mtDNA shows how humans migrated across the World
Summary
TLDRThis video explores the migration of humanity starting from Mitochondrial Eve, a woman who lived in East Africa 200,000 years ago. Using mitochondrial DNA passed through females, scientists traced human migration patterns from Africa across the globe. The video highlights key geographical landmarks, historical events, and genetic haplogroups that shaped the spread of human populations. It delves into the journey of human ancestors, overcoming the Ice Age and crossing land bridges, to eventually populate all continents. The video invites viewers to embark on a journey tracking the footsteps of ancient nomads.
Takeaways
- đ The concept of 'Mitochondrial Eve' suggests that all humans today can trace their matrilineal lineage back to a single woman who lived in East Africa around 200,000 years ago.
- đïž East Africa, with landmarks like Lake Victoria, Serengeti Plains, and Mount Kilimanjaro, was the cradle of humanity where early human ancestors lived as hunter-gatherers.
- đ Mitochondrial DNA (mtDNA) is a unique genetic marker passed exclusively from mother to child, allowing scientists to trace human ancestry and migration patterns.
- đ± Climate change and the migration of prey species are believed to have driven early human populations out of Africa and across the globe in search of sustenance.
- đ The migration of human populations from Africa to other continents is marked by specific mtDNA haplogroups, which provide a genetic roadmap of human dispersal.
- đĄïž The Ice Age played a significant role in shaping human migration, with sea levels and land bridges influencing the paths taken by early humans.
- đż The end of the Ice Age saw a rapid expansion of human populations as they migrated to new territories, including the Americas, following the opening of ice-free corridors.
- đ The distribution of mtDNA haplogroups today reflects the extensive migration and settlement patterns of early humans across the globe.
- 𧏠Modern genetic research, including the analysis of ancient human fossils and comparison with contemporary populations, has confirmed the 'Out of Africa' theory of human origins.
- đ The video script invites viewers to visualize and understand the vast journey of human migration over 200,000 years, emphasizing the interconnectedness of all human beings.
Q & A
Who is Mitochondrial Eve and what is her significance?
-Mitochondrial Eve is the name given to the matrilineal most recent common ancestor of all living humans. She is significant because all humans today are her descendants, and her existence is supported by the study of mitochondrial DNA, which is inherited only through females.
How did scientists determine that all humans are descendants of Mitochondrial Eve?
-Scientists used mitochondrial DNA (mtDNA) analysis to trace back the maternal lineage of humans to a single woman who lived approximately 200,000 years ago in East Africa. This is because mtDNA is passed from mother to child without recombination, allowing for a direct lineage to be traced.
What geographical features are significant in the region where Mitochondrial Eve is believed to have lived?
-The significant geographical features include Lake Victoria, the Serengeti Plains, and Mount Kilimanjaro. Lake Victoria is a massive lake, and the Serengeti Plains are known for their extensive grasslands, while Mount Kilimanjaro is the highest mountain in Africa.
Why is Mount Kilimanjaro a subject of scientific studies?
-Mount Kilimanjaro is a subject of scientific studies due to its shrinking glaciers and ice fields, which are projected to disappear between 2025 and 2035, highlighting the impact of climate change.
Why is mitochondrial DNA important in studying human migration patterns?
-Mitochondrial DNA is important because it is inherited only through the maternal line and does not recombine, allowing scientists to trace maternal lineages and migration patterns over time.
How does the migration of early humans from Africa to other parts of the world relate to the mtDNA haplogroups?
-The migration of early humans from Africa to other parts of the world is reflected in the distribution of mtDNA haplogroups. Different haplogroups (L, M, N, etc.) are found in different regions, indicating the routes and timing of human migration out of Africa.
What is the significance of the L2 and L3 mtDNA types in human migration?
-L2 and L3 mtDNA types are significant as they represent a renewed expansion of human populations in Africa around 60,000 to 80,000 years ago. The L3 type, in particular, is the progenitor of all non-African mtDNA lineages, indicating a migration out of Africa.
How did early humans cross the seas during the Ice Age to reach Australia?
-It is presumed that early humans crossed the seas during the Ice Age by constructing a raft near present-day Bali, when the seas near Indonesia were land due to lower sea levels, forming a region known as Sundaland.
What role did the ice-free corridor play in the migration of humans to the Americas?
-The ice-free corridor, which opened between two ice sheets before 12,600 years ago, allowed humans with mtDNA types A, B, C, and D to travel from Alaska to Central and South America over a period of about 1,000 years.
How did climate changes, such as the Younger Dryas period, affect human migration patterns?
-Climate changes, such as the Younger Dryas period, caused shifts in human migration patterns. For example, during this time, Type B migrated to the Philippines and the island of Borneo, and some B types moved to Madagascar and later to Polynesia.
Outlines
đ Journey of Mankind from Mitochondrial Eve's Homeland
This paragraph introduces the concept of Mitochondrial Eve, the common maternal ancestor of all living humans, who lived in East Africa around 200,000 years ago. It invites viewers to virtually explore her birthplace using Google Earth, showcasing significant geographical features like Lake Victoria, the Serengeti Plains, and Mount Kilimanjaro. The narrative explains the vastness of Lake Victoria and the ecological importance of the Serengeti. It also delves into the migration patterns of early humans, driven by climate change and the movement of prey, as indicated by mitochondrial DNA haplogroups. The paragraph concludes with an explanation of why mitochondrial DNA is crucial for tracing human ancestry, highlighting its maternal inheritance and the scientific breakthroughs that have enabled us to map human migration.
đ Global Dispersal of Human Lineages from Africa
Paragraph 2 details the migration of human lineages from Africa to various parts of the world. It discusses the movement of L3 type Africans to Southwest Asia and the subsequent spread of M and N types to Australia and Eurasia. The narrative describes the Ice Age's impact on sea levels and the first human navigation across the landmass of Sundaland. It also covers the migration of different mitochondrial DNA types to Europe, where they coexisted with Neanderthals, and to Siberia. The paragraph highlights the Last Glacial Maximum's influence on human distribution and the eventual migration of groups to the Americas and Polynesia. It emphasizes the rarity of M-type mitochondrial DNA in Europeans and the emergence of various types in different regions, painting a picture of humankind's global dispersion and the genetic legacy left by our ancestors.
đșïž The Worldwide Distribution of Mitochondrial DNA Types
The final paragraph summarizes the global distribution of various mitochondrial DNA types, providing a comprehensive overview of where different types are found today. It covers the geographical spread of types such as I, T, H, V, C, A, B, F, D, Y, Z, X, Q, and P, highlighting their presence in regions from Western Asia to the Americas, and from Siberia to the Polynesian Islands. The paragraph invites viewers to embark on a 'nomad trip' with a map, symbolizing the extensive journey of humankind from its African origins to the far reaches of the globe. It concludes with a call to action for viewers to subscribe, like, share, and stay updated for more content, emphasizing the educational and engaging nature of the video series.
Mindmap
Keywords
đĄMitochondrial Eve
đĄMitochondrial DNA (mtDNA)
đĄHaplogroups
đĄMigration
đĄLake Victoria
đĄSerengeti Plains
đĄMount Kilimanjaro
đĄIce Age
đĄBeringia
đĄYounger Dryas
đĄPolynesia
Highlights
Mitochondrial Eve, the common female ancestor of all living humans, lived 200,000 years ago in East Africa.
7.5 billion people on Earth today are descendants of Mitochondrial Eve.
Lake Victoria, Serengeti Plains, and Mount Kilimanjaro are significant geographical features of East Africa.
Lake Victoria is 38 times larger than London and 99 times larger than Seoul.
The Serengeti ecosystem spans 30,000 km2 and includes the Serengeti National Park.
Mount Kilimanjaro is the highest mountain in Africa, standing at 5,895 meters above sea level.
Climate change and prey migration influenced early human movement out of Africa.
Mitochondrial DNA (mtDNA) is inherited only through females and is used to trace human ancestry.
Men's mitochondrial DNA is not passed on to offspring due to its location in the tail of the sperm.
The 1987 study of mtDNA from 145 women confirmed a single African origin for all human mtDNA.
L2 and L3 mtDNA types indicate a renewed expansion of humans in Africa 60,000 to 80,000 years ago.
Non-Africans are descended from M or N types, both of which originated from African L3 types.
The M and N types migrated to Australia around 50,000 to 40,000 years ago, crossing the Sundaland.
Some M and N types changed direction and moved towards East Asia along the eastern coast.
Type I, U, H, V, and others migrated to Europe where they coexisted with Neanderthals.
Type X migrated to Siberia during the Ice Age, adapting to very cold conditions.
The last glacial maximum period, lasting 25,600 years, saw significant changes in human migration patterns.
Types A, B, C, and D spread to the east of Siberia during the Ice Age, while X type arrived from Western Europe.
A few types A and D crossed the Bering Sea 20,000 years ago, seeking warmer climates.
Around 15,000 years ago, type A arrived in Alaska during the BĂžllingâAllerĂžd warming period.
Types A, B, C, and D moved to South America around 12,000 years ago, following an ice-free corridor.
Type B migrated to the Philippines and Borneo, with some reaching Madagascar and Polynesia.
The Younger Dryas period, a sudden drop in temperature, affected human migration patterns.
The current global distribution of mitochondrial DNA types reflects the extensive migration and settlement of early humans.
Transcripts
Wouldn't you like to follow the traces of how mankind spread?
Our hominins have been living on this land for millions of years
But it wasn't noticed until our ancestors tried to escape from Africa.
Astonishingly,
scientific research has shown that the 7.5 billion people
who occupy the Earth today
are the descendants of a woman who lived 200,000 years ago in eastern Africa.
Scientists call her mitochondrial Eve.
Will you not follow along with me?
the traces of how mankind spread by following the footsteps of the descendants of Mitochondrial Eve?
Mitochondrial Eve was born and lived in East Africa about 200,000 years ago.
First, let's go to the place where she was born and raised through Google Earth.
You can see a huge lake and a wide meadow.
Lake Victoria and Serengeti Plains.
You can also see Mount Kilimanjaro.
The surface area of ââLake Victoria is 59,947 square meters.
It is a huge lake that is 38 times larger than London,
99 times larger than Seoul,
76 times larger than Singapore,
and 339 times larger than Washington DC.
The Serengeti ecosystem is a geographical region in Africa
spanning northern Tanzania.
The protected area within the region includes approximately 30,000 km2 of land,
including the Serengeti National Park and several game reserves.
The name "Serengeti" is often said to be derived from the word "seringit" in the Maasai language,
Maa, meaning "endless plains"
Mount Kilimanjaro is a dormant volcano in Tanzania.
It has three volcanic cones: Kibo, Mawenzi, and Shira.
It is the highest mountain in Africa and the highest single free-standing mountain in the world:
5,895 metres above sea level.
Because of its shrinking glaciers and ice fields,
which are projected to disappear between 2025 and 2035
it has been the subject of many scientific studies.
So far, we have looked at the region where the common mother of mankind,
mitochondrial Eve, may have lived.
This is where her descendants lived as hunter-gatherers.
It may seem peaceful, but it is also a place of fierce life.
At that time,
climate change caused the prey to migrate,
and it is presumed that they moved along with the prey.
Now you are looking at their migration routes from 150,000 to 100,000 years ago.
L is mitochondrial eve,
and Lx are her descendants.
Letters are human mitochondrial DNA haplogroups,
Arrows are migration pathl
The number in the upper left corner of the screen is the estimated age.
How would you have known this?
We have DNA that is inherited only through females.
It's called mitochondrial DNA.
we can trace back this mitochondrial dna to find out who our ancestors were
But why is mitochondrial DNA only inherited through females?
Doesn't the man have it?
Of course, men also have mitochondrial DNA.
However, a man's mitochondrial DNA is not passed on to offspring.
Let's find out why.
Mitochondrial DNA is only a small portion of the DNA in a eukaryotic cell
most of the DNA can be found in the cell nucleus and,
in plants and algae,
also in plastids such as chloroplasts
Sperm from a man's body goes on a long journey,
to find an egg deep in the woman's body to obtain descendants.
Among tens of thousands of sperm,
only one sperm is selected and fertilization takes place.
You have experienced your first victory here,
so you should be proud of being born.
during fertilization.
Not all parts of the sperm enter the egg
The tail part is left and only the head couple gate is inserted and fertilized.
Herein lies the secret that men's mitochondrial DNA is not inherited.
Man's mitochondrial DNA resides in the tail.
This principle has only recently been used in the study of human history.
By 1985,
data from the mtDNA of 145 women of different populations,
and of two cell lines,
HeLa and GM 3043,
derived from an African American and a !Kung respectively, were available.
The study published on 1 January 1987.
The published conclusion was that all current human mtDNA originated from a single population from Africa,
at the time dated to between 140,000 and 200,000 years ago
after this thesis
DNA was extracted from ancient human fossils and analyzed,
The map used in this video was created by referring to the results of direct mapping of these research results and data from wikipedia
Click the link in the description below to view them mapping results by year.
Now let's watch the migration path of the mitochondria lead descendants again
About 60 to 80 000 years ago
a renewed expansion repopulated africa with L2 and L3 mtDNA types.Â
About 50 to 60 000 years ago,
l3 type african moved to southwest asia.
All non-Africans are today descended from either M or N types,
both descended from an Africa L3 type.
The group leaving Africa must have been very small,
given that only two mtDNA lineages survived.
The M and N types which left india about 60000 years ago
arrive in australia around 50 000 to 40 000.
this was the ice age
and the seas near indonesia were all land.
It is called sunderland.
It is presumed that they crossed the sea by constructing a raft near present-day Bali.
They were the first navigators of mankind,
at this time between New Guinea and Australia was land
Some of the M N types that migrated to australia between fifty thousand and forty thousand years ago,Â
change direction and head towards east asia along the eastern coast.
Crossing the m and n type eurasian grasslands that lived in western asia and heading to east asia.
many races are born in western asia
I, U, H,V types go to Europe
At this time, Europe was inhabited by Neanderthals.
Type x leaves west asia a little later and heads for siberia.
It was a very cold ice age.
I will introduce the life of our ancestors during the ice age through another video
The M and N types derived from L3
served as the basis of mitochondrial dna for today's offspring.
Currently europeans do not have M-type mitochondrial dna which is unusual.
Between 40 000 and 30 000 years,
a group with mitochondrial dna of type A ,B and F derived from type N appears in east asia.
At the same time.Â
C,GÂ and D types appear.Â
C and Y types also appear.
They have M-type as their ancestor.
Type DÂ advances to japan via the korean peninsula.
Lhe last glacial maximum period begins in 33 000.
LGMÂ lasts as long as 25 600.
During this time large continental ice sheets existed in Europe and North america.
the sea level was also 120 meters lower than it is today.
The west coast of the korean peninsula and the bering sea were connected by land.
25 000 years ago in Asia
A,B,C and D type spread to the east of siberia.
The x type from western europe also arrives here.
They lived here in the coldest time.
They begin to cross the bering sea in search of a warm place where the sun rises.
It was the end of the ice age.
It is estimated that a few types a and d crossed the bering sea 20 000 years ago.
Around 15 000, A type arrives in alaska in groups.
This is the time when the earth's temperature rose after the last ice age.
Sea levels would rise again
but the bering sea would have been covered in ice
The period between 14 690 and 12 890 before was the BĂžllingâAllerĂžd warming period.
The nordic feno scandian ice sheet begins to melt.
This is the period when i u v j h and v types began to migrate to northern europe.
Types a b c d x who lived in alaska moved to south america.
Some of them arrived in south america 12 000 years ago.
At that time there was a huge continental ice sheet on the north american continent.
The laurentide ice sheet to the east and the cordilleran ice sheet to the west coast of north america covered the continent .
But how were they able to move south?
Recent research suggests that an ice-free corridor opened between two ice sheets before 12 600.
Types a b c and d traveled along this route over 1000 years,
reaching central and south america.
The earth's temperature begins to rise after the end of the ice age.
Then between 12900 and 11700
the temperature of the earth's cloud suddenly drops.
This period is called the Younger Dryas period.
it was found that this was because lake agassi in north america burst and flowed into hudson bay,
affecting the thermo-haline circulation system.
During this period, Type b migrates to the Philippines and the island of Borneo.
some of the B types who lived here, moved to Madagascar before 1500,
and migrated to Polynesia including New Zealand before 1000.
So far it has been a long journey of 200 000 years along the Mitochondrial Eve.
Shall we summarize the results of our trip?
The first L-type was found in Africa .
Type N lived in Western Asia East Asia and Australia.
M-type was widely distributed and can be found in the Arabian Peninsula,
Sahel, India, East Asia and Aaustralia.
R-Type was found in Central and Eastern Aafrica, Western Asia and India.
U-type existed in India, Western Asia, and Northern Europe.
Type IÂ Â lived in Western Asia and Northern Europe.
TÂ type can be found in northern Caspian Sea, and Western Europe.
Type H can be found around the Iberian peninsula, Northern Europe and the Black sea.
Type V is found in Northwestern Aafrica the Iberian Peninsula and Northern Europe.
Type C can be found in East Asia, Siberia, Central America and the Amazon region.
type A is found in East Asia North America and Greenland.
Type B can be found in East Asia, Southeast Asia,North America, South America,
Madagascar, New Zealand and the Polynesian Islands
Type F exists in Southeast Asia.
Type D is found in Alaska, the Eastern United States and the Amazon region of South America.
Types Y,Z and X lived elsewhere appearing in Siberia and North America.
Q and P types appear in Irian Jaya of Indonesia and Papua New Guinea.
If you look at the current distribution location for each type,
it appears like a map on the screen.
Thanks for watching for a long time!
Starting with Mitochondrial eve,
by tracking the occurrence and extinction of nomads,
we have just started mapping on the map.
Why don't you take a nomad trip with a map with me?
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