Instead of staying long and smooth like a worm, you develop bands around the body which give you a segmented shape. Each segment develops a thicker part like a claw on each side. Four segments are found to give the best results, three with two 'claws' each for walking, slowly, and one at the back which can be used to hold on to whatever you are living on.
You spread around the world, living in all sorts of conditions from the deep ocean to the high mountains. You are almost unbelievably tough! You can endure dehydration, radiation, temperatures only one degree above absolute zero and well above boiling point.
That 'slow walk' gives you your name: Tardigrades, commonly known as water bears.
That's as far as you can evolve here!
You can go back to the start with the link above, or share what you became with the icons below.
Evolution starts with the Last Universal Ancestor.
You can find out what happened before evolution here.
You can also short-cut to Land plants, or Animals
Sunday 27 March 2016
Nematoida
You stick with your worm shape, which is pretty well adapted, and spread around the world in massive numbers. Your family, the Nematoid worms, eventually turn into thousands of different, but similar little worms, each adapted for a specific part of the global ecosystem. Some live among the roots of trees, others are parasitic on a variety of hosts.
Possibly the most amazing thing about you is that you are everywhere. There is no location on Earth where life is found where nematode worms are not found.
Possibly the most amazing thing about you is that you are everywhere. There is no location on Earth where life is found where nematode worms are not found.
That's as far as you can evolve here!
You can go back to the start with the link above, or share what you became with the icons below.
Saturday 26 March 2016
Chordate animals
Now that you've developed into a tube, some parts of your body are a long way from some other parts. You already have nerves and sensory apparatus, but it would be useful to have some decent plumbing to get signals from one end to another.
As you develop, you are comprised of three layers of cells - the endoderm, mesoderm and ectoderm, which become, roughly, skin, muscle, and gut respectively. You need to make a new kind of tissue to become a communications hub. It can develop from either the mesoderm (muscle layer) or the endoderm (gut layer).
Muscle.
Gut.
As you develop, you are comprised of three layers of cells - the endoderm, mesoderm and ectoderm, which become, roughly, skin, muscle, and gut respectively. You need to make a new kind of tissue to become a communications hub. It can develop from either the mesoderm (muscle layer) or the endoderm (gut layer).
Muscle.
Gut.
Spine-less, unsegmented, non-retractable-headed cuticle worm
You’re getting bigger, which makes you a bit faster, but you’re still a slow little worm. Are you sure that segmented body plan was a bad idea?
Oh go on then, segment me up.
I like being a worm. Leave me alone
I like being a worm. Leave me alone
Deuterostome
As each individual in your species develops, its cells divide, grow and differentiate, forming a tube shape with a front and a back, symmetric sides and different kinds of cells. Cells which will form the sensory apparatus which the animal uses to hunt and eat appear on the opposite side to the initial dent, which lengthens until it eventually bursts through in the centre, creating a tubular gut with sensory apparatus at one end, and an anus at the other.
The sensory apparatus is currently quite simple, detecting food and closing the mouth, then opening it again once the food has been consumed. Over time, it will become more sensitive, enabling you to choose between two options: detect traces of larger food animals which have passed nearby, which you can expend energy to go and fetch, or stay still and wait until you detect smaller particles.
I'll let the food come to me.
I'll go to the food.
The sensory apparatus is currently quite simple, detecting food and closing the mouth, then opening it again once the food has been consumed. Over time, it will become more sensitive, enabling you to choose between two options: detect traces of larger food animals which have passed nearby, which you can expend energy to go and fetch, or stay still and wait until you detect smaller particles.
I'll let the food come to me.
I'll go to the food.
Scalidophora
A small change to the way the muscles are arranged, and you gain the ability to pull your entire head down inside your body. This keeps you safe when you are on the surface, although you spend most of your time down in the mud at the bottom of the sea. You eat a variety of foods, from diatoms to other worms, and are effectively a wriggling mouth into the present day.
You have divided into three main types. Priapulida and Kinorhyncha, commonly known as penis worms and mud dragons, and Loricifera, which have only recently been discovered as they spend their entire lives buried deep in the mud at the bottom of deep seas. This latter group has one very interesting characteristic: they are the first multicellular life form which can live entirely without oxygen.
Way back on our evolutionary tree, a life form acquired a special ‘organelle’ called a mitochondrium, which was once a captured bacterium. They have their own DNA, and their own, continuing evolutionary story inside this one. In Locifera, the mitochondria have mutated slightly, and no longer combine carbon with oxygen to create energy. Instead they are able to metabolise carbon compounds by removing hydrogen. As a result, some locifera species live their entire lives without needing oxygen. In the event of a catastrophic change in our climate, they might be the start of the next phase of evolution.
That's as far as you can evolve here!
You can go back to the start with the link above, or share what you became with the icons below.
Way back on our evolutionary tree, a life form acquired a special ‘organelle’ called a mitochondrium, which was once a captured bacterium. They have their own DNA, and their own, continuing evolutionary story inside this one. In Locifera, the mitochondria have mutated slightly, and no longer combine carbon with oxygen to create energy. Instead they are able to metabolise carbon compounds by removing hydrogen. As a result, some locifera species live their entire lives without needing oxygen. In the event of a catastrophic change in our climate, they might be the start of the next phase of evolution.
That's as far as you can evolve here!
You can go back to the start with the link above, or share what you became with the icons below.
Friday 25 March 2016
Eukaryota-engulfee
Around you are lots of early eukaryotes, which engulf smaller things, such as you, a prokaryote, to steal their energy until eventually something odd happens... one eats one, and it survives. You're inside another organism. Ewwwww. You live on inside the prokaryote, and, protected by you from most other threats, eventually lose the genes you aren't using. What is left, is a pretty simple thing, no longer an organism, but an organelle. You are now called a mitochondrium, and you are part of a Eukaryote.
At this time, the Eukaryotes are large, sexual, organisms with a tail for swimming called a flagellum. Two are called flagella. One or two?
One is enough!
Chemical Prokaryote
Chemical prokaryotes tend to be bigger. They have a larger plasmid (circular chromosome) to carry all the genes they need to express several different chemical pathways. This is actually becoming a bit of a problem, as groups of genes which work well together are getting longer and longer as well as more numerous. You need some way to pack them in better. Genes are often thousands of times longer than they are wide, resembling massive threads, and one well known way to tidy away threads is to wind them on a spool. There are several different chemicals which can act as a spool, but two in particular stand out with the lower cost for a given functionality. One costs more, but allows more efficient packing, and is called histone. The other is called HU.
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