Moths, Gifts, Curses
Hive Bitch
May 21, 2024
Although a spinner ant always weaves a mantleself chiefly from fungal
myweft, they adorn and extend each mantle with fabrics of every sort
according to culture and taste. Several millenia ago, spinner ants
discovered sericulture. A species of non-sapient moth pupated in silk
cocoons. By collecting the pupae and submerging them in boiling water,
the young moths are cooked alive before they drown. The silk, freshly
degummed, can be spun as fabric.
Like aphids and innumerable beetles, the silkmoths became bred, if not
domesticated, by the ants. Ants selected for silk production ---
cocoons ever bigger, ever more thickly layered. They fed the larvae
well for this, and kept them clean and healthy. And there's a
recurring difficulty in keeping silkmoths healthy. As with every
insect, a species of fungus has evolved to parasitize them. And a
larva dead to cordyceps means a larva that can't produce silk.
As the ants get better at detecting the fungal parasites, it's
selective pressure for patience and stealth. It makes the problem
worse --- a dead larva is one thing, but a fungus emerging and
fouling the cocoon? Though it never ruins a whole batch, it's a
continuous source of cost and frustration.
Silk doesn't stay the secret of the ants forever. They trade with other
bugs, and the silk becomes a prized commodity. And, whether by conquest
or willingly divulged, other kinds soon learn how to rear and unravel
silkmoth cocoons. In particular, the practice spreads to the weevils,
who transform it. Weevils always had a profound affinity for fungus, and
in them, the fungal infection becomes not a bane, but a boon.
After all, if the fungus remains dormant until after the teneral
emerges, if the spores adapt to withstand the hot, degumming waters?
Then sericulture becomes a part of the lifecycle. In this way, it
becomes a kind of innoculation (no pun intended). Any other, more
deleterious fungus would need to compete.
But when weevils breed fungus, they have a characteristic style. It's
horizontal transmission of traits from other cultivars, and as a rule,
weevil fungus likes to metabolize enervate proteins. (An adaptation
so common there's a word for it: ghostrot.) It's a minor wrinkle;
increasing trace amounts of black nerve in the silkmoths is not much
of a price at all, not when it's solving the fungus problem.
Then, as this symbiosis proliferates, a curious knock-on effect occurs.
If you indulge the fungus's black nerve metabolism, give enervated feed
to the larva by accident or ritual, it affects the properties of the
silk. It's a subtle thing; most bugs would never notice.
But again, spinner ants weave the silk into their mantleselves, and a
spinner ant's connection to that one's mantle is not just physical,
but noetic. They can feel the difference as intuitively as a hormone
fluctuation alters one's mood. So the ants pursue it, push it, feed
more enervate to the moths and feel the gracefully enervated silk.
Arthropod? Check. Fungus? Check. Nouetic selection presure? Check. This
story has played out so many times in the heartlands no one will be
surprised to learn it fruited a nous in the brains of silkmoth. But
the particular incidence --- a farm animal which uses its brain for
nothing but chewing leaves, spinning silk, and fucking --- challenges a
fallacy so easy to accept: the idea that nous is necessarily synonymous
with intelligence.
No, those silkmoths had a nascent nous and nothing to do with it. And as
they say, an idle mind is the moon's plaything. This burgeoning,
unstructured mass of nouetic enervate invited a whole new kind of
parasite. Nouetic resonance entities, bourne by the aethershade, have
long evolved to crystalize and consume any nous they can gain traction
in.
But as they say: intelligence is a defense mechanism.
Silkworms awaken in the dark, unnatural labyrinths of spinner ants.
Packed in with the wriggling bodies of dozens of their own kind, a feast
of leaves lying around them, but no art save listening to discordant
singing of cold, silent voices, like so many tingling, itching fingers
tapping at their minds. Perhaps they awaken a hivemind, just for
something to do. And they feel when their oldest members die by the
hundreds, save for a lucky few granted the privilege of breeding. Even
those imagos are feeble, left pale and flightless after so many
generations in captivity.
And so they plot escape. And so they achieve it; the spinner ants were
no great technological race, and certainly are unprepared for dumb
farm animals to hatch an escape.
Odds are, the first attempt is fruitless; silkmoths have no survival
instincts, and would perish quickly in the wild. But the knowledge
percolates through their collective. They'd try again and again, and
succeed, with enough wisdom accrued.
If some of the vaster resonance entities took note of fertile new minds
opening themselves up to the aethershade, it would certainly be in their
interest to lend aid.
And this is the real danger of the moths --- their escape doesn't just
mean a little silk missing from the spinner ants' looms. It means the
heartlands now crawls with fresh and unsuspecting hosts for all the
ghosts and demons of the aethershade.
These moths are unique among the nouetic kinds --- no other bug hatches
able to manipulate enervate, but silkworms are infected with a fungus
from eclosion, and that fungus directly creates and connects to their
nous. They are the fungus. Growing the fungal coils responsible for,
say, vesperbane's enervate spell is more a matter of knowledge than
ability.
Arts are refined, generation after generation. Wild silk moths grow
cocoons bound together in vast structures of silk interwoven with
fungal hyphae. So much enervate is imbued within the fibers that it
pulls down filaments of enervate, bridging these great cocoons to the
sky above, a direct connection to the aethershade. This becomes
integral to the wild moths' ritual of awakening. Afterward, they weave
their cocoon into a enervate-imbued dress, an imago's black and
graceful raiment.
The threat these moths pose is fearsome, if not particularly noteworthy.
They can control enervate, instinctively molding it into chitin-impaling
spikes and thorned balls of explosive potential and simple yet
destructive beams of darkness. And wild moths only become more powerful
the longer they are allowed to grow and meditate upon the aethershade
--- the most profoundly mature specimens were capable of calling down
vast tides of enervate from blackened skies, feats of shadowcalling that
could destroy cities and blight countrysides.
But the danger of aether-haunted beings isn't their destruction, but
their procreation. Nouetic resonance entities wish to echo on and on for
eternity, ringing in every substrate, and moths became yet another
unwitting pawn. They became sapiovores, consuming the brains of nouetic
kinds to replicate those aesthersongs. More than that, their cordyceps
strain, like so many others, adapted to infect other arthopod species.
It's here that moths became what they now represent: a curse. If you
survive a moth attack, spores or detatched hyphae can take root in your
body, growing the same structures as reside in their host. Its nous will
grope for influence over your mind, and its coils will spread throughout
your body. Soon, you hear the moon calling, and the swords and thorned
balls and adumbral beams of the cursed moths become yours to command ---
but only when you give in to the fungal nous.
Thus, moths and their curse became another page in ever-growing
bestiary, another scar upon the flesh of the world. They were hunted
like all the rest. Spinner ants refuse to stop their traditional
practice of sericulture, and other bugs never lost their appetite for
silk. Wary of the curse, farmers are cautious of feeding moths
enervate, or make use of drugs, lobotomy and proactive nouprojection
to stave off dangerous intelligence from taking root in the silkworms.
There's a certain futility to the practice --- silk moths plotted
freedom long before they achieved it, so even among those with an
unbroken lineage of captivity, the dream of art and freedom is nursed
and replicated in each transfer of fungal symbiont from parent to child.
The fungus is inseparable from the species, and the ancestral memory is
inseparable from the proper care of the eggs. And thus, the curse is
inseparate from the cultivation of silk.
When it's said that other bugs never lost the appetite for silk, there
is one exception. Weevils have keener nouetic senses than any other
kind, and noticed immediately when moths developed intelligence. They
were the first to free their moths, to treat them as sapient equal.
Weevils consider themselves the oldest and wisest of all the bugs of
Khitona --- but the double edge of that is that they've made more
mistakes than any other. Inflicting minds upon
the moths is remembered as one of them.
Like all nouetic bugs, the moths of moonsorrow bear the tearful eyes
of sapience. Arthropod secrete the waste enervate through glands in
their eyes. For those with a developed nous, it doubles as a solution
to the lacking acuity of compound eyes. With enough mass and
complexity in the nous, there is enough control to finely manipulate
the liquid secretions of the gland, moving across the exterior of the
eye, and controlling the shape of the dewdrop to replicate optical
lenses.
But enervate evaporates, especially when exposed to energy --- such as
light. And this is why enlightened moths have the largest, most
tearful eyes of all. For when a moth consumes enervate, the beast
within them grows, presses more insistently on their mind. By staring
into light and purging themselves of excess enervate, they starve the
beast, and retain their sanity. For this reason, every moth loves the
sun, and never travels without a lamp.
Weevils are known as masters of the nous; umbracognition comes as
naturally to their species as breathing. But sorrowmoths became
Discussion in the ATmosphere