Haplogroup J1 - The Generations of Noah

Sons of Shem (semites) - Part I

• The birthright was passed to Shem, the youngest son of Noah, as priest of God in the order of Melchisedek. The descendants of Shem carried the priesthood down to Abraham and on into the lines of the descendants of Abraham. Shem produced a number of children and from them sprung a number of important nations of the world. The sons of Shem intermingled with the sons of Ham and Japheth, and God’s promises to the world would be fulfilled in that mixing of nations.
• The Generations of Noah, also called the Table of Nations, is a genealogy of the sons of Noah, according to the Hebrew Bible (Genesis 10:9)
  
  
• Noah had three sons born to him, Shem, Ham, and Japheth, before God sent a flood to destroy the world (Genesis 5:32). 
• Shem was the second-born (Genesis 9:18; 10:2, 21). Japheth was the oldest and Ham was the youngest (Genesis 9:24). 
  - (the Bible often lists people according to prominence rather than age).
  
  
• The sons of Shem (Genesis 10:21–30); Elam and Asshur, Arphaxad, Lud and Aram, who were the ancestors of Aaron, the brother of Moses.
  
  
• We know for certain that the Elamites became the Persians, the sons of Asshur became the Assyrians, the sons of Arphaxad became the Hebrews, and Aram became the Syrians and the source of the name of the Aramaic language. They also later went north into Armenia. 
  

http://www.ccg.org/english/s/p212A.html

T=1767927174 Human Date and time (GMT): Fri, 9th Jan, 2026, 02.52

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Eupedia Home > Genetics > Haplogroups (home) > Haplogroup J1 

Haplogroup J1 (Y-DNA)

Author: Maciamo Hay
Last update October 2021 (famous people)

Contents
1. Origins & History 2. Geographic distribution 3. Phylogeny 3.1 J1-P58 3.1.1 Is J1-P58 the main Arabic haplogroup? 3.2 Other subclades 4. Famous J1 individuals

Origins & History

The first J1 men lived in the Late Upper Paleolithic, shortly before the end of the last Ice Age. The oldest identified J1 sample to date comes from Satsurblia cave (c. 13200 BCE) in Georgia (Jones et al. (2015)), placing the origins of haplogroup J1 in all likelihood in the region around the Caucasus, Zagros, Taurus and eastern Anatolia during the Upper Paleolithic.

Like many other successful lineages from the Middle East, J1 is thought to have undergone a major population expansion during the Neolithic period. Chiaroni et al. (2010) found that the greatest genetic diversity of J1 haplotypes was found in eastern Anatolia, near Lake Van in central Kurdistan. Eastern Anatolia and the Zagros mountains are the region where goats and sheep were first domesticated, some 11,000 years ago. Chiaroni et al. estimated that J1-P58 started expanding 9,000 to 10,000 years ago as pastoralists from the Fertile Crescent. Although they did not analyze the other branches, it is likely that all surviving J1a1b (L136) lineages share the same origin as goat and sheep herders from the Taurus and Zagros mountains.

. . . 

The mountainous terrain of the Caucasus, Anatolia and modern Iran, which wasn't suitable for early cereal farming, was an ideal ground for goat and sheep herding and catalyzed the propagation of J1 pastoralists. Having colonised most of Anatolia, J1 herders would have settled the mountainous regions of Europe, including the southern Balkans, the Carpathians, central and southern Italy (Apennines, Sicily, Sardinia), southern France (especially Auvergne), and most of the Iberian peninsula. Hotspots of J1 in northern Spain (Cantabria, Asturias) appear to be essentially lineages descended from these Southwest Asian Neolithic herders. Most J1 Europeans belong to the J1-Z1828 branch, which is also found in Anatolia and the Caucasus, but not in Arabic countries. The Z1842 subclade of Z1828 is the most common variety of J1 in Armenia and Georgia. There are also two other minor European branches: J1-Z2223, which has been found in Anatolia and Western Europe, and J1-M365.1, also found a bit everywhere across Western Europe. Their very upstream position in the phylogenetic tree and their scarcity in the Middle East suggests that these were among the earliest J1 lineages to leave the Middle East, perhaps as Late Paleolithic or Mesolithic hunter-gatherers that wandered outside Anatolia and, pushed by successive waves of migrations from the Neolithic to the Bronze Age, ended up in Western Europe. Within the Middle East, SNP analysis shows that the J1-L136 branch migrated south from eastern Anatolia and split in four directions: Anatolia/Europe (PF7263), the Levant, the southern Zagros (and southern Mesopotamia ?), and the mountainous south-western corner of the Arabian peninsula (mostly in Yemen), bypassing the Arabian Desert. That latter group, consisting essentially of J1-P56 lineages, crossed the Red Sea to settle Sudan, Eritrea, Djibouti and northern Somalia. The climate would have been considerably less arid than today during the Neolithic period, allowing for a relatively easy transmigration across the Middle East with herds of goats. Neolithic J1 goat herders were almost certainly not homogenous tribes consisting exclusively of J1 lineages, but in all likelihood a blend of J1 and T1 lineages. So much is evident from the presence of both J1 and T1 in north-east Africa, Yemen, Saudi Arabia, but also in the Fertile Crescent, the Caucasus and the mountainous parts of southern Europe. Maternal lineages also correlate. Wherever J1 and T1 are found in high frequency, mtDNA haplogroups HV, N1 and U3 are also present, as well as J, K and T to a lower extent (=>see Correlating the mtDNA haplogroups of the original Y-haplogroup J1 and T1 herders). It is unclear whether goats were domesticated by a tribe that already comprised both J1 and T1 lineages, or if the merger between the two groups happened during the Neolithic expansion, when two separate tribes would have bumped into each others, intermixed, and thereafter propagated together. Bronze Age expansion of J1-P58 Kitchen et al. (2009)estimated through a Bayesian phylogenetic analysis that Semitic languages originated in the Levant around 3,750 BCE, during the Early Bronze Age. It evolved into three groups: East Semitic (an extinct branch that comprised Akkadian), Central Semitic (which gave rise to Aramaic, Ugaritic, Phoenician, Hebrew and Arabic), and South Semitic (South Arabian and Ethiopian). J1-P58, the Central Semitic branch of J1, appears to have expanded from the southern Levant (Israel, Palestine, Jordan) across the Arabian peninsula during the Bronze Age, from approximately 3,500 to 2,500 BCE. Camels were domesticated in Somalia and southern Arabia c. 3,000 BCE, but did not become widely used in the southern Levant before approximately 1,100 BCE. Camels played an important role in the further diffusion of J1-P58 lineages, notably with the Bedouins in the desertic parts of the Middle East and North Africa. Bedouins now make up a substantial percentage of the population of Sudan (33%), Libya (15%), the United Arab Emirates (8%) and Saudi Arabia (5%). The two most common Jewish subclades of J1 downstream of P58 are Z18297 and ZS227. The latter includes the Cohanim haplotype. Most of the other branches under P58 could be described as Semitic, although only FGC12 seems to be genuinely linked to the medieval Arabic expansion from Saudi Arabia. . . .  Geographic distribution Distribution of haplogroup J1 in Europe, the Middle East & North Africa https://www.eupedia.com/images/content/Haplogroup-J1.png

Frequencies of haplogroup J1 in Europe and West Asia tend to vary considerably from one regional community to the next. The highest local percentages in Europe are found in Greece, Italy, France, Spain and Portugal and hardly ever exceed 5% of the population. However Italy, France and Spain also have areas where J1 appears completely absent. Even in northern Europe, where the nation-wide frequencies are below 0.5%, very localised pockets of J1 have been observed in Scotland, England, Belgium, Germany and Poland. Larger sample sizes are needed to get a clearer picture of the distribution of J1 in Europe.

Surprisingly, even in the Caucasus and in Anatolia, the region where this haplogroup is thought to have originated, there are wide discrepancies between regions. For example, the Kubachi and Dargins from Dagestan in the Northeast Caucasus have over 80% of J1 lineages, while in their Ingush neighbours, 200 km to the north, it barely reaches 3%. East Anatolia around Lake Van sees over 30% of J1, whereas south-west Anatolia has only 2%. Even within Kurdistan frequencies vary greatly. The small sample sizes for each region is surely to blame.

In Arabic countries, J1 climaxes among the Marsh Arabs of South Iraq (81%), the Sudanese Arabs (73%), the Yemeni (72%), the Bedouins (63%), the Qatari (58%), the Saudi (40%), the Omani (38%) and the Palestinian Arabs (38%). High percentages are also observed in the United Arab Emirates (35%), coastal Algeria (35%), Jordan (31%), Syria (30%), Tunisia (30%), Egypt (21%) and Lebanon (20%). Most of the Arabic J1 belongs to the J1-P858 variety. 

Phylogeny of J1

If you are new to genetic genealogy, please check our Introduction to phylogenetics to understand how to read a phylogenetic tree.

https://cache.eupedia.com/images/content/J1-tree.gif

The above phylogenetic tree was is based on the data from Yfull.com, but using the Family Tree DNA nomenclature whenever possible. Main subclades are highlighted in green.

J1 can be divided in two main groups: the very large J1-P58 subclade, and the other branches of J1.

Southwest Asian J1-P58

J1-P58 (J1a2b on the ISOGG tree, formerly known as J1e, then as J1c3) is by far the most widespread subclade of J1. It is a typically Semitic haplogroup, making up most of the population of the Arabian peninsula, where it accounts for approximately 40% to 75% of male lineages.

J1-P58 is thought to have expanded from eastern Anatolia and the southern Caucasus to the Taurus and Zagros mountains, then Mesopotamia, and eventually the Arabian peninsula at the end of the last Ice Age (12,000 years ago) with the seasonal migrations of goat and sheep pastoralists. It is during the Neolithic that subclades like L860 and L93 would have reached the mountainous parts of the southern Arabian peninsula (Yemen, Oman), whereas L816 and L862 remained in the Fertile Crescent.

Arabic speakers recolonised the Arabian peninsula in the Bronze Age from the north-west of the peninsula, close to present-day Jordan. The rise of Islam in the 7th century CE played a major part in the re-expansion of J1 from Arabia throughout the Middle East, as well as to North Africa, and to a lower extent to Sicily, Spain and Portugal.

The numerous subclades downstream of L858 represent the expansion of Semitic languages, such as Akkadian, Ugaritic, Phoenician, Aramaic and Hebrew. Only the FGC12 subclade is linked to the propagation of Islam and the Arabic language from Saudi Arabia from the 7th century CE. Yet even this subclade is shared by the Bedouins and a minority of Jews.

About 20% of Jewish people belong haplogroup J1-P58, most of whom are also positive either for ZS227, L858 (Z642, YSC76 and FGC12) or Z18297. L816 represents a minority of Jewish J1. ZS227 comprises the Cohen Modal Haplotype.

In the Hebrew Bible, the common ancestor of all Cohens is identified as Aaron, the brother of Moses. Roughly half of all Cohanim belong to J1-ZS227. The Cohanim haplotype (YCAII=22-22) of ZS227 matches the Z18271 deep clade.

. . . 

STR haplotypes within J1-P58

For men who tested their Y-DNA with companies such as Family Tree DNA, iGenea or Genebase, certain subclades can be easily identified by specific STR markers.

. . . 

https://cache.eupedia.com/images/content/Haplogroup-J1-P58.png

Is J1-P58 the main Arabic paternal lineage?

Looking at the map of J1-P58, it is easy to assume that P58 is a marker of Arabic ancestry because it reaches its maximum frequency in and around the Arabian peninsula. That would be an oversimplification. It is important to make a clear distinction between people who speak Arabic and those who are genetically Arabic. These are two completely different things. For comparison, people who speak languages descended from Latin (French, Spanish, Portuguese, Italian, Romanian) are not necessarily descended from the ancient Romans of the Latium. Even those who do may not have more than a tiny fraction of their genome which was inherited from actual Roman ancestors. This is why most Romance-language speakers today cannot be considered as genetically Roman. Most present-day Arabic speakers outside the Arabian Peninsula are likewise only very partially or not all Arabic genetically. In the northern half of the Middle East, most of the people who call themselves Arabs of today are in fact mainly descendants of other historic peoples, such as the Phoenicians, Assyrians, Babylonians, or even the Hurrians. Most of these peoples are predominantly J2, with many minority haplogroups (E1b1b, G, J1, L, Q, R1a, R1b, T). The confusion comes from the fact that the Arabic language, which appeared a little more than 1,500 years ago, is much more recent than the haplogroup J1 (31,000 years old) or even the P58 subclade (14,000 years old). Even the J1-L858 subclade (5,000 years old), associated with Southwest Asian people, very clearly predates the Arabic language. The common ancestor of the J1-L858 men alive today dates back to approximately 4500 years ago, a time that corresponds to the development of the the oldest Semitic languages, like Akkadian and Amorite. In fact, L858 is not specific to the Arabian peninsula, but is also found among the Jews (especially Z640 subclade), Lebanese, Syrians and Iraqi, among others. In other words L858 cover all the region where ancient Semitic languages were spoken, well before Arabic even existed. That is why L858 should be seen as more widely Semitic and not just Arabic, even if the many Levantines and Mesopotamians were later Arabicised. The Jews are of the these Semitic people who were not Arabicised, and hardly anyone would argue that Jews are Arabs genetically, or vice versa. The true lineage of the historic Arab people (so mainly from Jordan and Saudi Arabia) is J1-FGC12 (aka S21237). This subclade started expanding in the Arabian peninsula a bit over 3,000 years ago and did experience a tremedous expansion in the last 1,300 years, as can be seen in the completely phylogenetic tree on Yfull.com. Nowadays these more genuinely Arabic J1-FGC12 lineages are found throughout the Arabic-speaking world, but they only represent a small minority of lineages in any region but the Arabian peninsula. The other subclades of J1 cannot be considered to be the paternal descendants of first speakers of Arabic. These other J1 lineages were Arabicized alongside other haplogroups (J2, Q1b, etc.) during the Islamic expansion from the 7th century onward. More importantly, J1-FGC12 is not the only haplogroup that spread with the Arabic expansion linked to the diffusion of Islam. Nowadays only 40% of Saudis and 30% of Jordanians belong to J1 (most but not all to FGC12). E1b1b-M34 is another important Arabic lineage, being found in 25% of Jordanians and 10% of Saudis. Like J1-P58, E-M34 it is also shared with their Semitic cousins, the Jews. Haplogroup E1b1b is considered the prime candidate for the origin and dispersal of Afro-Asiatic languages across northern and eastern Africa and south-west Asia. The Semitic languages appear to have originated within a subclade of the M34 branch of E1b1b. One specific deeper subclade is surely associated with the development of Arabic language and with J1-FGC12, but it hasn't been identified yet. Note that E-M34 itself is many thousands of years old and is also found in non-Semitic countries, including Turkey, Greece, Italy, France and Spain.

Other subclades

Most of the J1 in the Caucasus, Anatolia and Europe is of the non-J1-P58 variety. These branches diverged from one another during the Ice Age and have nothing to do with Semitic people. In fact the origins of J1 lie around the Caucasus, which explains that all branches other than P58 are most common in that region, as well as in Anatolia and Europe.

. . . 

Famous individuals

Clan Graham is a Scottish clan of probable Anglo-Norman origin that settled in Scotland in the 12th century. The clan chief obtained the title of Lord Graham (1445), then Earl of Montrose (1503), Marquess of Montrose (1644), and eventually Duke of Montrose from 1707 to this day. The Clan Graham DNA Project identified the ancestral Graham lineage as belonging to J1a-P58 > [...] > YSC234 > L858 > YSC76 > Y3442 > FGC8223 > BY65 > ZS1541 > L1253 (aka Z18183), a clade that formed about 800 years ago. Notable family members included James Graham, 1st Marquess of Montrose, who served as viceroy and captain general of Scotland, and John Graham of Claverhouse, 1st Viscount Dundee, a Jacobite hero who rallied Highland clans loyal to King James VII. Both have been the subject of works by Walter Scott.

The Hashemites are the royal family of the Hejaz (1916–1925), Iraq (1921–1958), and Jordan (1921–present). The family belongs to the Dhawu Awn, one of the branches of the Hasanid Sharifs of Mecca – also referred to as Hashemites – who ruled Mecca continuously from the 10th century until its conquest by the House of Saud in 1924. Their eponymous ancestor is Hashim ibn Abd Manaf, great-grandfather of the Islamic prophet, Muhammad. The Arab DNA forums and DNA Project admins reported that two test results of members of the Jordanian royal family (private kits) are positive for L859 mutation downstream of FGC12.

The American lexicographer, textbook pioneer and English-language spelling reformer Noah Webster Jr. (1758-1843), after whom the modern Merriam-Webster dictionary was named, most probably belonged to haplogroup J1-BY161126 (downstream of L858 > PF4872 > L829 > CTS2572), based on the resuts from the Webster Y-DNA Surname Project. This branch of J1 is found mostly in the Levant and the western Mediterranean, where it may have been brought by the Phoenicians. Noah was the great-great-great-grand-son of John Webster (1590-1661), 5th Governor of the Connecticut Colony, whose other patrilineal descendants include industrialist Towner K. Webster, Chicago architect Maurice H. Webster, impressionist painter Stokely Webster, author Henry Kitchell Webster, and professor James G. Webster.

According to a study conducted by L.A. Ferydoun Barjesteh van Waalwijk van Doorn and Sahar Khosrovani published in Qajar Studies, Journal of the International Qajar Studies Association, volume VII (2007), Qajar dynasty, the Iranian royal family who ruled over Persia from 1785 to 1925, belonged to haplogroup J1.

Several members of the House of Saud, the ruling royal family of Saudi Arabia, who descend from Muhammad bin Saud, founder of the Emirate of Diriyah, known as the First Saudi state (1744–1818), were confirmed to belong to haplogroup J1-FGC2, downstream of FGC12 (FGC12 > FGC1696 > FGC5 > FGC1 > FGC2).

The acclaimed Jewish actor and director Dustin Hoffman (b. 1937) appears to belongs to haplogroup J1-Z18271 (downstream of ZS227), which corresponds to the lineage of the Y-chromosomal Aaron. During his career, Dustin Hoffman has won 2 Academy Award, was nominated for 5 additional ones, and won 6 Golden Globes out of 13 nominations. He has received the AFI Life Achievement Award in 1999, and the Kennedy Center Honors Award in 2012.

Sheikh Mohammed bin Rashid Al Maktoum (b. 1949), the Vice President and Prime Minister of the United Arab Emirates (UAE), and ruler of the Emirate of Dubai, belongs to haplogroup J1-FGC4465 (downstream of L858 and FGC12) according to the Y-DNA results of several members from the House of Al-Falasi (the ruling royal family of Dubai) at the J1 Y-DNA Project. He is responsible for the growth of Dubai into a global city, as well as the launch of a number of major enterprises including Emirates Airline, DP World, and the Jumeirah Group. Sheikh Mohammed has overseen the development of numerous projects in Dubai including the creation of a technology park and a free economic zone, Dubai Internet City, Dubai Media City, the Dubai International Finance Centre, the Palm Islands and the Burj Al Arab hotel. He also drove the construction of Burj Khalifa, the tallest building in the world.

Milorad Dodik (b. 1959) is a Bosnian Serb politician, currently serving as the Serb member of the Presidency of Bosnia and Herzegovina, the collective federal head of state and is also its chairman. Dodik was the Prime Minister of Republika Srpska from 1998 until 2001 and from 2006 until 2010 and the President of Republika Srpska from 2010 to 2018. He is assumed to be a member of haplogroup J1 according to a discussion on the Poreklo Forum.

Other famous members of haplogroup J1

• Ibrahim Pasha Qataraghasi : was an Ottoman statesman who served as wali (governor) of Aleppo, Damascus, Diyarbekir and Tripoli eyalets (provinces) in the early 19th century. One of his descendants tested at the Syrian DNA project (kit BP18981) and is a member of the J1-P58 > YSC0000234 > L858 > Z640 clade.
• Alan Dershowitz (b. 1938): is an American lawyer, jurist, and author. He is a prominent scholar on United States constitutional law and criminal law, and a leading defender of civil liberties. In 1967, at the age of 28, he became the youngest full professor of law in the history of Harvard University. His haplogroup was hinted in the PBS TV series Finding Your Roots.
• Bennett Greenspan (b. 1952): genetic genealogy pioneer and founder of Family Tree DNA, the first American company to offer genealogical DNA testing directly to the general public. He belongs to J1-L823.

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SOURCE:
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Blogger owned by G..gl doesn't like Christian or semite related themes and allows moderators to independently cause problems with the post, even layout problems after publication. - Poor people...

- So let's pray for them:

=>

Speak unto Aaron and unto his sons, saying: In this way you shall bless the children of Israel; you shall say to them:


May the LORD bless you, and keep you;
May the LORD make His face shine upon you, and be gracious to you;
May the LORD lift up His face to you, and give you peace.


So shall they put My name upon the children of Israel, and I will bless them."

https://en.wikipedia.org/wiki/Priestly_Blessing


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Generations of Noah

The Generations of Noah, also called the Table of Nations or Origines Gentium,^[1] is a genealogy of the sons of Noah, according to the Hebrew Bible (Genesis 10:9), and their dispersion into many lands after the Flood,^[2] focusing on the major known societies. The term 'nations' to describe the descendants is a standard English translation of the Hebrew word goyim following the c. 400 CE Latin Vulgate's nationes, and does not have the same political connotations that the word entails today.^[3]

The list of 70 names introduces for the first time several well-known ethnonyms and toponyms important to biblical geography,^[4] such as Noah's three sons Shem, Ham, and Japheth, from which 18th-century German scholars at the Göttingen school of history derived the race terminology Semites, Hamites, and Japhetites. Certain of Noah's grandsons were also used for names of peoples: from Elam, Ashur, Aram, Cush, and Canaan were derived respectively the Elamites, Assyrians, Arameans, Cushites, and Canaanites. Likewise, from the sons of Canaan: Heth, Jebus, and Amorus were derived Hittites, Jebusites, and Amorites. Further descendants of Noah include Eber (from Shem), the hunter-king Nimrod (from Cush).

As Christianity spread across the Roman Empire, it carried the idea that all human peoples were descended from Noah. However, not all Mediterranean and Near Eastern peoples were covered in the biblical genealogy; Iranic peoples such as Persians, Indic people such as Mitanni, and other prominent early civilizations such as the Ancient Greeks, Macedonians, and Romans, Hurrians, Iberians, Illyrians, Kassites, and Sumerians are missing, as well as the Northern and Western European peoples important to the Late Roman and Medieval world, such as the Celtic, Slavic, Germanic, and Nordic peoples; nor were others of the world's peoples, such as Native Americans, sub-Saharan Africans, Turkic and Iranic peoples of Central Asia, the Indian subcontinent, the Far East, and Australasia. Scholars later derived a variety of arrangements to make the table fit, with for example the addition of Scythians, which do feature in the tradition, being claimed as the ancestors of much of Northern Europe.^[5] 

According to the biblical scholar Joseph Blenkinsopp, the 70 names in the list express symbolically the unity of humanity, corresponding to the 70 descendants of Israel that followed Jacob into Egypt in Genesis 46:27 and the 70 elders of Israel who visit God with Moses at the covenant ceremony in Exodus 24:1–9.^[6] 

^{Table of Nations}

On the family pedigrees contained in the biblical pericope of Noah, Saadia Gaon (892–942) wrote:

The Scriptures have traced the patronymic lineage of the seventy nations to the three sons of Noah, as also the lineage of Abraham and Ishmael, and of Jacob and Esau. The blessed Creator knew that men would find solace at knowing these family pedigrees, since our soul demands of us to know them, so that [all of] mankind will be held in fondness by us, as a tree that has been planted by God in the earth, whose branches have spread out and dispersed eastward and westward, northward and southward, in the habitable part of the earth. It also has the dual function of allowing us to see the multitude as a single individual, and the single individual as a multitude. Along with this, man ought to contemplate also on the names of the countries and of the cities [wherein they settled]."^[7]

Moses Maimonides, echoing the same sentiments, wrote that the genealogy of the nations contained in the Law has the unique function of establishing a principle of faith, how that, although from Adam to Moses there was no more than a span of two-thousand five hundred years, and the human race was already spread over all parts of the earth in different families and with different languages, they were still people having a common ancestor and place of beginning.^[8]

Other Bible commentators observe that the Table of Nations is unique compared to other genealogies since it depicts a "broad network of cousins", with a "shallow chain of brotherly relationships". Meanwhile, the other genealogies focus on "narrow chains of father-son relationships".^[9]

^{Book of Genesis}

Chapters 1–11 of the Book of Genesis are structured around five toledot statements ("these are the generations of..."), of which the "generations of the sons of Noah, Shem, Ham, and Japheth" is the fourth. Events before the Genesis flood narrative, the central toledot, correspond to those after: the post-Flood world is a new creation corresponding to the Genesis creation narrative, and Noah had three sons who populated the world. The correspondences extend forward as well: there are 70 names in the Table, corresponding to the 70 Israelites who go down into Egypt at the end of Genesis and to the 70 elders of Israel who go up the mountain at Sinai to meet with God in Exodus. The symbolic force of these numbers is underscored by the way the names are frequently arranged in groups of seven, suggesting that the Table is a symbolic means of implying universal moral obligation.^[10] The number 70 also parallels Canaanite mythology, where 70 represents the number of gods in the divine clan who are each assigned a subject people, and where the supreme god El and his consort, Asherah, has the title "Mother/Father of 70 gods", which, due to the coming of monotheism, had to be changed, but its symbolism lived on in the new religion.^{[citation needed]}

The overall structure of the Table is:

• 1. Introductory formula, v.1
• 2. Japheth, vv.2–5
• 3. Ham, vv.6–20
• 4. Shem, vv.21–31
• 5. Concluding formula, v.32.^[11]

The overall principle governing the assignment of various peoples within the Table is difficult to discern: it purports to describe all humankind, but in reality restricts itself to the Egyptian lands of the south, Mesopotamia, Asia Minor, and the Ionian Greeks, and in addition, the "sons of Noah" are not organized by geography, language family or ethnic groups within these regions.^[12] The Table contains several difficulties: for example, the names Sheba and Havilah are listed twice, first as descendants of Cush the son of Ham (verse 7), and then as sons of Joktan, the great-grandsons of Shem, and while the Cushites are North African in verses 6–7 they are unrelated Mesopotamians in verses 10–14.^[13]

The date of composition of Genesis 1–11 cannot be fixed with any precision, although it seems likely that an early brief nucleus was later expanded with extra data.^[14] Portions of the Table itself 'may' derive from the 10th century BCE, while others reflect the 7th century BCE and priestly revisions in the 5th century BCE.^[2] Its combination of world review, myth and genealogy corresponds to the work of the Greek historian Hecataeus of Miletus, active c. 520 BCE.^[15]

<sup>CONTINUES

SOURCE:
https://en.wikipedia.org/wiki/Generations_of_Noah</sup>

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