Hallucigenia

hal-lu-see-gen-ee-a.
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Harper Gray

Paleoartist

Harper Grey combines artistic talent with scientific precision to bring extinct creatures and environments back to life. Collaborating closely with paleontologists

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Name

Hallucigenia

Phonetic

hal-lu-see-gen-ee-a.

Named By

Classification

Animalia,‭ ‬Onychophora,‭ ‬Hallucigeniidae.

Diet

Detritivore.

Species

H.‭ ‬sparsa‭

Size

5‭ ‬to‭ ‬55‭ ‬millimetres long.

Known locations

Canada,‭ ‬British Columbia‭ ‬-‭ ‬Burgess Shale.‭ ‬China‭ ‬-‭ ‬Maotianshan Shale.

Time Period

Early to Middle Cambrian.

Fossil representation

109‭ ‬specimens.

In Depth

       Hallucigenia was first identified as the Cambrian aquatic worm Canadia by Charles Doolittle Walcott in‭ ‬1911.‭ ‬However a study of the Canadia fossils by Simon Conway Morris in‭ ‬1977‭ ‬brought to light the discovery that the fossils did not represent the same creature.‭ ‬Because of its bizarre appearance of spikes and tentacles,‭ ‬Conway Morris gave the different individuals the name Hallucigenia because of their‭ ‘‬bizarre and dream-like quality‭’‬.‭ ‬However this realisation would be but the beginning of even more confusion about how it Hallucigenia lived.

       Fossils of Hallucigenia appear worm like with seven spines on one side,‭ ‬and seven pincer tipped tentacles on the other.‭ ‬Six of the tentacles match the spines for placement,‭ ‬the seventh however is forward.‭ ‬There are also three much smaller tentacles further along.‭ ‬On the ends of the main body were a blob on one end and a flexible tube on the other.‭ ‬Such a creature would be enough to make many palaeontologists give up and quit,‭ ‬but Morris persevered and worked out a conceivable reconstruction of the living creature.       The first and original interpretation of Hallucigenia had it using its spines for walking.‭ ‬The flexible tail would reach down to the sea bottom and picking up morsels of food.‭ ‬The tail would then curl up and pass the morsel onto the first tentacle which would then pass it on to the next.‭ ‬The food morsel would then travel down the line of tentacles towards the‭ ‘‬blob‭’ ‬that was interpreted as being the head.

       There are a few problems with this interpretaion the first of which is that spikes,‭ ‬while possibly used for walking,‭ ‬would have been quite cumbersome.‭ ‬The second is that this method requires a lot of physical effort for feeding upon food sources that are possibly low in nutrients.‭ ‬Usually animals put as short a distance as possible between their mouths and their food source but in this reconstruction the distance is at its potential maximum.‭ ‬The third problem is that this method does not explain either the presence or function of the smaller tentacles at the base of the tail.

       A possible alternative to the above is if the spines were indeed placed at the bottom,‭ ‬could be that the spines were used to anchor Hallucigenia amongst rocks in the path of oceanic,‭ ‬or tidal currents.‭ ‬The tentacles would then drift upwards with their pincers catching food particles that were drifting in the current.‭ ‬The tentacles could then pass the food onto the mouth whichever end that may be,‭ ‬but if the mouth was on the tail and not the blob,‭ ‬then the tail could arc around to pick up the food morsels from the tentacles.‭ ‬Such a method would essentially see Hallucigenia living like a portable sea anemone.

       The second interpretation of Hallucigenia,‭ ‬and this is the one that is general accepted today,‭ ‬is to flip Hallucigenia over so that the spines point upwards and the tentacles are used for walking.‭ ‬This interpretation was proposed by Lars Ramskold and Hou Xianguang in‭ ‬1991,‭ ‬and is based upon fossils recovered from the Maotianshan shales of China.‭ ‬Not only does this see the spines in a defensive position,‭ ‬the tentacles are usually reconstructed to be in pairs.‭ ‬The blob was also interpreted as a stain caused by preservation,‭ ‬the claim based upon the observation that it is not present in all specimens.

       Although this is the most often represented reconstruction today,‭ ‬paired tentacles are not currently known in Hallucigenia fossils.‭ ‬The spines are also not considered by all to have been hard structures because they are never found on their own like the hard parts of other soft bodied creatures.‭ ‬The fossilised arrangement of the spines also only covers the main body.‭ ‬While this could theoretically deter suction feeders,‭ ‬other predators would have had quite a simple time avoiding them.

       The phylogenetic position of Hallucigenia is also strongly debated,‭ ‬and while many entries of Hallucigenia place within the Onychophora‭ (‬velvet worms‭)‬,‭ ‬not everyone is convinced that Hallucigenia belongs here.‭ ‬The possibility has even been raised that Hallucigenia may in fact be part of a larger animal,‭ ‬like how another Cambrian creature called Anomalocaris was first identified as a small shrimp until other body parts were pieced together to form the actual animal.‭ ‬There also what appears to be robust and gracile morphs of Hallucigenia which in‭ ‬2002‭ ‬were interpreted by Desmond Collins to represent male and female individuals.

Further Reading

– A new metazoan from the Cambrian Burgess Shale of British Columbia. – Palaeontology 20: 623–640. – S. Comway Morris – 1977. – The second leg row of Hallucigenia discovered. – Lethaia 25 (2): 221–4. – Lars – Ramsk�ld – 1992. – A new species of Hallucigenia from the Cambrian Stage 4 Wulongqing Formation of Yunnan (South China) and the structure of sclerites in lobopodians. – Bulletin of Geosciences 87: 107–124. – M. Steiner, S. Hu, J. Liu & H. Keupp – 2012. – Beyond the Burgess Shale: Cambrian microfossils track the rise and fall of hallucigeniid lobopodians. – Proceedings of the Royal Society B: Biological Sciences. 280 (1767): 20131613. – Jean-Bernard Caron, Martin R. Smith & Thomas H. P. Harvey – 2013. – Hallucigenia’s onychophoran-like claws and the case for Tactopoda. – Nature. 514 (7522): 363–366. – M. R. Smith & J. Ortega-Hern�ndez – 2014. – Hallucigenia’s head and the pharyngeal armature of early ecdysozoans. – Nature. 523 (7558): 75–78. – Martin R. Smith & Jean-Bernard Caron – 2015. – A hypothetical reconstruction of Hallucigenia. – PeerJ Preprints. 7: e27551v1 (1–10). – Christian McCall – 2019.

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