Finer anatomical detail on the femvore:

Petals- these large, fleshy structures are normally kept closed, giving the plant a bulb-like profile. When closed, they form a watertight seal around the blossom interior and allow light to shine on the plant's vestigial photosynthetic leaves. Most plants open their flowers to attempt to reproduce; in that regard, the femvore is technically quite normal. However, to this plant, there is no difference between reproducing and feeding.
When open, its petals' slick inner lining is exposed. The femvore utilizes proteins absorbed from its food to grow and sustain flexible fiber bundles that contract and relax at will; essentially, botanical muscles.
These are located in its petals and its vines.

Petal lining- This distinctive blue layer of tissue secretes a pheromone-laced lubricant at all times.
It is hypothesized that this lining is also equiped with some form of sensory organ similar to taste buds, but research on that has thus far been inconclusive.

Femvore lubricant- an amazing biological hunting tool, simultaneously serving as a lure and a multi-level trap to render prey helpless. It vaporizes rapidly on exposure to air, and when a gigafloranth femvore's blossom is fully open, it can suffuse the air for at least 20 meters in all directions (full area of effect varies depending on weather.) Any humans within the area of effect will find themselves experiencing arousal, complete loss of inhibition, enhanced curiosity, decreased agression, and a complete loss of survival instinct. In this state, 98.8% of all affected individuals will seek out the femvore, attracted by the flower's sweet scent. Once prey are in physical contact with the liquid lubricant, its chemical effects are intensified, bringing the affected into a state of totally helpless, passive bliss. Additionally, when coated in it, prey are easily divested of their clothing and, when deposited in the blossom, will be too slippery to climb out, fight, or otherwise resist.

Photosynthetic leaves- Juvenile femvores have additional layers of leaves and survive on photosynthesis until they are mature, a process that can take several years. One reaching maturity, the plant sheds all but two layes of the photosynthetic leaves to make way for its gigantic petals. While too small to provide energy for a mature femvore on their own, these remainin leaves serve an important role by sustaining the plant between meals and providing the energy needed to kickstart digestion.

Roots- immobile, tough. Primarily serve to anchor the femvore in place. The roots also collect trace minerals from surrounding soil

vines- a critical dual-function structure and the femvore's primary hunting tool, these tentacle-like structures are flexible and dextrous. The femvore uses them to grab, strip, appraise, and deposit prey inside its blossom. The vines are also equipped with unique organs with which the plant determines whether or not a doe should be used for reproduction (see entry on stamen). In the center of the open blossom is a mouth-like hole leading deeper into the plant; the plant can extend and retract both its stamen and its prehensile sepals from within this oriface. Using the aforementioned sepals, the femvore will pull fresh prey through this oriface and place it inside one of its vines, which are hollow. Despite being very tight and form-fitting, these inner vine-chambers are incredibly elastic, and may stretch to hold seven or eight does at once. These chambers are also where digestion takes place.

Once a vine is too full to move, the femvore will let it relax and start pumping enzymes over the prey inside. This softens and breaks down its meals, though the effect is diluted out once one or two does have melted. Thanks to its lubricant, this process is deeply pleasurable.

Frequently a gigafloranth femvore will eat more than can fit inside its vines all at once; any excess does are contained within the elastic chamber formed by its closed petals. Once a doe is converted to chyme, the plant will pull a new one from this reserve stash. In order to make room for the new does, the femvore will pump any digested women back out into the blossom chamber, forming a resivoir as seen in the diagram. It slowly absorbs this through its petal lining, gaining nourishment.

Prehensile sepals- wiry, thin, similar in structure to the vines, but not hollow. Stored in coils within the tissue walls of the plant.

Core/seed chamber- the hollow center of the gigafloranth femvore. Unlike most plants, it does not produce any kind of fruit or shell before making seeds; once the plant is mature, it will produce seeds at a steady rate for the rest of its life. Hundreds of seeds are stored at once; most will never be used. Each seed consists of a single bloated and extremely fragile haploid cell.

Stamen- a complex and important structure. When it has eaten a minimum of 10 girls, the femvore will assess any subsequent does for mating suitability. What its criteria are has not been determined, but upon selecting a girl, the gigafloranth femvore will extend its stamen (which, like the sepals, shares much of its structure with the hunting-vines) and push it into her vagina until it reaches her womb. At this stage, the doe is generally delerious with pleasure and will relax into a fetal position to enjoy the experience. The stamen has a layer of highly undifferentiated cells covering its tip. These will actually integrate themselves into the doe's uterine wall and bloodstream. Through this connection, the femvore keeps the doe supplied with fluids, nutrients, calories, and oxygen, effectively sustaining her under all conditions. This includes the common situation depicted in the diagram, where the mate is submerged for weeks on end in a vat of melted girl. Once this connection is established, a process taking about three days, the femvore will release a wave of seeds into her body. This has a side effect of supressing the doe's natural ovulation cycle. The femvore's seed cells implant in her womb much like her own eggs are designed to do. There, the seeds undergo an entirely unique germination process.

The need for a functioning human uterus is what gives the gigafloranth femvore the latter of its names; in its search for a suitable reproductince partner, it will only willingly bother to eat female prey (who are potential candidates). Unlike some doe-specific predators, the femvore can safely digest bucks too. It simply doesn't consider them worth the effort of devouring, unless the plant is at risk of starvation.

Gigafloranth femvore reproduction- Most haploid cells produce an offspring by fusing with a haploid cell from another member of its species to make a fully-functioning, self-replicating embryonic cell (sexual reproduction). This is the best form of reproduction for higher organisms in the long term, as the blending of DNA alleviates the buildup of genetic diseases and degradation that comes from repeatedly replicating and recombining the same genome. In all known cases of sexual reproduction, however, the 'other' cell must be:
1. produced by another organism of the same species (or an exceedingly close relative, as in the equation donkey + horse = mule)
2. also haploid; a haploid cell cannot combine with a diploid or "adult" cell.
3. of counterpart design; that is to say, an egg cell to a sperm cell, or pollen to a seed. Two of the same kind of haploid cell cannot reproduce with each other

The femvore neither clones itself nor undergoes sexual reproduction. The seeds implanted in its "mate" (though the term "incubator" or "germinator" would be more technically accurate) procede to fuse with her own cells. They then use her human DNA as a precision mutagen, not combining with it, but using segments of its code and the attached cellular machinery to scramble portions of their own DNA. Once a few days have passed, allowing time for this mutation process to take place, the femvore releases another wave of seeds, which fuse with the mutated seed cells to create genetically diverse offspring.

Thus fertilized, the seeds germinate and grow into small shoots over a period of 11 months. Throughout this time, they are supplied with energy by the doe. This is why the femvore will only attempt reproduction when it has a minimum quantity of food available; it must have enough meat to sustain its mate over the 11 month germination period. The girl, for her part, enjoys the experience from beginning to end. Thanks to the effects of the femvore lubricant pheromones, she doesn't even feel uncomfortable about spending roughly a year being fed with the liquid remains of other does. Her lifespan is dictated by the femvore's stamen, which at this stage of its reproductive cycle is monitoring the sprouting seeds to see when they are matured enough to survive outside. Once they are, the stamen disconnects with the doe's womb and pulls back into the central blossom oriface. The erstwhile mate is left to the care of the prehensile sepals, which transfer her to the interior of a vine for prompt digestion. The germinated seedlings are then easily retrieved by the sepals, and, after being dried in the air, are tossed away to catch a breeze to some new location.
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Here it is, a brief Life History of the Gigafloranth Femvore. I really enjoyed writing this; who knew combining the perverted impossibility of smutty vore with real-life biology was so much fun?

Let me know what you think. It's kind of a wall of text, but that's kinda the point

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