Monday, October 9, 2017

How Asymmetry drives ecological complexity in evolution: Guiseppe Longo

pdf Guiseppe Longo on quantum anti-entropy and evolution

And so the view here is that randomness can not explain ecological evolution with complexity but rather it is symmetry breaking or asymmetry that drives ecological complexity.

This is quite ironic considering how science is wholly based on symmetric math with the opposite result of increased entropy on Earth, thereby wiping out ecological complexity of life!

This is the point I have been making - so glad to see a professional academic at least acknowledging the positive view of ecology - it is from reverse entropy or anti-entropy at the quantum level through symmetry breaking: Not symmetrical-based randomness.

So the authors consider their model an extension of Darwinian evolution, not a replacement.

His youtube talk on Stephen Jay Gould, an increasing complexification of life via contingency

His academic papers

Longo notes that the incompatability of relativity with quantum physics still maintains the mystery of symmetry breaking in its origin of anti-matter/matter and charge of spacetime itself.

Longo emphasizes that antimatter and matter colliding is not zero energy but rather high frequency energy - gamma. Similarly entropy and anti-entropy have different observables, just as antimatter have different quanta. So anti-entropy leads to increased complexity of organization. 

In other words only a macroquantum natural resonance is the solution to real ecological sustainability.

In contrast nonlinear chaos analysis is still a classical approach to the quantum realm.

So in this amazing talk Guiseppe Longo points out that in actuality cancer is caused by damage to the stroma.

And what is stroma made out of primarily? Collagen! Science of Stretch

However, during chronic inflammation, myofibroblasts can drive an excessive deposition of collagen, and the increased tissue tension can result in the development of tissue contractures that restrict full range of motion. This response is also thought to play a role in the development of some types of tissue fibroses and cancer.
 mechanical stimulation of connective tissue generated by needle manipulation could transmit a mechanical signal to sensory nerves, as well as intrinsic sensory afferents directly innervating connective tissue.

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