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Did seaweed make us who we are today?

Over the past 2.5 -- 2 million years human brains have gone through the most significant development, and as a result modern-day humans are left with an organ that is the source of all the qualities that define humanity.

Did seaweed make us who we are today?
Millions of years ago something happened, allowing early Homo sapiens to branch out from the primitive hominoid family 
tree. Was this crucial turn in human evolution partly driven by seaweed and its particular content of essential nutrients?
 [Credit: Mario J. Pinheiro/The Soul of Matter]
Our ancestors needed lots of energy-rich foods just to get by, and for this impressive, significant brain development they also needed certain essential nutrients.

Without nutrients like magnesium and zinc modern brains cannot function, and according to a number of scientific studies it is likely that the access to certain essential nutrients influenced the evolution of the human brain so that it could become the brain we have today.

From primitive ancestor to modern human

"Nutrients needed for this transition from a primitive ancestor to modern Homo sapiens were (and still are) available in seaweeds. Seaweeds could be found and harvested in abundance on shores, and for a foraging lifestyle, a rich coastal environment would be a significant source of a consistent supply of these nutrients," says Professor Ole G. Mouritsen, University of Southern Denmark.

Professor Mouritsen is an expert in molecular biophysics and author of several books about food science.

He is co-author of a newly published review in Journal of Applied Phycology on research highlighting the potential impact of the consumption of a variety of seaweeds (so-called large marine algae, or macroalgae) in human brain health, including benefits to early Homo sapiens.

Other contributors to the review are Melania Lynn Cornish and Alan T. Critchley, Acadian Seaplants, Canada.

Foraging in coastal areas

In their article the authors note that the human lineage is estimated to have diverged from our closest living relatives, the chimpanzees, around 5-7 million years ago.

Did seaweed make us who we are today?
Coastal areas may very well have attracted early hominoids in search of food, including seaweed 
[Credit: © Noriko Hayashi/Bloomberg/Getty Images]
"However, the changing patterns of resource distribution associated with the extensive drying and expansion of the African savannahs between 2.5 and 2 million years ago have been the impetus for a shift in foraging behavior among early members of the genus Homo. Foraging over longer distances for food would have contributed to bipedalism and a different body stature as increasingly larger ranges had to be traversed, and in the case of our primitive ancestors, this would undoubtedly lead to significant changes in diet," the authors write.

Coastal areas may very well have attracted early hominoids in search of food.

Just as healthy for us

"Our ancestors would find foods like fish, crustaceans, snails, seaweeds, bird eggs and perhaps occasional dead marine vertebrates. But they probably did not have the necessary rudimental understanding of seasonal tidal cycles and their influence on shellfish availability. Seaweeds of different types, on the other hands, can be found all across the intertidal zone from the high water mark to the subtidal regions and they could be readily and repeatedly harvested for food by all family members, including women and children," the authors state.

The nutrients in seaweed not only benefitted our ancestors.

"Seaweed is just as healthy and nutritious for humans today as it was millions of years ago," says Professor Ole G. Mouritsen.

Essential nutrients for brain development:

Taurine. Can be found in red algae, marine fish, shellfish and meat of mammals. Is present in large amounts in the central nervous system and in the retina. The highest concentrations occur in the developing brain. Levels in adults are app. 1/3 of those of newborns.

Magnesium. Can be found in legumes, pumpkin and squash seeds, nuts and macroalgae. It plays an important role in neuroprotection and cognition. Important for the ability to store new information in neural networks.

Zinc. Can be found in many foods but is particularly plentiful in various cuts of meat, especially liver. Extremely abundant in oysters. Crustaceans and most seaweeds are also robust sources. Plays an important role in learning, development and memory.

Vitamin B12. Is found exclusively in animal products such as meat, eggs, fish and milk -- with one exception: it is also confirmed in Pyropia species of seaweeds and it is quite likely in others that have yet to be adequately analyzed. B12 is important for blood flow in the brain and cognitive functions like language.

Iodine. Found abundantly in seaweed, especially in brown seaweeds. A necessary element for the synthesis of thyroid hormones, which are essential for central nervous system development.

Poly-unsaturated fatty-acids (PUFAs). The original sources of PUFAs are not, as often thought, fish and shellfish, but micro- and macroalgae like seaweed.

Author: Birgitte Svennevig | Source: University of Southern Denmark [February 28, 2017]

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  1. B12 is not "found exclusively in animal products" as claimed. It is also present in a variety of greens and many other plant sources. Seaweed is delicious and healthy, however.

  2. Thanks for this. It's another confirmation of the littoral theory of human evolution, or Coastal Disperal Model (Munro 2010): our Pleistocene ancestors did not run over hot & dry plains as still often believed just-so: this is physiologically, nutritionally & otherwise impossible, e.g. water, salt, DHA, iodine, taurine & other brain-specific nutrients are scarce in savannas, but abundant at sea-coasts, not only in shell- & crayfish but as shown by professor Mouritsen cs also in seaweeds. Early-Pleistocene archaic Homo (>1.8 Ma) dispersed intercontinentally following the African & Eurasian coasts (& later also islands & inland along rivers), google e.g. the title of a paper in Hum.Evol.: "The aquatic ape evolves: common misconceptions and unproven assumptions about the so-called Aquatic Ape Hypothesis".


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