Post by Pincho Paxton on Nov 21, 2015 13:17:45 GMT
Link...
Scientists Map Acorn Worm DNA, And Learn A Lot About Humans In The Process
I am going to dissect the latest Science News into a version that I find is closer to the truth, because after-all my theory came before the evidence, and I always feel that the person that eluded to the theory had the right mindset to complete the theory most accurately. So here goes...
Not necessarily an ancestor, you can skip the acorn worm by forking directly from another worm...
The worm that I am thinking of didn't just fork, it was more like a seed that rooted a lot of creatures all at once, I would call it the 'Metamorphic Worm', and because it was so metamorphic the gills didn't have to establish themselves completely in the fork to humans. You would have a single worm playing the part of for example 1000 individual worms. Some of the metamorphic states would have gills, some would have legs, some would have frills, some would have tails, some would have fins, and some would have more legs than others. So lets look at the roots leading to other creatures...
Metamorphic worm to frilled worm
Metamorphic worm to finned worm
Metamorphic worm to Metamorphic legged worm
Metamorphic Legged Worm to Blue Dragon Sea Slug
Metamorphic Legged Worm to Metamorphic Salamander
Metamorphic Salamander to Metamorphic Fish with legs
Metamorphic Frilled Worm to Metamorphic land animal with frills
Metamorphic Fish with legs to Metamorphic fish
Metamorphic land animal with frills to Metamorphic land animal
Metamorphic Fish with legs to Metamorphic Amphibian
Metamorphic legged worm to insect
Metamorphic fish to Fish
Metamorphic land animal to Land animal
Metamorphic Amphibian to Lesser Metamorphic Salamander
Lesser Metamorphic Salamander to Newt and Frog
The metamorphic roots faded away eventually, probably to do with mating with the right metamorphic states, or cancer relating to the body being too easily disrupted. We have some of the metamorphism left which would be cancer, and the brain which changes all of the time.
The point of this post is that a fork is more complicated than just a fork, and the worm was more like a root than a fork, and you don't have to include the acorn worm as a human ancestor, so I am just correcting that point really.
Actually there's another point in the post, that fish didn't need to leave the sea, and in fact only the salamander type fish ever needed to leave the sea, and it had already left the sea before it was a fish anyway. This is to do with the physics of weight, and metamorphism which I point to Astronauts as an example. Astronauts lose leg muscle strength, so it is easier to go from legs to fins than it is from fins to legs, and also pressure on the ground builds up strength, so it also easier to go from the worm to salamander than it is from fish to land animal. Fish with fins never really need to experience long term pressure to diverge to legs.
Pincho Paxton
Scientists Map Acorn Worm DNA, And Learn A Lot About Humans In The Process
I am going to dissect the latest Science News into a version that I find is closer to the truth, because after-all my theory came before the evidence, and I always feel that the person that eluded to the theory had the right mindset to complete the theory most accurately. So here goes...
More than 500 million years ago, humans and these soft-bodied invertebrates had a common ancestor, as Live Science reports. And to this day, we share about 14,000 genes.
Not necessarily an ancestor, you can skip the acorn worm by forking directly from another worm...
As Berkeley News reports, the newly sequenced genomes are shedding light on the evolution of pharyngeal slits (which acorn worms use to filter food from seawater) into gills and then into the pharynx, the organ that gives humans the ability to bite, chew, swallow and speak.
The worm that I am thinking of didn't just fork, it was more like a seed that rooted a lot of creatures all at once, I would call it the 'Metamorphic Worm', and because it was so metamorphic the gills didn't have to establish themselves completely in the fork to humans. You would have a single worm playing the part of for example 1000 individual worms. Some of the metamorphic states would have gills, some would have legs, some would have frills, some would have tails, some would have fins, and some would have more legs than others. So lets look at the roots leading to other creatures...
Metamorphic worm to frilled worm
Metamorphic worm to finned worm
Metamorphic worm to Metamorphic legged worm
Metamorphic Legged Worm to Blue Dragon Sea Slug
Metamorphic Legged Worm to Metamorphic Salamander
Metamorphic Salamander to Metamorphic Fish with legs
Metamorphic Frilled Worm to Metamorphic land animal with frills
Metamorphic Fish with legs to Metamorphic fish
Metamorphic land animal with frills to Metamorphic land animal
Metamorphic Fish with legs to Metamorphic Amphibian
Metamorphic legged worm to insect
Metamorphic fish to Fish
Metamorphic land animal to Land animal
Metamorphic Amphibian to Lesser Metamorphic Salamander
Lesser Metamorphic Salamander to Newt and Frog
The metamorphic roots faded away eventually, probably to do with mating with the right metamorphic states, or cancer relating to the body being too easily disrupted. We have some of the metamorphism left which would be cancer, and the brain which changes all of the time.
The point of this post is that a fork is more complicated than just a fork, and the worm was more like a root than a fork, and you don't have to include the acorn worm as a human ancestor, so I am just correcting that point really.
Actually there's another point in the post, that fish didn't need to leave the sea, and in fact only the salamander type fish ever needed to leave the sea, and it had already left the sea before it was a fish anyway. This is to do with the physics of weight, and metamorphism which I point to Astronauts as an example. Astronauts lose leg muscle strength, so it is easier to go from legs to fins than it is from fins to legs, and also pressure on the ground builds up strength, so it also easier to go from the worm to salamander than it is from fish to land animal. Fish with fins never really need to experience long term pressure to diverge to legs.
Pincho Paxton