The parasitic flatworm that turns a snail’s eyestalks into colourful, pulsating glowsticks
Nick Baker’s HIDDEN BRITAIN The popular naturalist, author and TV presenter reveals a secret world of overlooked wildlife
GREEN-BANDED BROODSAC
The green-banded broodsac – what kind of a name is that? Normally we name an animal after the appearance or behaviours of the adult, but in the case of the fluke Leucochloridium paradoxum, unless you want to go poking around the guts of snails or the bums of birds, its broodsac – a membranous sac containing larvae – really is the most visible part of this parasitic flatworm’s life. And when I say visible, it’s no exaggeration.
If you’re lucky, you might come across the unassuming amber snail (Succinea putris) putting on an uncharacteristic and extrovert performance. With its eyestalks pulsating in high-contrast patterns of green, black and red, you are witnessing the phenomenon that gives this fluke its name. These are the fluke’s broodsacs and they are part of a complicated life-cycle that involves a bird, a snail and a fluke.
It all starts with a snail stumbling upon a dollop of nutritious bird poo containing the eggs of the fluke: this is species jump number one, from a bird to a snail. These eggs then hatch in the snail’s gut, and larvae called miracidia find their way into the snail equivalent of a liver. Here, a larva can become a ‘sporocyst’; the headquarters from which to initiate its takeover bid of the snail’s life, dreams and eyestalks.
The parasite has to accumulate nutrients to fuel the next stages of its life. It doesn’t look like much – just a blob of stringy white gristle without clear features or a mouth. Instead, the encysted fluke sends out tendrils of tissue that ramify through the snail’s body, absorbing nutrients directly through its skin and, in doing so, diverting the snail’s food.
At maturity, the sporocyst grows arms that snake through the snail’s body and seek out the snail’s eyestalks. Here, the beginnings of one of nature’s most bizarre and sinister processes take place. The sporocyst in the snail’s ‘liver’ produces another form of larvae. These ‘cercariae’ migrate to the broodsacs that are now developing in the snail’s eyestalks. With up to 250 of these larvae in each broodsac, each covered in a protective mucous coating, room is tight and the eyestalks swell and distort; the snail’s skin gets stretched so thin the paras
