The global human population is defined by
diverse adaptations that lend us evolutionary
advantages as a species.
Let’s discover some fascinating facts about
the adaptations that make human beings interesting.
Discover who has Neanderthal DNA, how malaria
changed some of us, and why one amazing island
population evolved breath-holding superpowers…
10.
Melanesians Can Have Blonde Hair
Blondism in humans is frequently imagined
as being inextricably linked to a Germanic,
Nordic, and Northern Slavic groups.
While the genetic mechanism by which this
particular form of little known blondism arises
is completely different than the genes for
blondism in “white people,” Melanesians
can have dark, melanin filled skin but display
contrasting light blonde, curly hair.
A recessive mutation creates the contrast.
Melanesians with blond hair are seen in photographs
from the Solomon Islands of Melanesia.
In Melanesia, we see a region where humans
living near Asian countries have traits similar
to the native peoples of Sub-Saharan Africa.
Approximately 10 percent of the native people
of the Solomon Islands, who are indeed among
the darkest skinned people on the planet,
also have blonde hair.
Research into the phenomenon (and associated
genetic mutations) is believed to have the
ability to challenge Euro-centric worldviews
on human natural history.
9.
Neanderthal and Denisovan Hybridization Influences
Us
Caucasians, East Asians, and pretty much anyone
outside of Sub-Saharan Africa will test positive
for the presence of Neanderthal DNA.
The amount of Neanderthal DNA amongst populations
and individuals will vary, of course.
Wow!
Who so doesn’t have Neanderthal DNA?
Indigenous populations of Africa south of
the Sahara Desert were “shielded” from
the influx of Neanderthal DNA before the species
died out.
Thus, being of entirely Sub-Saharan descent
generally means being 100 percent Homo Sapiens.
So, this means while the people of Sub-Saharan
Africa have been subject to racism, they are
in fact the least genetically diluted representatives
of Homo sapiens living on the Earth.
East Asian populations and Caucasian populations
contain up to two percent Neanderthal DNA
on average (some individuals having more,
some less), whileEast Asian populations and
Melanesians contain some members with varying
degrees of Denisovan DNA.
In the case of Melanesians, the percentage
of Denisovan DNA is highest, ranging from
three to five percent of Melanesian genomes.
Genetic analysis is slowly providing key pieces
of the multi-species influence in human history.
8.
Breath-Holding Bajau People
Animals evolve to be optimally matched to
their living environment.
Humans are no exception.
The Bajau people of Southeast Asian home regions
are “sea nomads” with diving superpowers
provided by significantly increased growth
of their spleens.
The enlarged spleen of Bajau people is a prime
case of natural selection altering the characteristics
of a living species.
While the existence of the larger spleens
in this population was an especially dramatic
example of human trait evolution, detailed
research measures were required to gain an
objective insight into the phenomenon at hand.
A comparative genomic study was conducted
which showed changes in the PDE10A gene, lending
the Bajau people the ability to grow a larger
spleen.
This beneficial trait was gained as a result
of natural selection giving the advantage
in thriving and passing on genes to those
individuals bearing the characteristics of
increased spleen size and subsequent increase
in oxygenated red blood cells that could be
carried.
Selection pressures changed the BDKRB2 gene
as noted in the study, improving dive reflex
performance in the Bajau.
7.
Red Hair Hassles
Red hair, a coloring rare in its percentage
of the global population, is not only dramatic
but biologically associated with traits that
reduce effectiveness of anesthetics in redheads.
Modern anesthetics are a great innovation,
yet they may not work as well on the naturally
red-haired portion of the world population.
Anecdotal reports have long claimed that red-haired
people were less responsive to anesthetics.
Based on this concern, an objective scientific
investigation of the matter showed statistically
significant results in anesthetic requirements
in redheads compared to the general population
arising from genetic differences.
Red haired patients were found to require
19 percent more anesthetic to achieve proper
pain relief results in the course of this
research project.
This finding that nearly one in five red-haired
patients are in need of a greater amount of
anesthetic goes far beyond the statistical
significance threshold.
Red hair may be the subject of various myths,
but the correlation between the intense color
and the potential for intense pain is a matter
of scientific reality.
6.
First Nation Asian Origins
The First Nations people of the New World
with all of their cultural diversity were
mistakenly called “Indians” after being
confused with the native people of the Indian
subcontinent in Asia.
The truth 
is that First Nations tribes share a common
ancestry with the East Asian ethnic groupings
with strong genetic links to people from Siberia,
China, Japan, Mongolia, and Korea rather than
having any link to the Indian subcontinent.
Researchers from the University of Alaska
Fairbanks and the Natural History Museum of
Denmark sequenced the genome infant remains
dated back to approximately 11,500 years located
in central Alaska and named the specimen USR1.
Native Americans called her Xach’itee’aanenh
T’eede Gaay, meaning Sunrise Child-girl.
Genetic evaluation of the remains indicated
that the direct ancestors of First Nations
split away from their East Asian common ancestors
approximately 25,000 to 36,000 years ago.
The First Nations of Canada and the Alaska
Natives rank closest in relation to their
East Asian ancestors compared to tribes farther
south that have further diverged.
5.
Dark Skin Confers Environmental Advantages
Dark skin has long been judged by the prejudiced.
For example, Christoph Meiners, the German
scientist who established the concept of the
“Caucasian Race.”
In his favoring of paler peoples, Meiners
looked down on the more melanised majority
of the global human population, even calling
southern Europeans within his Caucasian category
such as Italians “dirty whites.”
Yet what such researchers did not understand
was that the hotter and sunnier the climate,
the darker the skin the better, because darker
skin is actually an adaptive advantage in
such environments.
In colder, darker climates, skin gets lighter,
as humans give up melanin just like marine
mammals give up limbs.
But in hotter places, the risk of skin cancer
goes up if you are from a skin tone group
that originates from places more sheltered
from the sun.
The fact that dark skin is such an advantage
is why it was retained in human populations
that need it.
Nature is so smart!
4.
Human Penises are Unusual
The human penis might be taken for granted,
but the penis of Homo sapiens is actually
unusual by primate standards.
Humans rely on blood flow to create a hydraulic
erection, while other mammals typically have
a penis bone for mating.
The rapid nature of human sexual intercourse
explains the lack of a penis bone in humans.
Our species only takes an average of two minutes
from the time the penis is inserted to the
time that ejaculation takes place.
Er… sorry, ladies.
Animal species facing high competition for
mates have significant chance of mating with
a female, only to have that female mate with
another male.
Prolonged sexual activity, aided with the
presence of a baculum is thought to reduce
the chance of the female being fertilized
by another male soon after mating with the
first male.
In species with reduced sexual competition
dynamics, the baculum bone is shorter and
less developed.
Humans spend little time mating, reducing
evolutionary pressure for lengthy copulation
and with it, the need for a baculum.
3.
We Pay the Price for Brains
Human intelligence means big brains that come
at a price in childbirth.
Having a baby can be a joyous life event,
but it is undeniably painful at the point
at which birth occurs, in the time leading
up to birth, and for a while afterwards.
While the hips could evolve to become wider,
it appears that natural selection pressures
to do so have not been strong enough to create
a significant change, while human brain development
makes for a baby with a substantially sized
head (compared to other species) that is admittedly
challenging to birth.
The physiological challenges of childbirth
have spawned significant scientific theorization,
one observation being that while wider hips
could develop, a compromise is already made
by humans being born at a still very neotenous
stage preventing further complications from
large brain size.
Infants are in a helpless state when born,
with much more development required than in
many other mammals.
A similar parallel is seen in birds, as in
helpless baby robins versus ready to go quail
chicks or ducklings.
Despite the difficulty of birth, human babies
are born before further development can take
place that would tremendously increase difficulties.
2.
Amazing East Asian Adaptations
People of East Asian ethnic origin possess
fascinating traits rooted in genetics.
Human genetic research conducted with mouse
models showed that a genetic mutation known
the EDAR gene with a 30,000-year-old history
originated in what is now China.
The gene was modeled in a research project
by placing the gene into a mouse genome, causing
mice to exhibit the traits associated with
this gene in humans.
This EDAR gene is responsible for a cluster
of distinctive traits including numerous sweat
glands, which may have helped early humans
in parts of Asia to mitigate excess body heat
in humid conditions.
The EDAR gene also gives specific anterior
indentation in the incisor teeth, compact
breast development in women, and the thickest
and strongest hair shafts of all human hair
types.
The sturdy hair of humans of East Asian genetic
origin boasts round follicles and immense
strength to the point where it is favored
in the market for authentic human hair wigs.
1.
Humans Genetics are Shaped by Malaria
As humans, our genetic makeup has been altered
by abnormalities in our gene pool responding
to the threat of the malaria pathogen.
There are three significant abnormalities,
or polymorphisms affecting hemoglobin in humans
around the world including sickle cell anemia
(best known from African populations), a form
of thalassemia that causes anemia in some
Mediterranean populations, plus a different
thalassemia in some regions of Asia that protects
against malaria.
Interestingly, these abnormalities are only
present where malaria is known to occur.
Research conducted in Papua New Guinea showed
that a disorder called alpha thalassemia causes
those affected to have red blood cells of
an unusually minute size compared to typical
individuals.
As a result, those with the condition have
their hemoglobin distributed across a greater
cell count.
Despite causing mild anemia, the condition
lends valuable resistance to malaria.
In the occurrence of conditions like alpha
thalassemia, we see a prime example of natural
selection at work on traits in the global
human population.
