Palaeocampa


is a genus of aysheaiid lobopodian panarthropods known from the Carboniferous-age Mazon Creek fossil beds and Montceau-les-Mines lagerstätte. The genus contains a single species, Palaeocampa anthrax, which takes its specific name from anthrax, the Greek word for coal, as its fossils were found near coal deposits in Illinois. This genus was first described as a caterpillar, before being redescribed as a fireworm in 2004, and then redescribed again as a lobopodian in 2025. Palaeocampa is extremely unusual for a lobopodian in a variety of ways, being the first and currently only known freshwater lobopodian outside of tardigrades, the first venomous lobopodian, alongside being the only known aysheaiid to possess sclerite armature.

History

Palaeocampa anthrax was first reported from the Mazon Creek deposits of Illinois in 1865 by American paleontologists Fielding Bradford Meek and Amos Henry Worthen. At this point, it was known from only a single specimen discovered by local fossil collector Joseph Evans, which did not preserve the head or legs. The apparent similarity between it and some modern caterpillars led to it being interpreted first as a kind of caterpillar, although this claim was only tentative, as it was not known at the time if lepidopterans existed this far back in the fossil record. Samuel Hubbard Scudder, an entomologist and paleontologist, agreed that there was a resemblance, but not enough to warrant this classification; instead, he assigned it generically to "the class of worms". In 1882, Scudder published a study based on new specimens of Palaeocampa, as the original holotype had been lost in a fire soon after it was described. One specimen preserved the limbs, which allowed Scudder to say confidently that it could not be a caterpillar, which possess three thoracic limbs, a few legless segments, and a number of prolegs, while Palaeocampa possess identical limbs on every segment. Scudder wrote then, that Palaeocampa must belong to the myriapods.
Decades passed with little progress, until French scientists reported the finding of Palaeocampa specimens from the Montceau-les-Mines lagerstätte in 1981. They also suggested Palaeocampa was synonymous with another Mazon Creek worm called Rhaphidiophorus. In 2004, Palaeocampa was redescribed by Fredrik Pleijel, Greg Rouse, and Jean Vannier. They focused on the Montceau-les-Mines specimens, and considered Palaeocampa to be an early fireworm polychaete, again synonymous with Rhapidiophorus. This was based on the two paired sets of spines, which the authors interpreted as chaetae. They determined Palaeocampa to have had a sclerotized proboscis, a pair of antennae, and probably 11 chaetiger segments. This, however, presented a problem for the Montceau-les-Mines lagerstätte. All living members of Amphinomidae are exclusively marine, but all fossil and geological evidence pointed towards Montceau-les-Mines being an intermontane, limnic ecosystem. The authors pointed to other recent discoveries, namely horseshoe crab fossils and a putative hagfish. Alanops was later determined to be a freshwater belinurine species, but Palaeocampa and Myxineidus remained.
In 2025, a new team of authors published a comprehensive redescription of Palaeocampa anthrax, based on over 40 specimens from both France and the USA. They demonstrated that Palaeocampa was in fact a lobopodian worm, related to the deep sea Cambrian species Hadranax augustus. This was based on the presence of large, annulated, papillae-bearing lobopodous legs which could not be explained as parapodia, as well as SEM photography of the spines, which had an architecture unlike any other known animal, living or extinct, and incompatiable with an amphinomid polychaete identity. They determined that the presence of a lobopodian within an environment was not sufficient reason to call it marine, when all other evidence pointed to a freshwater ecosystem, as lobopodians from other families had already demonstrated at least a tolerance for brackish waters, and extant families are terrestrial or exist in a wide variety of environments. The only remaining problematic faunal element then was Myxineidus, however, more recent studies have cast doubt on its hagfish identity, pointing towards a lamprey or stem-lamprey placement. What the 2004 study called a proboscis was determined to be a dorsal structure, a sclerotized headshield similar to those found in some other lobopodians. Palaeocampa's lobopodian affinity helps clarify the environmental setting of Montceau-les-Mines, which had until then been the subject of debate.

Description

Palaeocampa is a small lobopodian, reaching a maximum of in length, not including spines or frontal appendages. It has a head bearing a ridged dorsal sclerite, a large annulated pair of frontal appendages, and a small, secondary pair of appendages just beneath the head. It lacks eyes, and the morphology of its mouth is unknown. The trunk consists of ten segments, each bearing a pair of broad, annulated, lobopodous appendages, approximately equal in length to the width of the trunk, and lacking claws. The entire body and the limbs, including the frontal appendages, are further lined with small, regularly distributed papillae. Above each leg pair are paired sets of dorsolateral and lateral sclerites, or bristles. The body also terminates with an unpaired set of bristles. Each bundle contains a large number of independent bristles, growing from a complex modified basement papillae, the lateral sets being slightly shorter. These sclerites have an architecture unique in the animal kingdom; each spine is straight, highly elongate, and tapered only slightly at the end before expanding back out into a crenellated apex, which Knecht et al. compared to a rook chess piece. The spine is divided longitudinally by prominent ridges, and between them three smaller ridges. These ridges are serrated, following a sawtooth-like pattern upwardly towards the apex, similar to roof shingles. Internally, the sclerites are septated and hollow, probably with a spongy filling material and a central pore running through the middle. The dorsum of the trunk was thickened compared with the rest of the cuticle, and further reinforced with hundreds of small sclerotized papillae which gave it a pebbly, armoured appearance. These dorsal armour papillae have a small central pore, which is thought to have originally contained a sensory, hair-like seta, similar to the setae-bearing papillae of Aysheaia.

Paleobiology

Palaeocampa is remarkable as the first and currently only known freshwater lobopodian, excluding some tardigrades. Previously, all xenusiid lobopodian fossils have been found in marine deposits, including Palaeocampas closest relative Hadranax augustus, which is found in Cambrian deep sea deposits. The lost holotype of Palaeocampa comes from an inland, Braidwood biota locality of the Mazon Creek, dominated by plants and populated by various terrestrial and freshwater arthropods, as well as freshwater fish and sharks. The Montceau-les-Mines palaeoenvironment is even further inland, as much as 300 kilometres, an intermontane network of rivers, lakes, and deltas. Here, Palaeocampa is found on the same layers as freshwater arthropods like Alanops, and the euthycarcinoids Sottyxerxes and Schramixerxes. It also would have co-existed with freshwater xenacanth sharks, lungfish, temnospondyls, syncarid shrimp, and ostracods.
Although chemical defences in lobopodians had been speculated before, Palaeocampa is the only confirmed venomous lobopodian. Exudates found at the tips of the spines were analyzed with FTIR analysis to establish the likely presence of aldehydes, a common molecular component of some invertebrate and plant toxins, such as formic acid and salicylaldehyde. The exact composition of this chemical, and its toxicity, remains out of reach, and it may have served as either a more passive, foul tasting substance secreted from the spines, or as a more active, painful defensive measure expelled when the animal was stressed, such as during a predation attempt. The sclerite bristles of Palaeocampa are unique, and their exact function also remains partly speculative. Disarticulated fossils show that even in the absence of the rest of the body, the sclerites remain mostly intact and embedded in their set, contrasting with the urticating hairs of most caterpillars, tarantulas, and plants, which break away easily on contact. The spines of Palaeocampa also differ in the outward direction of their serrations, as opposed to the inwardly facing hooks more commonly found in urticating hairs.