Carta Limus Chapter 3: Limoanimarean Phosphopathy
Posted: Sat Dec 23, 2017 12:20 pm
Extract from Carta Limus, published 2229.
Used under Z.C.C for Academic Purposes.
All credit to Jyn Caskerde, Olste Kebre, and Iowen Trosvord.
Limoanimarean Phosphopathy
Limus animalia, or, to the common individual, the Slime, is host to a great number of variation; from the humble Limus animalia rosea to the elusive Limus animalia gloriae. We have already covered the invisible brilliant behind rosea, and the infinitely replenishing source of feles's antics; now we move on to one of the most fascinating of all the limoanimaleans: Limus animalia aestarerum.
Lucerna
Filling the gigaplasmic body of aestarerum is a huge web of string-like lucernal tissue, forming the lucerna - the direct output of light from the organism.
The system functions by reacting glucose (hence aestarerum's infamous hunger for fruit) and oxygen in the stellacytes, which form the innermost layer of the lucerna, releasing the energy produced directly via extralucernacytes - which form the outermost layer of the lucerna - as light.
Pseudo-voluntary Control
Unlike the ambient internal pulsations of Limus aqua-habitator animalia and Limus anti-aqua-habitator animalia, aestarerum's lucernations are controlled entirely by the organism; linked to a variety of nerves stemming from the Heliovirga, the organism can choose to lucernate or not so whenever it wishes - however, much alike gas exchange, it will often fire sub-consciously.
This strange phenomenon is brilliantly harnessed by aestarerum with its phosphopathy; or, in simpler terms, communication via luminescence.
Phosphopathy
When aestarerum wishes to broadcast a message to others of its species - whether it be joy, presence of food or distress - it does so by sending unique patterns of lucernation, which are then carried along by the receivers of the pattern in a yet more cryptic pattern.
Although we still lack the means to translate phosphopathy into understandable languages, we can track the amount of individuals the message has passed through; every signal is accompanied by UV light, and the wavelength of said light increases by Naire's Constant (around 7.22) μm each transfer.
Used under Z.C.C for Academic Purposes.
All credit to Jyn Caskerde, Olste Kebre, and Iowen Trosvord.
Limoanimarean Phosphopathy
Limus animalia, or, to the common individual, the Slime, is host to a great number of variation; from the humble Limus animalia rosea to the elusive Limus animalia gloriae. We have already covered the invisible brilliant behind rosea, and the infinitely replenishing source of feles's antics; now we move on to one of the most fascinating of all the limoanimaleans: Limus animalia aestarerum.
Lucerna
Filling the gigaplasmic body of aestarerum is a huge web of string-like lucernal tissue, forming the lucerna - the direct output of light from the organism.
The system functions by reacting glucose (hence aestarerum's infamous hunger for fruit) and oxygen in the stellacytes, which form the innermost layer of the lucerna, releasing the energy produced directly via extralucernacytes - which form the outermost layer of the lucerna - as light.
Pseudo-voluntary Control
Unlike the ambient internal pulsations of Limus aqua-habitator animalia and Limus anti-aqua-habitator animalia, aestarerum's lucernations are controlled entirely by the organism; linked to a variety of nerves stemming from the Heliovirga, the organism can choose to lucernate or not so whenever it wishes - however, much alike gas exchange, it will often fire sub-consciously.
This strange phenomenon is brilliantly harnessed by aestarerum with its phosphopathy; or, in simpler terms, communication via luminescence.
Phosphopathy
When aestarerum wishes to broadcast a message to others of its species - whether it be joy, presence of food or distress - it does so by sending unique patterns of lucernation, which are then carried along by the receivers of the pattern in a yet more cryptic pattern.
Although we still lack the means to translate phosphopathy into understandable languages, we can track the amount of individuals the message has passed through; every signal is accompanied by UV light, and the wavelength of said light increases by Naire's Constant (around 7.22) μm each transfer.