Haplogroup T-M184


Haplogroup T-M184, also known as Haplogroup T is a human Y-chromosome DNA haplogroup. The UEP that defines this clade is the SNP known as M184. Other SNPs – M272, PAGES129, L810, L455, L452, and L445 – are considered to be phylogenetically equivalent to M184. As a primary branch of haplogroup LT, the basal, undivergent haplogroup T* currently has the alternate phylogenetic name of K1b and is a sibling of haplogroup L*. It has two primary branches: T1 and T2.
T-M184 is unusual in that it is both geographically widespread and relatively rare.
T1 – the numerically dominant primary branch of T-M184 – appears to have originated in Western Asia, and possibly spread from there into the East Africa, South Asia, Southern Europe and adjoining regions. T1* may have expanded with the Pre-Pottery Neolithic B culture. Most males who now belong to haplogroup T-L206 carry the subclade T-M70, a primary branch of T-M206. T-M70 nevertheless appears to have long been present in Europe, having possibly arrived there in the Neolithic epoch with the first farmers. This is supported by the discovery of several members of T1a1 at a 7,000 year old settlement, 5800-5400Bc neolithic site in Malak Preslavets, Bulgaria. Autosomal analysis of these remains suggest that some were closely related to modern Southwest Asian populations.

Structure

;Subclade structure of Haplogroup T.

Overview

Haplogroup T is found at high levels in isolated pockets as far apart as Central Asia, Northeast and Eastern India, Northern Asia, Central Africa, and South Africa. The clade is borne by a majority of Dir clan Somalis in the Horn of Africa; among Kurru, Bauris and Lodha in South Asia; among Toubou in Chad; and in a significant minority of Rajus and Mahli in South Asia; general Somalis, southern Egyptians and Fula in north Cameroon; people from the Chian, Aquilani, Saccensi, Ibizan and Mirandese regions in Europe; Zoroastrians, Bakhtiaris in the Middle East, and Nenets and Kazakhs in Siberia/Central Asia.
The maximal worldwide frequency for haplogroup T-M184 is observed among Somalis in the Dire Dawa area and Djibouti, where it accounts for approximately 82% of the Somali male lineages to 100% of the Somali Dir male lineages, respectively. Luis et al. suggest that the presence of T on the African continent may, like R1* representatives, point to an older introduction from Asia. The Levant rather than the Arabian Peninsula appears to have been the main route of entry, as the Egyptian and Turkish haplotypes are considerably older in age than those found in Oman. According to the authors, the spotty modern distribution pattern of haplogroup T-M184 within Africa may therefore represent the traces of a more widespread early local presence of the clade. Later expansions of populations carrying the E1b1b, E1b1a, G and J NRY lineages may have overwhelmed the T-M184 clade-bearers in certain localities.
In the Caucasus and Anatolia it makes up to 4% of the population in southeast and northwest Caucasus as well as in southeast and western Anatolia, peaking up to 20% in Armenians from Sasun. In Middle East it makes up to 4% of the population around the Zagros Mountains and the Persian Gulf as well as around the Taurus Mountains and the Levant basin, peaking up to 10% in Zoroastrians from Kerman, Bakhtiaris, Assyrians from Azerbaijan, Abudhabians, Armenians from Historical Southwestern Armenia and Druzes from Galilee. In Eastern Africa it makes up to 4% of the population on Upper Egypt peaking up to 10% in Luxor.
Haplogroup T is rare almost everywhere in Europe. According to Mendez et al., "the occurrence in Europe of lineages belonging to both T1a1 and T1a2 subclades probably reflects multiple episodes of gene flow. T1a1* haplogroups in Europe likely reflect older gene flow". It makes up to 4% of the population on Central Italy, Western Sicily, Northwest Corsica, Northwestern Iberian Peninsula, Western Andalucia, Western Alps, Eastern Crete, and Macedonia, frequencies up to 10% in Ibiza, Miranda de I Douro, Eastern Oviedo, Cádiz, Badajoz, Balagna, Norma and Ragusa, and peaking at 20% in Sciacca, L'Aquila and some German regions. T-M184 was found in 1.7% of a pool of six samples of males from southwestern Russia, but it was completely absent from a pool of eight samples totalling 637 individuals from the northern half of European Russia. The Russians from the southwest were from the following cities: Roslavl, Livny, Pristen, Repyevka, and Belgorod; and Kuban Cossacks from the Republic of Adygea.

T1 (T-L206)

T1 is the most common descent of T-M184 haplogroup, being the lineage of more than 95% of all Eurasian T-M184 members. One of their descent lineages is found in high frequencies among northern Somali clans. However, it appears to have originated somewhere around the northern Mediterranean Basin, perhaps somewhere between Greece to the Zagros mountains.
The basal T1* subclade appears to have spread from northeastern Anatolia, into the Levant at least, with the Pre-Pottery Neolithic B culture. Although it is rare in modern populations, T1* has been found in a Berber individual from Tunisia, a male in Syria, and one sequence among ethnic Macedonians in Macedonia.

T1a (M70)

Mendez et al. points to an ancient presence for T1a-M70 in Europe may reflect early exiles between the ancient lands of Israel and Babylon. The subclade probably arrived with the very first farmers.

T1a1*

Recent findings of Haak et al. who discovered several T1a1-CTS880 members in a 7000 years old settlement in Karsdorf, Germany.
The T1a1 skeletal remains from this settlement were also found to belong to the H mtdna haplogroup, this settlement has the highest frequency of this mtDNA haplogroup 30.4% that have been found in any early Neolithic Europe population until now.
T1a1, which emerged 17,400-14,600 BP, is the largest lineage downstream from T1a-M70. An individual with T1a1 was first identified in a paper by Tomas et al. in 2006, among a sample of Ibizans from the Balearic Islands of Spain. T-L162 has also been reported in at least one male with a Pontic Greek background.
A subgroup of Ibizans – the Pityusans of the Pityusic Islands – have been found by three different studies to possess T1a1 at relatively high levels of 6.7–16.7%. Tomàs et al. found three cases amongst a sample of 45. Zalloua et al. found nine examples that were L454+ from a sample of 54. Rodriguez et al. found seven cases of L454+ in a sample of 96.
The Pontic Greeks of Anatolia are also reported to possess T1a1. In 2009, a male with the surname Metaxopoulos and a Pontic Greek background was reported to be T-L162 – according to the Y-Chromosome Genome Comparison Project administered by Adriano Squecco. Greeks from the Fatsa reportedly migrated in antiquity from Sinope, which was itself colonised by Ionians. Another ancient Ionian colony in north-west Anatolia, Lámpsakos, had onomastic links to the Pityusic Islands – Lámpsakos was originally an Ionian colony known as Pityussa.

T1a1a (L208)

This lineage, formed 14,200-11,000 BP, is the largest branch downstream T1a1-L162. Firstly discovered and reported at August 2009 in a 23andMe customer of Iberian ancestry that participated in the public Squecco's Y-Chromosome Genome Comparison Project and appearing there as "Avilés" and as "AlpAstur" in 23andMe. Named as "L208" at November 2009.

T1a1a1a1b1a1* (T-Y3782*)

One Sardinian male from a sample of 187 – a resident of the Province of Cagliari – has been found to have T-Y3782, also known T1a1a1a1b1a1.

T1a1a1a1b1a1a (T-Y3836)

This lineage is mostly found among individuals from the Iberian Peninsula, where the subclade also has its highest diversity. Two subclades can be clearly discriminated. The first, found mainly in post-colonial Puerto Rico, with DYS391=10 and the second, found mainly in Panamá where their Iberian descendants could have the entrance point to America, with DYS439=12.
Some members of Y3836 are found among different communities of the Sephardic diaspora but they are found to be extremely rare in the total percentage of some of these communities as seen in Nogueiro et al. This probably could mean that these members could be integrated by these communities through the contact with other native Iberian populations as seen in Monteiro et al. where this lineage was found among native Astur-Leonese speakers.
PopulationLanguageLocationMembers/Sample sizePercentageSourceNotes
PanamaniansPanamian Castilian Los Santos Province1/303.3%
ColombiansColombian Castilian Caldas2/752.7%YHRDMestizo individuals
PanamaniansPanamian Castilian Panama Province1/432.3%
Northwest ArgentiniansArgentinian Castilian Mountainous region of Jujuy1/502%YHRDAdmixed population
Puerto RicansPuerto Rican Castilian Southeast Puerto Rico2/1101.8%
Northeastern Portuguese JewsJudaeo-Portuguese Bragança, Argozelo, Carção, Mogadouro, and Vilarinho dos Galegos1/571.8%
Native Mirandese speakersMirandese Astur-Leonese Miranda de l Douro1/581.7%
DominicansDominican Castilian Dominican Republic4/2611.5%
PanamaniansPanamian Castilian Chiriquí Province1/921.1%
MecklenburgersEast Low Saxon Rostock2/2001%
MestizosColombian Castilian Bogotá2/1951%YHRD
MestizosColombian Castilian Valle del Cauca1/1031%YHRD
MestizosEcuadorian Castilian Quito1/1021%
VenezuelansVenezuelan Castilian Maracaibo1/1110.9%
VenezuelansVenezuelan Castilian Central Region1/1150.9%
EuropeansBrazilian Portuguese São Paulo1/1200.8YHRDEuropean descents
EcuadoriansEcuadorian Castilian Quito1/1200.8%
ColombiansColombian Castilian Antioquia6/7770.7%
MexicansMexican Castilian Mérida1/1590.6%YHRDMestizo individuals
Eastern AndalusiansAndalusian Alhama de Granada, Baza, Huéscar, Loja, Montefrío and Órgiva1/1800.6%
ColombiansColombian Castilian Santander1/1930.5%YHRDMestizo individuals
ChileansChilean Castilian Concepción1/1980.5%YHRD
CatalansNot reportedMetropolitan area of Barcelona1/2240.5%
MexicansMexican Spanish Guadalajara1/2460.4%YHRDMestizo individuals
EuropeansBrazilian Portuguese Rio Grande do Sul1/2550.4%

T2 (PH110)

This lineage could have arrived in the Levant through the PPNB expansion from northeastern Anatolia.
A 2014 study found T-PH110 in one ethnic Bhutanese male, out of a sample of 21, possibly implying a rate of 4.8% in Bhutan. Also have been found in a German individual and another two from Caucasus. The Bhutanese and the German haplotypes seems to cluster together.

Possible cases from older research

PopulationLanguageLocationMembers/Sample sizePercentageSourceNotes
AltaiansAltai Kurmach-Baygol2/1118.2%K*
AltaiansAltai Turochak2/1910.5%K
LeonesesAstur-Leonese Leon1/137.7%K
Ossetian IronsIron South Ossetia1/214.8%No further details available.
CordobesesAndalusian Córdoba1/273.7%No further details available.
LeonesesAstur-Leonese Leon2/603.3%No further details available.
TharusTharu Morang1/372.7%K
CherkessiansBesleney Circassia2/1261.6%No further details are available.
BizkaiansBizkaiera Bizkaia1/721.4%No further details are available.
EuropeansEnglish Australia1/10780.9%No further details are available.

Geographical distribution

Northern Asia

Europe

With K-M9+, unconfirmed but probable T-M70+: 14% of Russians in Yaroslavl, 12.5% of Italians in Matera, 10.3% of Italians in Avezzano, 10% of Tyroleans in Nonstal, 10% of Italians in Pescara, 8.7% of Italians in Benevento, 7.8% of Italians in South Latium, 7.4% of Italians in Paola, 7.3% of Italians in Central-South Italy, 7.1% of Serbs in Serbia, 4.7% of Aromanians in Romania, 3.7% of Italians in Biella, 3.7% of Andalusians in Córdoba, 3.3% of Leoneses in León, 3.2% of Italians in Postua, 3.2% of Italians in Cavaglià, 3.1% of Calabrians in Reggio Calabria, 2.8% of Russians in Ryazan Oblast, 2.8% of Italians in South Apulia, 2.7% of Calabrians in Cosenza, 2.6% of Serbs in Belgrade, 2.5% of Russians in Pskov, 2.4% of Russians in Kaluga, 2.2% of Transylvanians in Miercurea Ciuc, 2.2% of Italians in Trino Vercellese, 1.9% of Italians in Brescia, 1.9% of Romanians in Romania, 1.7% of Serbs and Montenegrins in Serbia and Montenegro, 1.7% of Italians in Marche, 1.7% of Calabrians in Catanzaro, 1.6% of Greeks in Northern Greece, 1.3% of Swiss Germans in Zürich Area, 1.3% of Italians in South Tuscany and North Latium, 1.1% of Dutch in Leiden, 0.5% of Serbs in Novi Sad, 0.5% of Polish in Podlasie
Other parts that have been found to contain a significant proportion of haplogroup T-M184 individuals include Trentino, Mariña Lucense, Heraklion, Roslavl, Ourense, Livny, Biella, Entre Douro, Porto, Urbino, Iberian Peninsula, Blekinge/Kristianstad, Belarus, Modena, Provence-Alpes-Côte d'Azur, Pristen, Cáceres, Brac, Satakunta, Western Croatia, Ukrainia, Greifswald, Moldavians in Sofia, Uppsala, Lublin, Pias in Beja, Macedonian Greeks, Nea Nikomedeia, Sesklo/Dimini, Lerna/Franchthi, Açores, Viana do Castelo, Toulouse, Belgorod, Sardinia. According to data from commercial testing, 3.9% of Italian males belonging to this haplogroup. Approximately 3% of Sephardi Jews and 2% of Ashkenazi Jews belong to haplogroup T.

Middle East and Caucasus

Haplogroup T has some significant frequencies in southeast and eastern Anatolia, the Zagros Mountains and both sides of the Persian Gulf.
PopulationLanguageLocationMembers/Sample sizePercentageSourceNotes
GeorgiansGeorgian Khashuri1/333.3%
Priest ZoroastriansPersianShiraz, Tehran and Yazd2/825%Not specified if Herbad or Mobad
Iraqi JewsJudeo-Iraqi Arabic Iraq7/3221.9%12.5% T1a1a1a1a1a1-P77 and 9.4% T1a3-Y11151
Armenian SasuntzisWestern Armenian dialect, Kurmanji and Dimli languagesSasun21/10420.2%T1a1 and T1a2 subclades
GeorgiansGeorgian Sighnaghi and Gurjaani2/1020%
GeorgiansGeorgian Kharagauli1/520%
KumyksKumyk Daghestani lowlands2/1020%Reported as K* but according to Karafet16 and Yunusbayev12 only T fits.
Kurdish JewsJudeo-Aramaic Kurdistan19/9919.2%
Kurdish JewsJudeo-Aramaic Kurdistan9/5018%10% T1a1a1a1a1a1-P77 and 8% T1a1-L162
DruzesPalestinian Arabic Galilee7/4017.5%
AssyriansAramaic refugees in Armenia16/10615.1%Reported as K*. Their homeland in the areas around Urmia.
AssyriansAramaic Unknown4/2814.3%
GeorgiansGeorgian Dusheti1/714.3%
Iranian JewsJudeo-Iranian Iran3/2213.6%4.5% T1a1a1a1a1a1-P77 and 9.1% T1a3-Y11151
ZoroastriansPersianKerman5/3713.5%
Iraqi JewsJudeo-Iraqi Arabic Iraq13/9913.1%
BakhtiarisBakhtiari Izeh13/10312.6%
Mountain JewsJudeo-Tat Derbentsky District2/1711.8%All belong to T1a1a1a1a1a1-P77
ArmeniansWestern Armenian dialectHistorical Southwestern Armenia11/9611.5%
AbudhabiansGulf Arabic Abu Dhabi21/19111%
AssyriansAssyrian West Azerbaijan Province4/3910.3%
Iranian JewsJudeo-Iranian Iran5/4910.2%
Persian MuslimsPersianShiraz5/519.8%
Persian MuslimsPersianKerman6/669.1%
IraqisIraqi Arabic Al-Qadisiyah6/698.7%
ArmeniansArmenianArmenia35/4138.5%
KurdsSorani Kurdestan5/598.5%
Omani ArabsOmani Arabic Oman10/1218.3%
KurdsSorani Kurdestan2/258%
AzerisAzeri West Azerbaijan Province5/637.9%
MazanderanisMazanderan Mazandaran1/137.7%
CypriotsCypriot GreekCyprus3/417.3%
IraqisIraqi Arabic Iraq10/1397.2%
KuwaitisGulf Arabic Kuwait3/427.1%
IraqisIraqi Arabic Iraq3/437%
ArabsLevantine ArabicIsrael and Palestine10/1437%
PersiansFarsi Fars3/446.8%
Christian ArabsLevantine ArabicIsrael and Palestine3/446.8%
Western ArmeniansArmenianEastern Turkey6/906.7%
PersiansFarsi Yazd3/466.5%
ArmeniansArmenianGardman6/966.3%
YezidisKurmanji refugees in Armenia12/1966.1%Reported as K*. Their homeland in the areas around Laliş.
Muslim ArabsLevantine ArabicIsrael and Palestine7/1195.9%
Zahedan, Baluchestan, Iran6/1035.8%
Northern ArmeniansArmenianNorthern Armenia, southern Georgia and northwestern Azerbaijan 10/1895.3%
ArmeniansArmenianTehran2/385.3%
Eastern ArmeniansArmenianKarabakh11/2155.1%
PersiansFarsi Khorasan3/595.1%
Saudi ArabiansArabic dialects Saudi Arabia8/1575.1%
ArmeniansArmenianSyunik7/1405%
EmiratisGulf Arabic United Arab Emirates8/1644.9%
Lebanese MuslimsLebanese Arabic Lebanon28/5684.9%
CypriotsCypriot GreekLemesos6/1264.8%
KumyksKumyk Khasavyurtovsky District1/214.8%
AvarsAvar southeastern Dagestan2/424.8%
KurdsKurmanji Anatolia12/2514.8%
KurdsKurdish dialects Kurdistan6/1264.8%
AnizesGulf Arabic Kuwait1/214.7%
LebanesesLevantine Arabic Lebanon43/9144.7%
CypriotsCypriot GreekCyprus3/654.6%
MaronitesLebanese Arabic and Syriac Lebanon24/5184.6%
ArmeniansArmenianArarat2/444.6%
Muslim KurdsKurdish dialects Kurdistan4/954.2%
QeshmisQishmi Qeshm2/494.1%
LursLuri Lorestan2/504%
SadatsLanguages of IranDifferent cities of Iran2/504%
PersiansPersianEastern Iran3/773.9%
ArmeniansArmenianLake Van4/1033.9%
Saudi ArabiansArabic dialects Saudi Arabia4/1063.8%
Turkish CypriotsCypriot Turkish138 different villages, towns or cities from Cyprus14/3803.7%Paternal lineages originating from the traditional Turkish Cypriot settlements throughout the island
Birjand, South Khorasan, Iran1/273.7%All T1a3-Y12871
ArmeniansArmenianArarat Valley4/1103.6%
ArmeniansArmenianArmenia2/573.5%
GeorgiansGeorgian Omalo1/293.5%
IraniansLanguages of IranSouth Iran4/1173.4%
IoniansGreekPhokaia1/313.2%
BandarisBandari Bandar Abbas4/1313.1%
CypriotsCypriot GreekLarnaka2/673%
AlansKarachay-Baksan-Chegem Kabardino-Balkaria1/692.9%
JordaniansArabic dialects Jordania8/2732.9%
CypriotsCypriot GreekAmmochostos3/1222.5%
LezghinsLezgian Southern Dagestan2/812.5%
TurksTurkishTurkey13/5232.5%
PersiansPersian Esfahan1/132.4%
IraniansLanguages of IranIran7/3242.2%
Azerbaijani MuslimsAzerbaijani Uromia2/912.2%
Yemenite JewsHebrew and ArabicYemen2/942.1%
AndisAndi western Dagestan1/492%
CypriotsCypriot GreekPaphos2/1051.9%
CypriotsCypriot GreekNicosia3/1611.9%
AssyriansAssyrian Neo-Aramaic Uromia and Tehran1/551.8%
AbkhaziansAbkhaz Abkhazia1/581.7%
KuwaitisGulf Arabic Kuwait2/1171.7%
Greek OrthodoxKoine GreekLebanon2/1161.7%
Mashhad, Razavi Khorasan, Iran2/1291.6%0.8% T1a3-Y11151
AeoliansGreekSmyrna1/681.5%
GeorgiansGeorgian Georgia1/661.5%
TurkmensTurkmen Golestan1/681.5%
KumyksKumyk Northern Dagestan1/731.4%
Kuban NogaysNogai north of Sea of Azov around Prymorsk1/871.2%
Ossetian DigorsDigorian North Ossetia1/1270.8%
Yemeni ArabsSanaani Arabic Sana'a1/1290.8%
SyriansSyrian Arabic Syria4/5180.8%
KabardinsKabardian Kabardino-Balkaria1/1400.7%
CircassiansAdyghe Republic of Adygea1/1420.7%
AbkhaziansAbkhaz Abkhazia1/1620.6%

There are also unconfirmed reports of T-M70+ amongst 28% of Lezginians in Dagestan, 21.7% of Ossetians in Zamankul, 14% of Iranians in Isfahan, 13% of Ossetians in Zil'ga, 12.6% of Kurmanji Kurds in Eastern Turkey, 11.8% of Palestinian Arabs in Palestine, 8.3% of Iranians in Shiraz, 8.3% of Ossetians in Alagir, 8% of Kurmanji Kurds in Georgia, 7.5% of Iranians in Tehran, 7.4% of Palestinian Arabs in Israeli Village, 7% of Palestinian Arabs in Israel and Palestine, 5% of Chechens in Chechenia, 4.2% of Azerbaijanians in Azerbaijan, 4.1% of Iranians in Isfahan, 4% of Armenians in Armenia, 4% of Bedouins in Israel and 2.6% of Turks in Ankara.

Africa

Fossils excavated at the Late Neolithic site of Kelif el Boroud in Morocco, which have been radiocarbon-dated to around 3,000 BCE, have been found to belong to haplogroup T-M184.
PopulationLanguageLocationMembers/Sample sizePercentageSourceNotes
Somalis Somali Djibouti24/24100%The main sub-clans of the Dir clan in Djibouti are the Issa and Gadabuursi.
Somalis Somali Dire Dawa14/1782.4%Dir sub-clans of Dire Dawa are Issa, Gurgura and Gadabuursi.
AnteonyAntemoro old Antemoro Kingdom22/3759.5%The Anteony are the descendants of aristocrats, from whom the Antemoro king is chosen. Can be grouped into the Silamo, because they have the right to undertake the ritual slaughter of animals
Somalis and AfarsSomali and Afar Djibouti30/5456.6%Mixed sample of Somali and Afar individuals.
Somalis Somali Shilavo 5/1050%The geographic location of this Ethiopia sample as seen in Fig.1.
ToubouToubouChad31%All belonging to the T1a-PF5662 subclade
AfarsAfar language Djibouti5/2025%
AkieAkie people Tanzania3/1323.1%Akie people have remnants of a Cushitic language
SomalisSomali Jijiga 19/8322.9%Jijiga Somalis.
Arabs from SomaliaSomali immigrants in Yemen7/3321.2%
LembaVenda and Shona South Africa6/3417.6%Exclusively belong to T1a2*. Possible recent founder effect. Low frequency of T1a2 has been observed in Bulgarian Jews and Turks but is not found in other Jewish communities. Y-str Haplotypes close to some T1a2 Armenians.
RangiRangi Language Tanzania5/3215.6%
-Somalia15/10514.3%-
IraqwIraqw language Tanzania6/4712.8%
WachaggaKichagga Dār as-Salām3/2412.5%Mixed with Rift Southern Cushites.
SomaliSomali immigrants to Norway12/10411.5%
BenchBenchBench Maji Zone14/12611.4%
KoresSNNP2/1811.1%
OromoAfaan Oromo language Oromiyaa1/911.1%
FulbeFulanorthern Cameroon3/2711.1%
GorowaGorowa language Tanzania2/1910.5%
SomaliSomali immigrants to Denmark21/20110.4%
Upper EgyptiansEgyptian ArabicLuxor Governorate3/2910.3%
KontasKonta language Konta special woreda11/10710.3%
RendilleRendille language Marsabit County3/319.7%
DatogsRendille language Tanzania3/319.7%
GewadasGewada language SNNP11/1169.5%
AntalaotraAntemoro old Antemoro Kingdom4/439.3%The Antalaotra are in charge of the magical and religious domains; they have the ability to read and write Sorabe. Can be grouped into the Silamo, because they have the right to undertake the ritual slaughter of animals
Upper EgyptiansEgyptian ArabicAswan Governorate1/119.1%
N’Djamena MixMixN’Djamena5/559.1%Marc Haber 2016All belonging to the T1a-PF5662 subclade
Upper EgyptiansEgyptian ArabicAssiut Governorate6/708.6%
KonsosKonso special woreda2/248.3%
SomaliSomali immigrants to Sweden12/1478.2%
Arabs and BerbersEgyptian Arabic and SiwiLower Egypt12/1478.2%
Upper EgyptiansEgyptian ArabicSohag Governorate4/527.7%
EgyptiansErythraic Egypt7/927.6%If the K* sample is M184+ then 8.7%
TigrayansTigrinya Tigray Region2/306.7%
DirashasDirasha Dirashe special woreda5/796.3%
CanariansCanarian SpanishTenerife11/1786.2%
KordofaniansKordofanianKurdufan4/695.8%
Upper EgyptiansEgyptian ArabicQena Governorate3/525.8%
TuaregTuareg Gorom-Gorom1/185.6%
AfarsAfar Afar Region6/1115.4%
EthiopiansEthiopian languagesEthiopia4/745.4%
MashilesMashile language SNNP7/1305.4%
GuragesGurage languages SNNP6/1185.1%
TuruNyaturu Tanzania1/205%
Moroccan JewsHaketia Israel1/205%
GedeosGedeo SNNP6/1224.9%
WairakIraqw Tanzania2/414.9%
Western LibyansLibyan Arabic Tripoli region7/1424.9%
TunisiansTunisian Arabic Sfax5/1054.8%
LibyansLibyan Arabic Tripoli area3/634.8%
KanuriKanuriCameroon1/214.8%
IraqwIraqw Tanzania2/434.7%
YemsYemsa SNNP5/1074.7%
JewsEthiopia1/224.5%
GobezeCushiticSNNP5/1134.4%
Upper EgyptiansEgyptian ArabicMinya Governorate1/234.3%
KonsosKonso language Konso special woreda4/944.3%
KembaatasEast CushiticKembata Tembaro Zone4/1023.9%
TigrayansTigrinya Eritrea1/283.6%
TigrayansTigrinya Eritrea1/313%
AmharasAmharic Ethiopia1/342.9%
HutusRwanda-Rundi Rwanda1/392.6%
Lower EgyptiansEgyptian Arabic Mansoura1/442.2%
BerbersShilha Siwa Oasis2/932.2%
BerbersJerba Berber Djerba1/472.1%
MeruMeru Tanzania2/992%
ItamIbibioObong Itam 1/502%
Cape VerdeansCape Verdean Creole Windward islands São Nicolau, São Vicente, and Santo Antão2/1012%
OvimbundoUmbundu and PortugueseAngola1/531.9%
TunisiansTunisian Arabic Tunis1/541.9%
BerbersShilha Asni1/541.9%
Eastern LibyansLibyan Arabic Benghazi4/2141.9%
AlgeriansAlgerian Arabic Algeria3/1641.8%
BaribasBaatonum Benin1/571.8%T1a-M70
BokorasKaramojong Karamoja region1/591.7%
Lower EgyptiansEgyptian Arabic Cairo1/631.6%
TumbukaTumbuka northern Malawi1/611.6%
MozabitesMozabite Ghardaia1/681.5%
TunisiansTunisian Arabic South Tunisia3/2001.5%
SoussiansTunisian Arabic Sousse3/2201.4%
ChewaChewa Malawi1/921.1%
MaasaiMaasai Kinyawa 1/1001%YHRD
BantuNarrow Bantu Pretoria1/981%
NilotesAteker Karamoja region1/1180.8%
AndalusiansAndalusian Arabic Testour, El Alia, Gualaat-El-Andalous, Slouguia1/1320.8%Refugees from Al-Andalus following the capitulation of the Islamic kingdoms in Valencia and Granada
BantusBantuBotswana, Namibia and Zambia1/1400.7%Father and paternal grandfather belonged to the same ethnolinguistic group
BasothosSesotho Lesotho1/1810.6%
MoroccansMoroccan Arabic Casablanca metropolitan area1/1660.6%The industrial capital of Morocco where the urban growth is maintained by immigration from all parts of Morocco
KhoisansKhoisanBotswana, Namibia and Zambia1/3710.3%Father and paternal grandfather belonged to the same ethnolinguistic group

South Asia

Haplogroup T-M184 has been detected at very high levels in some parts of eastern India.
T1a-M70 in India has been considered to be of West Eurasian origin.
PopulationLanguageLocationMembers/Sample sizePercentageSourceNotes
KurruYerukala Andhra Pradesh10/1855.6%
BaurisBengali West Bengal10/1952.6%K* is found at 6/19, if M70- but M184+, then could be 84.2%. Bauris are thought to be descendants of a native tribe of the Central Highlands before the Aryan invasion, then as Bauris have not been well assimilated and have not participated satisfactorily in the new Aryan society, the Bauris ended up being seen as "low caste". They are at "halfway" between the old Bauri tribal and the new Aryan society lifestyle.
LodhaLodhi West Bengal2/450%
RajusTelugu Andhra Pradesh3/1915.9%
MaheliMahali West Bengal2/1315.3%
ChenchusChenchu Andhra Pradesh3/2015%K* is found at 7/20, if M70- but M184+, then could be 50%
Kare VokkalKannada Uttara Kannada4/3013.3%K* is found at 3/30, if M70- but M184+, then could be 23.3%
BanjarasLambadi Andhra Pradesh2/1811.1%
GondsGondi South Uttar Pradesh4/3810.6%
GondsGondi Madhya Pradesh10/1397.2%
Indianslanguages of IndiaSouth India18/3055.9%
MaheliMahali Jamshedpur from Jharkhand; Purulia, Midnapore & other location from West Bengal2/385.3%Two samples from different studies grouped together
ChenchusChenchu Andhra Pradesh3/614.9%Samples from Trivedi et al. and Kivisild et al.
BanjarasLambadi Andhra Pradesh2/533.8%Two samples from different studies grouped together
Indianslanguages of IndiaEast India14/3673.8%
GujaratisGujarati Gujarat1/293.4%
LodhaLodhi Midnapore & other location from West Bengal2/712.8%Three samples from different studies grouped together
SahariyasSaharia Madhya Pradesh2/732.7%
TamtasBageshwar1/342.9%
KshatriyasPithoragarh2/792.5%
AryasArya Nainital1/462.2%
LaotiansLao Laos1/531.9%
MaravarsTamil Ramanathapuram1/801.3%Dry Land Farmers
GarosGaro Tangail1/1200.8%Likely P77+

With K-M9+, unconfirmed but probable T-M70+: 56.6% of Kunabhis in Uttar Kannada, 32.5% of Kammas in Andhra Pradesh, 26.8% of Brahmins in Visakhapatnam, 25% of Kattunaiken in South India, 22.4% of Telugus in Andhra Pradesh, 20% of Ansari in South Asia, of Poroja in Andhra Pradesh, 9.8% of Kashmiri Pandits in Kashmir, 8.2% of Gujars in Kashmir, 7.7% of Siddis in Andhra Pradesh, 5.5% of Adi in Northeast India, 5.5% of Pardhans in Adilabad, 5.3% of Brahmins in Bihar, 4.3% of Bagata in Andhra Pradesh, 4.2% of Valmiki in Andhra Pradesh, of Brahmins in Maharashtra, 3.1% of Brahmins in Gujarat, 2.9% of Rajput in Uttar Pradesh, 2.3% of Brahmins in Peruru, and 1.7% of Manghi in Maharashtra.
Also in Desasth-Brahmins in Maharashtra and Chitpavan-Brahmins in Konkan, Chitpavan-Brahmins in Konkan.

Central Asia & East Asia

Unconfirmed but probable T-M70+: 2% of Hui in Liaoning, and 0.9% of Bidayuh in Sarawak.

Americas (post-colonisation)

Ancient DNA

Ancient DNA from 'Ain Ghazal

Ain Ghazal PPNB individualGhazal-I I1707 AG83_5 Poz-81097
Y DNAT1-PF5610
PopulationNeolithic Farmers
Language
Inferred cultural
affiliation		Late Middle PPNB
Date 9573 ± 39
House/locationAin Ghazal
Number 1/2
Percentage50%
mtDNAR0a
Isotope Sr
Eye colorLikely non-Dark
Hair colorLikely non-Dark
Skin pigmentationLight
ABO Blood GroupLikely O or B
Diet
FADS activityrs174551, rs174553, rs174576
Lactose
intolerance		Likely lactose-intolerant
DNA shared
with Oase-1		14.2%
DNA shared
with Ostuni1 remains		6.7%
SDNA shared
with Neanderthal Vi33.26		0.93%
DNA shared
with Neanderthal Vi33.25		1.2%
DNA shared
with Neanderthal Vi33.16		0.3%
Ancestral
components 		Neolithic Anatolia/Southeast Europe: 56.82%, Paleolithic Levant : 24.09%, Caucasus Hunter / Early European Farmer: 12.51%, Scandinavian / West European Hunter: 4.16%, Sub Saharan: 2.04%, East European Hunter: 0.37%
puntDNAL K12 Ancient
Dodecad
Eurogenes
Dodecad
Genetic distance
Parental
consanguinity
Age at death
Death position
SNPs152.234
Read Pairs
Sample
SourceLazaridis 2016
NotesEvidence of a northerly origin for this population, possibly indicating an influx from the region of northeastern Anatolia.

Haplogroup T is found among the later middle Pre-Pottery Neolithic B inhabitants from the 'Ain Ghazal archaeological site. It was not found among the early and middle PPNB populations. It is thought that the Pre-Pottery Neolithic B population is mostly composed of two different populations: members of early Natufian civilisation and a population resulting from immigration from the north, i.e. north-eastern Anatolia. However, Natufians have been found to belong mostly to the E1b1b1b2 lineage – which is found among 60% of the whole PPNB population and 75% of the 'Ain Ghazal population, being present in all three middle PPNB stages.
Later middle PPNB populations in the Southern Levant were already witnessing severe changes in climate that would have been exacerbated by large population demands on local resources. Beginning at 8.9 cal ka BP we see a significant decrease in population in highland Jordan, ultimately leading to the complete abandonment of almost all central settlements in this region.
The 9th millennium Pre-Pottery Neolithic B period in the Levant represents a major transformation in prehistoric lifeways from small bands of mobile hunter–gatherers to large settled farming and herding villages in the Mediterranean zone, the process having been initiated some 2–3 millennia earlier.
'Ain Ghazal is situated in a relatively rich environmental setting immediately adjacent to the Wadi Zarqa, the longest drainage system in highland Jordan. It is located at an elevation of about 720m within the ecotone between the oak-park woodland to the west and the open steppe-desert to the east.
Evidence recovered from the excavations suggests that much of the surrounding countryside was forested and offered the inhabitants a wide variety of economic resources. Arable land is plentiful within the site's immediate environs. These variables are atypical of many major neolithic sites in the Near East, several of which are located in marginal environments. Yet despite its apparent richness, the area of 'Ain Ghazal is climatically and environmentally sensitive because of its proximity throughout the Holocene to the fluctuating steppe-forest border.
The Ain Ghazal settlement first appear in the middle PPNB, which is split into two phases. Phase 1 starts 10300 yBP and ends 9950 yBP, phase 2 ends 9550 yBP.
The estimated population of the middle PPNB site from ‘Ain Ghazal is of 259-1,349 individuals with an area of 3.01-4.7 ha. Is argued that at its founding at the commencement of the middle PPNB ‘Ain Ghazal was likely 2 ha in size and grew to 5 ha by the end of the middle PPNB. At this point in time their estimated population was 600-750 people or 125-150 people per hectare.

Notable haplogroup members

Elite endurance runners

Possible patterns between Y-chromosome and elite endurance runners were studied in an attempt to find a genetic explanation to the Ethiopian endurance running success. Given the superiority of East African athletes in international distance running over the past four decades, it has been speculated that they are genetically advantaged. Elite marathon runners from Ethiopia were analysed for K* which according to the previously published Ethiopian studies is attributable to the haplogroup T
According to further studies, T1a1a* was found to be proportionately more frequent in the elite marathon runners sample than in the control samples than any other haplogroup, therefore this y-chromosome could play a significant role in determining Ethiopian endurance running success. Haplogroup T1a1a* was found in 14% of the elite marathon runners sample of whom 43% of this sample are from Arsi province. In addition, haplogroup T1a1a* was found in only 4% of the Ethiopian control sample and only 1% of the Arsi province control sample. T1a1a* is positively associated with aspects of endurance running, whereas E1b1b1 is negatively associated.

Thomas Jefferson

A notable member of the T-M184 haplogroup is American President Thomas Jefferson. The Y-chromosomal complement of the Jefferson male line was studied in 1998 in an attempt to resolve the controversy over whether he had fathered the mixed-race children of his slave Sally Hemings. A 1998 DNA study of the Y chromosome in the Jefferson male line found that it matched that of a descendant of Eston Hemings, Sally Hemings' youngest son. This confirmed the body of historical evidence, and most historians believe that Jefferson had a long-term intimate liaison with Hemings for 38 years, and fathered her six children of record, four of whom lived to adulthood. In addition, the testing conclusively disproved any connection between the Hemings descendant and the Carr male line. Jefferson grandchildren had asserted in the 19th century that a Carr nephew had been the father of Hemings' children, and this had been the basis of historians' denial for 180 years.
Jefferson's paternal family traced back Wales, where T is incredibly rare, as it is throughout Britain. A couple of British males with the Jefferson surname have been found with the third president's type of T, reinforcing the idea that his immediate paternal ancestry was British.

Phylogenetic tree

Nomenclatural history

Prior to 2002, there were in academic literature at least seven naming systems for the Y-Chromosome Phylogenetic tree. This led to considerable confusion. In 2002, the major research groups came together and formed the Y-Chromosome Consortium. They published a joint paper that created a single new tree that all agreed to use. Later, a group of citizen scientists with an interest in population genetics and genetic genealogy formed a working group to create an amateur tree aiming at being above all timely. The table below brings together all of these works at the point of the landmark 2002 YCC Tree. This allows a researcher reviewing older published literature to quickly move between nomenclatures.
YCC 2002/2008 YCC 2002 YCC 2005 YCC 2008 YCC 2010r ISOGG 2006ISOGG 2007ISOGG 2008ISOGG 2009ISOGG 2010ISOGG 2011ISOGG 2012ISOGG 2013
T-M18426VIII1U25Eu16H5FK*KTTK2K2TTTTTT
K-M70/T-M7026VIII1U25Eu15H5FK2K2TT1K2K2TTTT1T1aT1a
T-P7726VIII1U25Eu15H5FK2K2T2T1a2K2K2T2T2T2a1T1a1bT1a1a1T1a1a1

Original research publications

The following research teams per their publications were represented in the creation of the YCC Tree.
α and
β
γ
δ
ε
ζ
η

Y-DNA backbone tree

Original research

Other works cited