Table of Contents (click to expand)
Only worker honeybees die after stinging. Their stinger is barbed, so when it pierces the thick skin of a mammal, it stays lodged. As the bee tries to fly away, it rips out the stinger, venom sac, and part of its abdomen, and dies within minutes. Other bees, wasps, and hornets have smoother stingers and can sting repeatedly without dying.
Ever wonder why bees sting? It isn’t for an aggressive reason, as we often assume and depict in media. Bees only sting when they feel the need to defend themselves; it is a defensive, rather than an offensive maneuver.
However, did you know that in defending themselves from danger, bees unintentionally sacrifice their own life when they sting you? Honeybees self-amputate a part of their abdomen, much like frontline defense soldiers being killed in action, to protect the hive.
Can All Bees Sting?
No. To begin with, male bees of every species are physically incapable of stinging. The stinger evolved from the ovipositor, the tubular egg-laying organ found only in females, so males simply never had one to begin with. Then there are the so-called ‘stingless bees’ (the tribe Meliponini), where the females do have a stinger, but it is so reduced and vestigial that it can’t be used for defense at all.
The males of Xylocopa, a genus of carpenter bee, may follow you with an air of intimidation, but they’re pretty harmless and don’t sting. The same goes for bumblebee males. And even though female solitary bees do carry stingers, stings are quite uncommon from the most prevalent species (mason bees, mining bees, and leaf-cutters), because without a colony to protect, they have no reason to be aggressive.

A Female Bee’s Sting
Looking at the constitution of a hive, each will typically have hundreds of male bees (drones), a reproductively active female queen bee, and 20,000-80,000 worker (all females and all sisters) bees. However, their abundance and infertility make them somewhat disposable. Additionally, as the main workforce of the colony, defense is one of their top priorities. When aggravated, they do sting. These females form the only proportion of the colony that will use their stinger for its painful purpose!

What Is A Bee Stinger?
A stinger is present in all species belonging to the infraorder Aculeata, which includes ants, bees, and the stinging wasps (a group that contains hornets and yellowjackets).
The stinger is a modified ovipositor connected to a pair of venom glands.
The body of a honeybee is divided into the head, thorax, and abdomen. The abdomen itself is made up of ten segments, although only six or seven are easily visible from the outside. The last visible segment houses the sting apparatus inside a cavity called the sting chamber. Because this chamber is continuous with the rest of the abdomen, it also contains the final part of the bee’s digestive tract, nerve ganglia, the retractor and protractor muscles that drive the stinger in and out of the prey, and a bulb-shaped venom sac.
The stinger is a modified ovipositor, a tubular female organ that is used to deposit eggs. Thus, it makes sense that only the female bees have a stinger that actually works!
Though their ovipositor no longer functions as an egg-laying organ, the workers have retained it across evolutionary time for use in defending their home.

A queen bee can also sting, but she only puts her stinger to use when facing competition from another potential queen.
How Does A Stinger Work?
Morphologically, the stinger is hollow and pointy, with two rows of serrated and barbed blades, resembling a harpoon.
Upon encountering a potential threat, a worker bee will decide to use its go-to defense mechanism. The protracted muscles accompanying the stinger apparatus will move the stinger down, enabling the bee to penetrate its prey. To create enough thrust to penetrate through thick skin (if need be), the bee additionally uses its legs and abdominal muscles. Once the stinger is driven in, the venom sac releases its contents through a channel in the stinger. Subsequently, the retractor muscles will help in the retrograde movement of the stinger shaft.
Research has shown that the stinger moves both helically and in a clockwise direction as it penetrates its target. However, as the stinger is barbed, it offers a lot of resistance, making it almost impossible for the bee to remove it after making the strike.
Most bees and their queens, along with wasps and hornets, may have a reputation for being fierce stingers, but thanks to their smooth stingers, they don’t necessarily have to die after they sting you. The stinger will release its venom and effortlessly slide out.
The worker honeybee, unfortunately, has a barbed stinger that only gives them one chance.
The instant her stinger pierces the target, it gets lodged in the prey’s skin. In an attempt to fly away, the bee tries to break free, but in the process ruptures the lower portion of her abdomen. Everything present in the last abdominal segment, including muscles, digestive material, venom sac, and glands, is left behind with the strongly anchored stinger.
Even more remarkably, the abandoned apparatus doesn’t go quiet right away. The detached venom sac keeps pulsing on its own for about a minute, with the sting’s own nerve ganglion driving the lancets deeper and pumping venom into the wound long after the bee has flown off. That is why the standard first-aid advice is to scrape the stinger out quickly rather than wait.
Needless to say, having a hole in their abdomen doesn’t do the bee any good. The injured worker dies within minutes to a few hours. This is an act of autotomy, in which an organism deliberately sheds part of its body to escape a predator or any other form of danger.
Closing Thoughts
A painful abdominal rupture does no good to the bee, so why do bees sting? Maybe they’re being altruistic and sacrificing their lives for the protection of their entire colony. As infertile individuals, they cannot bear offspring and directly contribute to the gene pool of their hive. Instead, they do their part in ensuring the safety of those individuals who can help in the persistence and success of the colony.
References (click to expand)
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