the final piece of the evolution puzzle
danny vendramini



implications of teem theory































































































































the proof is in the pudding

While the advent of a radical new biological paradigm will doubtlessly meet some a priori resistance from life scientists who have subscribed to a 'single evolution' paradigm all their working lives, teem theory does appear to explain a wide variety of biological phenomena. In fact, the best proof for the theory comes from its ability to resolve and explain so many problematical issues in biology, genetics, palaeontology and psychology.


what teem theory explains

 
Teem theory confirms Darwin's belief that in addition to natural selection,’ a second evolutionary process exists which specifically regulates behavioural evolution.



This second evolutionary process explains one of the most truculent mysteries of biology – how new instincts and innate behaviours (including ‘human nature’) are created and inherited from one generation to the next.


Because the second evolutionary process uses emotion as its medium of inheritance, it explains the ubiquitous presence of emotions in multicellular animals.



Because the teemosis evolutionary process boosts the efficiency of natural selection, it explains how irreducibly complex physical organs like the human brain and reptilian eye evolved (without the aid of an intelligent designer.)


As well as the system of inheritance discovered by Gregor Mendel (that uses coding genes to regulate the inheritance of physical traits), a second undiscovered system of behavioural inheritance, (the Teem Inheritance System) also operates within the DNA molecule. Because the emotions, innate behaviours, personality and instincts of multicellular animals are inherited as noncoding DNA (ncDNA) nucleotides, this explains why no genes for complex, environment-specific behaviours or emotions has ever been found.

Following on, teem theory finally explains the presence of all that noncoding DNA (what has often been referred to as "junk DNA") in the genomes of multicellular animals, including humans whose genome is comprised of 98.5% ncDNA.


This hypothesis also explains why ncDNA is highly conserved (very similar) in all multicellular animals. Even after hundreds of millions of years, animals as diverse as humans and frogs still share identical ncDNA sequences. If ncDNA really was just genomic 'junk', it would have gradually been eroded over the eons. 


Teem theory explains how traumatic stressor emotions can cause mutations in noncoding DNA elements (Alu elements, SINEs, LINEs etc.) These mutations in ncDNA are known to cause as many as 36 neurodegenerative diseases, including cancer. It therefore finally provides a plausible explanation for how environmental events and stresses can precipitate diseases like cancer.


Teem theory suggests that chronic illnesses like anorexia nervosa, stressed anxiety, obsessive- compulsive disorder, agoraphobia and body dysmorphic disorder are precipitated by pathologies in an individual’s sensory and emotional perception apparatus.



It explains why the fossil record has never tallied with Darwinian theory. The theory accurately explains the highly distinctive pattern of fossils much better than existing Darwinian scenarios.


It explains the why, when and how of ‘The Cambrian explosion’, arguably the greatest of all palaentological mysteries, when life suddenly and mysteriously 'exploded' 543 million years ago.


Given that over 99% of our genes are the same as chimps, what is it that makes us human, that makes us unique? Teem theory finally answers this perplexing question. The difference turns out not to be physical, but emotional. The biggest difference between humans and chimps are our teems. Out unique teems define not only 'human nature' but our unique physiology as well.


Despite calling his book The Origin of Species, Darwin never really resolved how new species are formed. Teem theory provides a simple new theory of speciation that explains how new species emerge from parent populations. It also explains why fertile sibling species don't interbreed.


Teem theory explains the evolutionary mechanisms that control ‘sexual dimorphism’, how and why animals vary so greatly in size.


 

The teem theory of personality explains how and why all animals (not just humans) evolve personality and demonstrates how personality can be modified by the organism’s environment and inherited to offspring so that unique personality traits accumulate in families. This also explains how and why every individual acquires a unique personality.


Explains that DNA fingerprinting (or profiling) is actually a measurement of an individual’s personality, which is unique to every individual. This will have far reaching implications for medicine, in particular the identification of the genetic concomitants of emotional and personality disorders.


Although one of his greatest achievements, Darwin’s theory of sexual selection doesn't explain how new sexual preferences (which are based on environmental information) are first acquired and passed on to offspring. Teem theory finally provides this missing piece of the puzzle.


The 'cellular model of emotions hypothesis' explains how dreams are ‘written’ during sleep, what their secret evolutionary purpose is and finally explains how dreams can be successfully interpreted.


Finally, teem theory explains some long standing medical mysteries, like blindsight, (when blind individuals inexplicably identify objects placed in front of them), and synaesethesia, when sensory input is scrambled, allowing people to smell music and hear colours. Till now, these extraordinary phenomena denied an scientific explanation.

 
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Copyright 2005-2010 by Danny Vendramini

































Kardoorair Press
(Australia)



Latest release



THEM AND US

How Neanderthal predation created modern humans

by

Danny Vendramini


Available in paperback and EBook


"It has been a long time since I read a book about human evolution that I enjoyed so much."
Professor John Shea, Stony Brook University, New York


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