Family : Araneidae
Text © Prof. Giorgio Venturini
English translation by Mario Beltramini
The Aculepeira ceropegia - (Walckenaer, 1802) is an arachnid belonging to the family Araneidae.
In the past, these spiders were included in the genus Araneus, but the remarkable differences in the overall look and in the masculine palps have led to the definition of a separate genus.
The genus Aculepeira (Chamberlin e Ivie, 1942) includes about 21 species and 4 subspecies of spiders. Of these, 8 species and 4 subspecies are typical of the Palearctic region. In Italy, besides the Aculepeira ceropegia, are present Aculepeira carbonaria and Aculepeira armida. Other species are present in the Americas and in Eurasia.
The name of the genus Aculepeira comes from “aculeus” and “Epeira”, name of another spider, therefore, “aculeate Epeira”. Epeira come in its turn, from the Greek wordings “επι” (epi) = “over” and “ειρω” (eiro) = “thread, weaving”: so, “over the weaving”. The name of the species ceropegia comes from the Greek “κηρος” (keros) = “wax” and “πηγη” (pege) = “gush, source”, interpreted also as “candelabrum”, in reference to the shape of dorsal drawing.
Amply diffused in central-southern Europe, rarer northwards in the coldest regions. Absent in England except for some findings occurred by the end of the ‘800. In Italy it is common and locally abundant especially in the mountains up to the 2400 m of altitude.
It prefers open and sunny lands, in bushy ambient and with low vegetation. It builds the web near the ground, on bushes and herbaceous plants frequented by flying insects. The centre of the web is thickly covered by woolly white threads. The shelter, where the spider usually stays and takes refuge from the foes and the bad weather, is a concave structure thickly woven, also covered by white and thick threads.
Often, however, the spider is at the centre of its web, in a well exposed position.
It is a highly sensitive animal and at the slightest disturbance leaves itself fall to the ground where it hides in the vegetation.
For getting back in its web, it uses a security thread already arranged in advance. Like all members of the order of the Araneae (with the exception of the families Uloboridae and Holarchaeidae) also the Aculepeira is endowed of venom glands and, through the bite of the chelicerae, can inoculate the poison into the prey.
The poison contains essentially neurotoxic proteins with paralyzing action acting on the ion channels responsible for the production of the electric potentials of the nervous cells.
When the prey remains trapped in the web, the spider comes, attracted by the vibrations, and with a bite paralyzes the prey.
This is immediately wrapped in a cocoon of silk and then the spider proceeds in inoculating the digestive enzymes which cause the liquefaction of the inner tissues, a predigestion allowing now the spider to suck its food.
Comparative studies have proved that the poison of the Aculepeira is relatively not too toxic (injected into the cockroach it causes paralysis but not death, even at high doses), if compared to that of spiders not building the webs. The most powerful poisons are usually those of mobile predators who, not trapping the prey in the web, need a lethal and very rapid poison.
It is a medium sized araneid, the female up to 14 mm, the male up to 8 mm. The opisthosoma (abdomen) pointed in both extremities and the characteristic drawing render easy its identification.
The opisthosoma is relatively narrow and high, pointed on the rear and restricted also fore. The back extremity of the opisthosoma protrudes markedly beyond the spinnerets.
Yellowish back with dark brown reticulum and a whitish central drawing edged in dark, similar to an oak leaf, hence the English name of “oak spider” or to a candelabrum, hence the Latin name of ceropegia. Yellowish sides with dark brown reticulum.
Ventrally, the opisthosoma presents pale and dark longitudinal bands before the spinnerets. Back to them often are visible some transversal striations. The spinnerets, dark and protruding, are well evident. The prosoma (corresponding to the cephalothorax of other arthropods), relatively small, is covered by abundant hairs. The sternum is dark brown.
Eight eyes, of which four are bigger, close together, are arranged quadrilaterally, and four, smaller, are placed in two pars more laterally.
The femurs have generally a relatively uniform brown-pale colouration, whilst the distal segments have an evident banding with pale-dark rings. The chelicerae are pale brown.
The whole body shows sparse and long bristles. The legs are evidently spiny ( hence the name Aculepeira ), especially in the male.
The oak leaf drawing on the back is similar to that of another Araneid, the Neoscona adianta, which however distinguishes for the smaller size, the not pointed fore opisthosoma and the relatively bigger prosoma.
The spiders are commonly considered as predators with an exclusively carni- vorous alimentation. Actually, alimen- tary resources of vegetal origin may represent important integrations. Recent studies (2013) have furnished interesting updates on the diet of these spiders (and perhaps also of others).
As a matter of fact, the webs, apart catching the insects, usual prey of the spider, trap also particles of aeroplankton such as fungic spores and pollens. When the spider ingests the thread, during the normal recycling or the web or during its repairs, it swallows also the pollinic granules or the spores seized which are pretreated by the extra-oral digestion.
The studies done through isotopic analysis on the Aculepeira ceropegia and the analogous Araneus diadematus have shown that the diet of these spiders consists for the 25% of pollen and for the 75% of insects (especially small dipterans and hymenopterans).
The dimensions of the pollinic granules studied resulted too big for having been ingested accidentally and required an active intervention of extra-oral digestion.
These studies that the spiders must be considered as omnivores rather than pure carnivores, how until now was usually thought. It is possible that this condition is common also to other species of arachnids builders of webs. It reaches the maturity in summer, with adult specimens usually found from May to July. The mating takes place in autumn and the cocoons with the eggs are placed in protected sites, such as the cracks in the trunk of the trees.
The photographic file of Giuseppe Mazza