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Racial admixture in Europeans, pictural evidence

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BabylonianJew:
Southern Europeans have a Negroid strain











North/Eastern Europeans Mongoloid strain









Romanians and Anglo-Saxons have Indian blood(India)

Anglo-Saxon actor Rowan Atkinson shows an Indian strain



Romanian
the left girl has Indian blood more than Romanian Dacian. The Gypsies were enslaved and reslut racial admixture took place!

Foregin admixture in  "White" Americans, from African/Aremindian bloodlines. Few tracial groups have melted into the larger Anglo-Saxon culture of America Melungeons, and the Lumpee people. They often show very minor of the visible forgein strain but their overwhemingly Caucasiod.

Heather Locklear is of the Lumbee people are trical admixture of European,Native-American,African



Tom Hanks Melungeons who have been abosrbed by the Anglo population, they are also trical racial of European, African,and Native American



The reason why many WN's of American decent are against the one drop rule:

a Negorid strain can be seen in her, esepcially the cheekbone areas where it buldges, she admited on several WN sites she has distant Negorid ancestory.

mord:
good post althought heather locklear an the last wn girl are pretty hot!! :o :o ;D

BabylonianJew:
Genetics prove that Europeans are not pure. From the WN's owns mouth

Anglo-Saxon blood has been mixed with Indian blood from the times of colonization

BRITISH INVOLVEMENT IN INDIA LEADS TO RACIAL MIXING


Above: The White Empress of India. Queen Victoria , the longest reigning British monarch (reigned 1837 -1901) was declared Empress of India in 1876. This imposing statue was erected in Calcutta, long the capital of British India.
 
In 1837, the 18 year old Queen Victoria took the throne. Becoming one of the longest reigning British monarchs, Victoria oversaw a renewed growth in the British Empire and the reformation of the political system. The British occupation of India also reached its height under Queen Victoria, to the point where she was eventually declared Empress of that land.

 The occupation of India also however led to a significant amount of racial mixing between British officers stationed in that country and Indian women - and many of these Indian wives were taken back to Britain (and Ireland, as Irishmen served in the British army at that time, the latter country also being controlled by Britain). The product of these mixed unions can still be detected amongst the modern day British and Irish populations.

Gentic evidence of modern day British people showing Indian blood: Hemoglobin D is a genetically transmitted blood disorder which originated on the Indian sub-continent, and which spread to England, Scotland and Ireland during the colonial period when many soldiers – Englishmen, Scots and Irishmen – took Indian wives back to their homelands.

It is worthwhile to review the hemoglobin D case study because it proves two things:

- Firstly, that genetically inherited conditions, such as sickle cell and hemoglobin D, are transmitted directly by racial mixing; and

-Secondly, to show that it is not just southern Europe that has been affected by racial mixing during the course of history, but that northern European lands have also fallen prey to this phenomenon, albeit in smaller overall numbers.

 HEMOGLOBIN TYPE IS INHERITED

“HEMOGLOBIN is the oxygen transporting substance found in the red blood cells. There are hundreds of different hemoglobin variants identified in all races and populations of people. The kind of hemoglobin we have depends upon our genetic inheritance. Genes are units of inheritance passed on from our parents. These messengers determine characteristics such as eye and hair color, and they also determine hemoglobin type.” - The Virginia Sickle Cell Awareness Program (VASCAP), http://views.vcu.edu/pediatrics/vascap/fast_facts/HemoD.PDF
 
  
 “Most people have the type of hemoglobin called hemoglobin A (also called normal or adult hemoglobin). However there are many different types of hemoglobin found in people throughout the world. Hemoglobin D is one type; sickle hemoglobin is another type.”- University of Rochester Medical Center, Division of Genetics, http://www.urmc.rochester.edu/genetics/brochures/pdf/hbdbro1.pdf
 

 COMPLICATIONS ARISING FROM HEMOGLOBIN D

Carriers of hemoglobin D are at little risk themselves, but if they should have children with other carriers, there is a 25 percent chance that their children will have either sickle cell disease, or milder variants known as hemoglobin SD or just be carriers of the trait.

The University of Rochester’s Medical Center, Division of Genetics, explains it this way:

“If you and your partner have hemoglobin D trait, there is a 25% chance with each pregnancy that your child will inherit both hemoglobin D genes and have homozygous hemoglobin D. Homozygous hemoglobin D is not associated with health problems.

You should not be concerned for your own health, but if your partner has sickle cell trait, there is  a 25% chance with each pregnancy that your child will have hemoglobin SD disease, which can be serious.

A person with hemoglobin SD disease may suffer from anemia and bouts of pain called crises. These crises can occur without warning, affect any part of the body and last hours or days. There may also be problems with frequent infections and unexplained fevers. Daily doses of penicillin and folic acid are required.”- University of Rochester Medical Center, Division of Genetics, http://www.urmc.rochester.edu/genetics/brochures/pdf/hbdbro1.pdf
 

RACIAL LINK TO INCIDENCE OF HEMOGLOBIN D

“Hemoglobin D is uncommon in North America, occurring in less than 1 of 5000 persons. In the Punjab region of India and Pakistan, approximately 3 percent of the populations have the hemoglobin D Trait. This trait is more common in people of English, Irish, or Scotch ancestry than in those of other ethnic groups.” - The Virginia Sickle Cell Awareness Program (VASCAP), http://views.vcu.edu/pediatrics/vascap/fast_facts/HemoD.PDF
 
  
“Hemoglobin D is found in people whose ancestors come from Pakistan and Northwestern India and occasionally Europeans, especially the British and Irish” – University of Rochester Medical Center, Division of Genetics, http://www.urmc.rochester.edu/genetics/brochures/pdf/hbdbro1.pdf
 

 HEMOGLOBIN D CAME TO BRITAIN WITH RACIAL MIXING

“This trait is more common in people of English, Irish or Scotch ancestry than in those of other ethnic groups. The high frequency of hemoglobin D Trait in this population is believed to reflect the large number of Indian wives brought home to England by British troops during Britain's long occupation of India.” - The Virginia Sickle Cell Awareness Program (VASCAP), http://views.vcu.edu/pediatrics/vascap/fast_facts/HemoD.PDF
 

The proof is thus clear that during the colonial era, (circa 1850 -1950) racial mixing between soldiers in the British Army and Indians took place. Like sickle cell disease, Hemoglobin D was transferred to a White population through interracial contact.

mord:
More good looking women :D

BabylonianJew:
Y chromosome variation in 457 Croatian samples was studied using 16 SNPs/indel and eight STR loci. High frequency of haplogroup I in Croatian populations and the phylogeographic pattern in its background STR diversity over Europe make Adriatic coast one likely source of the recolonization of Europe following the Last Glacial Maximum. The higher frequency of I in the southern island populations is contrasted with higher frequency of group R1a chromosomes in the northern island of Krk and in the mainland. R1a frequency, while low in Greeks and Albanians, is highest in Polish, Ukrainian and Russian populations and could be a sign of the Slavic impact in the Balkan region. Haplogroups J, G and E that can be related to the spread of farming characterize the minor part (12.5%) of the Croatian paternal lineages. In one of the southern island (Hvar) populations, we found a relatively high frequency (14%) of lineages belonging to P*(xM173) cluster, which is unusual for European populations. Interestingly, the same population also harbored mitochondrial haplogroup F that is virtually absent in European populations - indicating a connection with Central Asian populations, possibly the Avars.
 


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http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=3056831&dopt=Abstract

 
1: Hum Genet. 1988 Nov;80(3):207-18
Characteristics of Mongoloid and neighboring populations based on the genetic markers of human immunoglobulins.

Matsumoto H.

Department of Legal Medicine, Osaka Medical College, Japan.

Since the discovery in 1966 of the Gm ab3st gene, which characterizes Mongoloid populations, the distribution of allotypes of immunoglobulins (Gm) among Mongoloid populations scattered from Southeast Asia through East Asia to South America has been investigated, and the following conclusions can be drawn: 1. Mongoloid populations can be characterized by four Gm haplotypes, Gm ag, axg, ab3st, and afb1b3, and can be divided into two groups based on the analysis of genetic distances utilizing Gm haplotype frequency distributions: the first is a southern group characterized by a remarkably high frequency of Gm afb1b3 and a low frequency of Gm ag, and the second, a northern group characterized by a high frequency of both Gm ag and Gm ab3st but an extremely low frequency of Gm afb1b3. 2. Populations in China, mainly Han but including minority nationalities, show remarkable heterogeneity of Gm allotypes from north to south and contrast sharply to Korean and Japanese populations, which are considerably more homogenous with respect to these genetic markers. The center of dispersion of the Gm afb1b3 gene characterizing southern Mongoloids has been identified as the Guangxi and Yunnan area in the southwest of China. 3. The Gm ab3st gene, which is found with its the highest incidence among the northern Baikal Buriats, flows in all directions. However, this gene shows a precipitous drop from mainland China to Taiwan and Southeast Asia and from North to South America, although it is still found in high frequency among Eskimos, Koryaks, Yakuts, Tibetans, Olunchuns, Tungus, Koreans, Japanese, and Ainus. On the other hand, the gene was introduced into Huis, Uyghurs, Indians, Iranians, and spread as far as to include Hungarians and Sardinians in Italy. On the basis of these results, it is concluded that the Japanese race belongs to northern Mongoloids and that the origin of the Japanese race was in Siberia, and most likely in the Baikal area of the Soviet Union.

 Alsu famous Russian singer with Mongoliod strain
 
    Aslo Anna K show a slight Asiatic admixture
 

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