426_iberia @ 4.366
6 63.67% MJ13_West_Scythian_580_BC + 36.33% SpaintheChalcolithic_I1300_Spain @ 4.756
7 60.55% MJ13_West_Scythian_580_BC + 39.45% I2932_Neolithic_Orkney_4kya @ 4.853
8 61.33% MJ13_West_Scythian_580_BC + 38.67% I0460_beaker_iberia_I0460 @ 4.875
9 81.64% I4251_Malopolska_Bell_Beaker_R1b_R1b + 18.36% SZ35_szolad_hungary_longobard @ 4.912
10 62.89% MJ13_West_Scythian_580_BC + 37.11% I0408_SpainMN @ 5.035
Least-squares method.
Using 1 populations approximation
1 100% CrusaderSI47KingdomofJerusalem @ 10.481
2 100% SZ23_szolad_hungary_longobard @ 11.753
3 100% I4251_Malopolska_Bell_Beaker_R1b_R1b @ 11.799
4 100% SZ5.SG_szolad_hungary_longobard @ 12.053
5 100% DA194_Hungary_Scythian @ 12.521
6 100% SZ45.SG_szolad_hungary_longobard @ 12.617
7 100% BR2_Hungary_1200_BC @ 12.853
8 100% DA199_Late_Medieval_Hungary @ 13.126
9 100% Hallstatt_Celt_DA112_Bylany_Czechia @ 13.965
10 100% CL102_collegno_italy_longobard @ 14.155
----- START OF POPULATIONS FOR CHROMOSOME 22 -----
Mixed Mode:
1 69.14% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1 + 30.86% SZ20_szolad_hungary_longobard @ 7.689
2 84.77% RISE174_Oxie_7_Sweden_1521_years_W1 + 15.23% copt315_copt315 @ 8.857
3 83.98% RISE00_Sope_Estonia_2000_years_F_H5a1 + 16.02% copt315_copt315 @ 9.318
4 83.98% RISE00_Corded_Estonia_RISE00_Corded_Estonia + 16.02% copt315_copt315 @ 9.318
5 75.39% kzb001_kzb001_srubno-alakulskaya_F_U4b1a1a1_1742-1546BCE + 24.61% SZ20_szolad_hungary_longobard @ 9.553
6 57.42% RISE446_Bergrheinfeld_Germany_4015_years_M_R_M207_ U5b1c2 + 42.58% SZ6_szolad_hungary_longobard @ 9.620
7 89.45% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a + 10.55% RISE21_Karlstrup_Denmark_3092_years_N1a1a2 @ 9.623
8 84.77% kzb001_kzb001_srubno-alakulskaya_F_U4b1a1a1_1742-1546BCE + 15.23% copt315_copt315 @ 9.646
9 83.20% stg026_Sigtuna + 16.80% copt315_copt315 @ 9.661
10 54.30% Bichon_Switzerland_11000_y_old_2 + 45.70% SZ6_szolad_hungary_longobard @ 9.739
Least-squares method.
Using 1 populations approximation
1 100% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a @ 10.811
2 100% SZ38_szolad_hungary_longobard @ 14.279
3 100% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1 @ 14.656
4 100% SZ2.SG_szolad_hungary_longobard @ 15.128
5 100% SZ12_szolad_hungary_longobard @ 15.153
6 100% CL92_collegno_italy_longobard @ 15.271
7 100% CL145_collegno_italy_longobard @ 15.557
8 100% 84001_Sigtuna_10_12_century @ 15.632
9 100% SZ7_szolad_hungary_longobard @ 15.649
10 100% SZ30_szolad_hungary_longobard @ 15.650
--- nMonte for chromosome 1 ---
24.60% CrusaderSI47KingdomofJerusalem <---DEUS VULT!
22.80% I4252_Malopolska_Bell_Beaker_R1b_R1b
19.20% UneticeBellBeaker_RISE577_Poland_250001900_BC
17.40% CL83_collegno_italy_longobard
14.20% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1
00.60% Bot15_Rio_Doce._Minas_Gerais._Brazil
00.40% CrusaderSI39KingdomofJerusalem
00.20% CL87_collegno_italy_longobard
00.20% DA43_XiongNu_160_130_BC
00.20% Jomon_IK002
00.20% Nurbai_Nurbai
--- nMonte for chromosome 2 ---
28.80% SZ3.SG_szolad_hungary_longobard
23.60% nuf002_Sigtuna_10_12_century_M_t1a1j
21.00% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV
12.80% I4252_Malopolska_Bell_Beaker_R1b_R1b
07.00% SZ8_szolad_hungary_longobard
03.80% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5
02.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
00.20% SZ6_szolad_hungary_longobard
--- nMonte for chromosome 3 ---
37.00% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
24.40% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R
17.00% I4252_Malopolska_Bell_Beaker_R1b_R1b
14.20% SZ8_szolad_hungary_longobard
02.40% kls001_Sigtuna_10_12_century_M_R1_h1b1
02.40% SZ6_szolad_hungary_longobard
01.40% SZ3.SG_szolad_hungary_longobard
00.60% RISE97_Fredriksberg_Sweden_3590_years_CT_Y1580_K2a 5
00.40% Atacama
00.20% Karitiana_Male_II_Karitiana_Male_II
--- nMonte for chromosome 4 ---
37.00% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
25.00% stg026_Sigtuna
24.80% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
06.20% SZ6_szolad_hungary_longobard
03.40% kls001_Sigtuna_10_12_century_M_R1_h1b1
02.60% Glz_Bai_Glz_Bai
00.80% australian
00.20% SZ3.SG_szolad_hungary_longobard
--- nMonte for chromosome 5 ---
37.60% kls001_Sigtuna_10_12_century_M_R1_h1b1
29.20% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
13.20% SZ6_szolad_hungary_longobard
08.60% SZ8_szolad_hungary_longobard
03.60% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
03.40% australian
02.20% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years
02.20% RISE371_Szoreg_C_(Sziv_Utca)_Hungary
--- nMonte for chromosome 6 ---
68.60% I4251_Malopolska_Bell_Beaker_R1b_R1b
07.00% N17_Ancient_Kujawy_Iwno_Culture_R1a_r1a
05.80% Vestonice16_cze
04.00% Ma’lta_South_Central0Siberia_22.000_BC
03.40% Vintas(598)_Vintas(598)
03.20% scy009_scythian_Ukraine_768_431bce
02.40% I4252_Malopolska_Bell_Beaker_R1b_R1b
01.40% GoyetQ116_1
01.20% MJ31_Early_Kimmerian_R1a
01.00% Natufian_merged_M041601
00.80% MJ13_West_Scythian_580_BC
00.60% RISE505_Kytmanovo_Russia_3391_years_U4a1b
00.40% Gyvakarai1_Lithuania_2620_2470_y_old
00.20% Andronovo_RISE505_Russia
--- nMonte for chromosome 7 ---
59.60% CL97_collegno_italy_longobard
19.40% Polish_Bell_Beaker_I4253_Samborzec._Poland_2571022 08_BC
05.80% SZ31_szolad_hungary_longobard
05.60% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b
03.40% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
02.80% W-Usin_W-Usin_F_C4b
01.60% RISE423_Armenian_MBA
01.20% Ulchi-Nizhniy_Gavan_Ulchi-Nizhniy_Gavan
00.40% Mos4_Devil_s_Gate
00.20% M4_Borum_Eshoj_Denmark_LOW_QUALITY_1350_BC_M_B2
--- nMonte for chromosome 8 ---
26.80% BeakerNorthItaly_I2478
21.60% I2478_Beaker_North_Italy_I2478
20.20% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3
19.20% RISE207_Angamollan_Sweden_3130_years_CT_CTS4650_J1
04.60% I8203_iberia
03.40% LateNeolithicBronzeAgeLaos_LA364_11210930_BC
01.80% I0462_beaker_iberia_I0462
01.00% Bot15_Rio_Doce._Minas_Gerais._Brazil
00.80% Ma911_Hoabinhian_Ma911
00.40% Ma911_Ma911_M
00.20% I6581_Silesia_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 9 ---
72.00% grt036_Sigtuna_10_12_century
14.20% RISE479_Erd_4_Hungary_2000_years_M_I_L1228_T2b
08.60% RISE145_Wielkopolska_Unetice
03.40% el_Miron
01.20% Hallstatt_Celt_DA112_Bylany_Czechia
00.40% Karitiana_Male_II_Karitiana_Male_II
00.20% HDGP01054_Pima_Female_HDGP01054
--- nMonte for chromosome 10 ---
64.80% Hinxton_3_Cambridgshire_UK_1300_years_F_K1a4a1a2b
14.40% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
09.60% Hinxton_4_Cambridgshire_UK_2000_years_M_R_DF25_H1a g1
04.80% Kajan
03.20% australian
02.00% I8206_iberia
00.80% Yak_Bab_Yak_Bab
00.40% Hinxton_2_Cambridgshire_UK_1300_years_F_H2a2b1
--- nMonte for chromosome 11 ---
78.00% I1502_BR1
11.20% DA191_Hungary_Scythian_550_BC_550_bc
04.80% Hallstatt_Celt_DA112_Bylany_Czechia
02.20% scy009_scythian_Ukraine_768_431bce
01.00% I0124_EHG_I0124_S
01.00% Ma’lta_South_Central0Siberia_22.000_BC
00.80% Yoruba00920_Africa
00.40% Ajvide58_Sweden_3000_BC
00.20% el_Miron
00.20% Khvalynsk_EHG_merged_I0122_I0124_I0433
00.20% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
--- nMonte for chromosome 12 ---
45.40% DA195_Hungary_Scythian
25.00% BR1_Hungary_Mako_Culture_2100_BC_2100_BC
19.80% scy301_scythian_Moldova_390_205bce
02.80% SZ28_szolad_hungary_longobard
02.80% V2_Vratitsa_Bulgaria_1500_1100_BC_M_U2e1_2_3
02.00% DA199_Late_Medieval_Hungary
01.40% sar00665_sar00665
00.80% MJ12_Thraco_Kimmerian
--- nMonte for chromosome 13 ---
59.60% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
21.40% SZ6_szolad_hungary_longobard
10.00% SZ20_szolad_hungary_longobard
08.20% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
00.60% SZ31_szolad_hungary_longobard
00.20% SZ8_szolad_hungary_longobard
--- nMonte for chromosome 14 ---
44.00% SZ23_szolad_hungary_longobard
23.80% I7426_iberia
16.20% I4252_Malopolska_Bell_Beaker_R1b_R1b
06.20% IR1_Ludas_Varju_dulo_Hungary_830_980_cal_BC_M_N_M2 31_G2a1
05.60% Vestonice16_cze
04.20% I4251_Malopolska_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 15 ---
60.60% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
29.80% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1
05.00% Bichon_Switzerland_11000_y_old_2
01.00% I4252_Malopolska_Bell_Beaker_R1b_R1b
01.00% Kajan
01.00% MARC1492_Ancient_Mi_kmaq_1492
00.80% La368_Hoabinhian_La368
00.40% Loschbour_Loschbour._Luxembourg_6000_BC
00.20% Hoabinhian_LA368_Laos_6000_BC
00.20% Karitiana_Male_II_Karitiana_Male_II
--- nMonte for chromosome 16 ---
36.60% RISE436_Tiefbrunn_Germany_4124_years_M_CT_CTS3662_ N
35.60% I4252_Malopolska_Bell_Beaker_R1b_R1b
08.00% I4251_Malopolska_Bell_Beaker_R1b_R1b
06.60% Vintas(598)_Vintas(598)
04.40% M4_Borum_Eshoj_Denmark_LOW_QUALITY_1350_BC_M_B2
04.20% Atacama
02.60% DA194_Hungary_Scythian
01.20% I8212_NE_Iberia_Greek_(Empuries1)_500_350_BCE_R
00.60% SZ23_szolad_hungary_longobard
00.20% CrusaderSI47KingdomofJerusalem
--- nMonte for chromosome 17 ---
47.60% RISE562_Landau_an_der_Isar_Germany_F_H2a1e
32.00% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
09.00% I0462_beaker_iberia_I0462
07.40% GoyetQ116_1
01.40% LateNeolithicBronzeAgeLaos_LA364_11210930_BC
01.00% Hoabinhian_LA368_Laos_6000_BC
01.00% NA39_Laguna_de_los_Condores_Peru_1000_1500_AD_M_B2
00.20% Kajan
00.20% nuf002_Sigtuna_10_12_century_M_t1a1j
00.20% Ust_Ishim_Siberia_45000_years_M_K_M526_R
--- nMonte for chromosome 18 ---
85.80% SZ3.SG_szolad_hungary_longobard
05.40% SZ6_szolad_hungary_longobard
04.60% RISE564_Osterhofen_Altenmark_Germany_M_R_L51_HV
01.00% Kajan
01.00% RISE371_Szoreg_-_C_(Sziv_Utca)._Hungary_F_U5a2b_3653_years
00.60% Yoruba00920_Africa
00.40% DA191_Hungary_Scythian_550_BC_550_bc
00.40% Hinxton_5_Cambridgshire_UK_1300_years_F_H2a2a1
00.40% RISE371_Szoreg_C_(Sziv_Utca)_Hungary
00.20% Mbuti00449_Africa
00.20% SZ20_szolad_hungary_longobard
--- nMonte for chromosome 19 ---
59.40% RISE42_Marbjerg_Denmark_3681_years_M_CT_CTS2711_H2 c1
30.20% I1388_Beaker_South_France_I1388
05.40% I2478_Beaker_North_Italy_I2478
04.80% BeakerNorthItaly_I2478
00.20% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
--- nMonte for chromosome 20 ---
50.20% Kivutkalns164_Ancient_Inflanty
22.00% ANCIENT_PG2004Progress2_Steppe_of_N_Caucasus_6090
12.60% ZO2002_Zolotarevka_2_Yamnaya_Caucasus_4850_U5a1
06.20% DA29_European_in_Kazakhstan_1300_AD_700
05.20% Vintas(598)_Vintas(598)
03.80% sar00665_sar00665
--- nMonte for chromosome 21 ---
64.20% CrusaderSI47KingdomofJerusalem
22.20% I7426_iberia
06.20% SZ23_szolad_hungary_longobard
02.80% Atacama
02.40% MJ13_West_Scythian_580_BC
01.60% IR1_Ludas_Varju_dulo_Hungary_830_980_cal_BC_M_N_M2 31_G2a1
00.40% DA194_Hungary_Scythian
00.20% I4251_Malopolska_Bell_Beaker_R1b_R1b
--- nMonte for chromosome 22 ---
53.40% RISE431_Wielkopolska_Proto_Unetice_R1a_R1a
17.00% RISE21_Karlstrup_Denmark_3092_years_N1a1a2
14.00% SZ20_szolad_hungary_longobard
13.40% Bichon_Switzerland_11000_y_old_2
01.60% Mota1_Africa
00.60% Sope_r_Jabara_Estonia_Corded_Ware_culture_4575_435 0_F_H5a1