Genetics of the modern heirs of the Inca shed new light on their origins and lineages


Share post:

A multinational South American team from Peru, Brasil and Bolivia led by the Universidad de San Martin de Porres at Lima, Peru, published the first genetic study on the modern descendants of the imperial Inca lineages in the journal Molecular Genetics and Genomics.

Genetics of the modern heirs of the Inca shed new light on their origins and lineages
Iconic sacred citadelle of Machu Picchu, at the edge of the Andes and Amazon, symbol of the largest empire
of the Pre-Columbian Americas [Credit: Universidad de San Martin de Porres]

The Inca people arrived in the Cusco valley, and in a few centuries, had established the Tawantinsuyu, the largest empire in the Americas. The Tawantinsuyu was the cultural climax of 6,000 years of Central Andes civilizations overlapping modern countries of Peru, Bolivia, Ecuador, the South of Colombia and the North of Argentina and Chile. In contrast with the richness of archaeological and cultural evidence, pre-Columbian history vanishes in time as it intermingles with myths due to the lack of writing systems before the arrival of the European chroniclers.

Very little is known about Inca origins, and genetic information could help reconstruct part of their history. Unfortunately, the mummies and bodily remains of the Inca emperors, worshiped as gods, were burnt and buried in unknown locations due to religious and political persecution by the Christian conquistadors and inquisitors, so there exists no direct material for DNA analysis. “Thus, for now, only the genetic analysis of modern families of Inca descent could provide some clues about their ancestors,” says geneticist Jose Sandoval, first author, working at Universidad de San Martin de Porres at Lima, Peru.

There were two foundational myths for the origin of the Incas before they settled in Cusco valley to build their capital city. One is that Manco Capac and Mama Ocllo, considered children of the Sun God and founder parents of the civilization, came from Lake Titicaca about 500 km southwards from the border of North Bolivia and South Peru, more or less the same region where the Tiwanaku empire existed a few centuries before. The second myth says that four Ayar brothers with divine powers came out from the caves inside of a hill in the area of Paccarictambo, 50 km south of Cusco, and only one of them, Manco, arrived to the Cusco valley. Concerning the succession of the rulers, most chroniclers mention only one patrilineal heritage; however, other authors think that succession was based on a complex selection of military and administrative skills, not necessarily by electing the son of a previous Inca.

“A unique patrilineal cluster would be expected in the first case. In the second case, two or more patrilineal patterns will be evident,” says geneticist Ricardo Fujita, senior author, also at Universidad de San Martin de Porres. The research team included historian Ronald Elward, who studied documentation of 12 Inca noble families and followed up from the conquista times to their contemporary descendants. “Most of them still living in the towns of San Sebastian and San Jeronimo, Cusco, Peru, at present, are probably the most homogeneous group of Inca lineage,” says Elward.

Genetics of the modern heirs of the Inca shed new light on their origins and lineages
Ruins of temples in Maukallacta in the district of Paccarictambo at about 50 km south Cusco, built by the Inkas
to honour their ancestors. One of the probable intermediate origins of the Inka lineage in the journey to Cusco
[Credit: Ricardo Fujita]

Markers for Y chromosomes and mtDNA were used for the genetic analysis of these families and compared with a database for 2400 native individuals from Peru, Bolivia, Ecuador and Brazil. “The results show distinctive patrilineal origins to two founder individuals who lived between 1000 to 1500 AD, a period between the decline of former Tiwanaku (south) and Wari (north) contemporary empires, and the rise of the Inca empire a few centuries later,” says geneticist Fabricio Santos from the Universidad Federal de Minas Gerais at Belo Horizonte, Brazil.

The first patrilineal haplotype named AWKI-1 (“awki” means “crown prince” in the Quechua language) is found in the putative families descending from two earlier Inca, Yahuar Huacac and Viracocha. The same pattern of the Inca descendants was also found in individuals living south to Cusco, mainly in Aymaras of Peru and Bolivia. The second patrilineal haplotype, named AWKI-2, was found in one descendant of a more recent Inca, Huayna Capac, father of the two brothers (Huascar and Atahualpa) who were fighting a fraternal war over the empire at the arrival of the conquistadors. “AWKI-2 is also found in dozens of individuals from different locations in the Andes and occasionally in the Amazon, suggesting a populational expansion,” says Dr. Santos.

“In addition to San Sebastian and San Jeronimo, most locations of AWKI-1, AWKI-2 were southwards to Cusco including the basin of lake Titicaca and neighbouring Paccarictambo, in agreement with the two foundational myths of the Inca, probably two pictures at different times of the same journey with final destination Cusco,” says Ricardo Fujita.

“It is also remarkable that in these contemporary Inca nobility families, there is a continuity since pre-Columbian times,” says Ronald Elward. The analysis of their mtDNA suggested a highly varied matrilineal marker whose counterparts are found all over the Andes, reflecting a high genetic flow. “This probably reflects the political alliances by arranged marriages between Cusco nobility and daughters of lords of kingdoms and chiefdoms all over the empire,” says Jose Sandoval.

Genetics of the modern heirs of the Inca shed new light on their origins and lineages
Archaeological complex of Tiwanaku, at the area of the Lake Titicaca in Bolivia
at 500 km south of Cusco, one of the probable remote origins of the Inka
lineage in the journey to Cusco [Credit: Jose Sandoval]

This work is the continuation of several studies performed by the team to reconstruct South American history via genetics. Two published works included the unique ancient roots of the Uros, people from the Floating Islands of Lake Titicaca and the Quechwa-Lamistas in Peruvian Amazon. Modern Uros are Aymara speaking-people believed to be of the Aymara ethnia who profited from tourism on the floating islands. However, the team showed that they were genetically isolated people who had lost their original Uro language, shifting to the widely used Aymara language. On the other hand the Kechwa-Lamista are Amazonian people who speak the Andean Quechua language, presumed descendants of Andeans Chancas, former enemies of the Incas, and were chased by them toward the Amazon. DNA showed that they are actually descendants of linguistically different Amazonian people who were gathered by Catholic missions and were taught the Quechua language for a better evangelization.

“In some cases, genetics shows us something different than the official history. What is not written or badly written in historical records can be revealed by what is written in our DNA,” says Ricardo Fujita. “This study is just the tip of the iceberg in trying to solve part of several enigmas of one of the most remarkable civilizations. The DNA of one Inca monarch’s bodily remains or one direct descendant who lived at the beginning of the Spanish colonization could give more certainty about the Inca lineage, and our team is looking forward to it,” says Jose Sandoval.

Source: Universidad de San Martin de Porres [April 06, 2018]



Related articles

Scientists discover key to Iron Age ‘Heslington brain’ preservation

The 2,600-year-old Heslington brain, discovered in 2008 near York in the UK, was probably so well-preserved due to...

Ancient DNA hints at diverse Stone Age traditions of kinship

Genomes from University of Liverpool excavations of burials around some of the earliest houses in history contributed to...

Persistent tropical foraging in the highlands of terminal Pleistocene/Holocene New Guinea

The development of agriculture is frequently seen as one of the major economic, social, and demographic thresholds in...

Lab 3-D scans human skeletal remains dating back to the American Civil War

In the Virtual Curation Laboratory, the lab's director, Bernard Means, Ph.D., is holding a realistic-looking 3-D printed replica...

DNA highlights Native American die-off

Genetic evidence now backs up Spanish documents from the 16th century describing smallpox epidemics that decimated Native American...

Cyborgs closer to reality in future stages of human evolution

Our excitement with and rapid uptake of technology – and the growing opportunities for artificial brain enhancement –...

Variation in the shape of speech organs influences language evolution

Why do languages sound so different when people across the world have roughly the same speech organs (mouth,...

Social ties help animals live longer

In a huge study of female rhesus macaques, a scientist from the University of Exeter found those with...