fbpx
Wikipedia

Tullimonstrum

February 16, 2024

"Tully Monster" redirects here. Not to be confused with Telly Monster.

Tullimonstrum, colloquially known as the Tully monster or sometimes Tully's monster, is an extinct genus of soft-bodied bilaterian animal that lived in shallow tropical coastal waters of muddy estuaries during the Pennsylvanian geological period, about 300 million years ago. A single species, T. gregarium, is known. Examples of Tullimonstrum have been found only in the Essex biota, a smaller section of the Mazon Creek fossil beds of Illinois, United States. Its classification has been the subject of controversy, and interpretations of the fossil have likened it to molluscs, arthropods, conodonts, worms, tunicates, and vertebrates. This creature had a mostly cigar shaped body, with a triangular tail fin, two long stalked eyes, and a proboscis tipped with a mouth-like appendage. Based on the fossils, it seems this creature was a nektonic carnivore that hunted in the ocean’s water column. When Tullimonstrum was alive, Illinois was a mixture of ecosystems like muddy estuaries, marine environments, and rivers and lakes. Fossils of other organisms like crustacean Belotelson, the cnidarian Essexella, and the elasmobranch fish Bandringa have been found alongside Tullimonstrum.

Tullimonstrum
Temporal range: Pennsylvanian (Moscovian to Kasimovian), 311–306 Ma
Specimen of Tullimonstrum gregarium showing stalked structures
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: ParaHoxozoa
Clade: Bilateria
Genus: Tullimonstrum
Richardson, 1966
Type species
Tullimonstrum gregarium
Richardson, 1966
Synonyms

Nemavermes mackeei Schram, 1973[1]

Description edit

 
Reconstruction of Tullimonstrum according to Johnson et al. (1969)

Tullimonstrum probably reached lengths of up to 35 centimetres (14 in); the smallest individuals are about 8 cm (3.1 in) long.[2]

Tullimonstrum had a pair of vertical, ventral fins (though the fidelity of preservation of fossils of its soft body makes this difficult to determine) situated at the tail end of its body, and typically featured a long proboscis with up to eight small sharp teeth on each "jaw", with which it may have actively probed for small creatures and edible detritus in the muddy bottom. It was part of the ecological community represented in the unusually rich group of soft-bodied organisms found among the assemblage called the Mazon Creek fossils from their site in Grundy County, Illinois.[3]

The absence of a hard part in the fossil implies that the animal did not possess organs composed of bone, chitin or calcium carbonate.[2] There is evidence of serially repeated internal structures.[2] Its head is poorly differentiated.[2] A transverse bar-shaped structure, which was either dorsal or ventral, terminates in two round organs[2][3] which are associated with dark material which have been identified as melanosomes (containing the pigment melanin).[4] Their form and structure is suggestive of a camera-type eye.[2][4] Tullimonstrum possessed structures which have been interpreted as gills, and a possible notochord or rudimentary spinal cord.[5][6]

History of discovery edit

 
T. gregarium fossil (part and counterpart)

Amateur collector Francis Tully [ia] found the first of these fossils in 1955 in a fossil bed known as the Mazon Creek formation. He took the strange creature to the Field Museum of Natural History, but paleontologists were stumped as to which phylum Tullimonstrum belonged in.[7] The species Tullimonstrum gregarium ("Tully's common monster"), as these fossils later were named, takes its genus name from Tully,[2] whereas the species name, gregarium, means "common", and reflects its abundance.[8] The term monstrum ("monster") relates to the creature's outlandish appearance and strange body plan.

The fossil remains "a puzzle", and interpretations liken it to a worm, a mollusc, an arthropod, a conodont,[9] or a vertebrate.[4][5] Since it appears to lack characteristics of the well-known modern phyla, some speculate that it was representative of a stem group to one of the many phyla of worms that are poorly represented today.[2] Similarities with Cambrian fossil organisms were noted. Chen et al. suggested similarities to Nectocaris pteryx.[10] Others pointed to a general resemblance between Tullimonstrum and Opabinia regalis,[11] although Cave et al. note that they were too morphologically dissimilar to be related.[12]

Classification edit

The classification of Tullimonstrum has been an ongoing debate since the creature was first described,[4][5] with many scientists presenting evidence of a vertebrate affinity, and others of an invertebrate affinity.[5][13][14][15][4]

Arguments in favor of vertebrate affinities edit

McCoy et al. (2016) edit

 
Reconstruction of Tullimonstrum as vertebrate, according to McCoy et al. (2016)

In 2016 two studies were released simultaneously showing that Tullimonstrum may have been a basal vertebrate, thus a member of the phylum Chordata.[4][5] McCoy et al. undertook a morphological study of several specimens; their analysis indicated that Tullimonstrum may be closely related to modern lampreys.[5] This affinity was attributed based on pronounced cartilaginous vertebral structures known as arcualia, a dorsal fin and asymmetric caudal fin, keratinous teeth, a single nostril, and tectal cartilages like in lampreys. While McCoy et al. raised the possibility that Tullimonstrum belong to the ancestral group of lamprey,[5][16] it also has many features not found in Cyclostomes (lampreys and hagfishes).[17]

Clements et al. (2016) edit

A second study, by Clements et al. (2016), came to the conclusion that Tullimonstrum was a stem-vertebrate based on its eye anatomy. Close examination revealed that the animal had a camera-like eye, with preserved lenses and the presence of cylindrical and spheroid melanosomes arranged in distinct layers. These ocular pigments and their unique structure was interpreted to be a retinal pigmented epithelium (RPE), offering strong support that the bar organs were indeed eyes.[4] The dark pigments in the eye were chemically tested and found to be fossilized melanin, as opposed to ommochromes or pterins (which are ocular pigments used by many invertebrate groups). While the authors admitted that the ocular pigments of many invertebrate groups have been poorly investigated, at the time of publication the presence of RPE and two distinct melanosome morphology is a uniquely vertebrate trait.[4]

McCoy et al. (2020); Wiemann et al. (2022) edit

In 2020, McCoy, Wiemann and colleagues used Raman spectroscopy to identify the molecular bonds present in the organic material preserved with Tullimonstrum. Based on samples from multiple points in the body, they identified the organic material as representing the decay products of chordate tissues as opposed to the polysaccharide-based chitin (as is seen in arthropods), offering independent and rather unambiguous evidence for the interpretation that Tullimonstrum is a chordate or vertebrate.[18] In 2022, Wiemann and colleagues replicated these spectral signals in collaboration with independent laboratories using Fourier-Transform Infrared spectroscopy.[19] Comparable tissue signatures have been detected in preserved carbonaceous remains of a diversity of other animals.[13][14]

Arguments in favour of non-vertebrate affinities edit

Sallan et al. (2017) edit

In 2017 Sallan et al. rejected the identification of the Tully monster as a vertebrate. Firstly, they noted that even the presence of the two melanosome types is variable among vertebrates; hagfish lack them altogether, and extant sharks as well as extinct forms found in the Mazon Creek area, such as Bandringa, only have spheroid melanosomes. Additionally, the supposed notochord extends in front of the level of the eyes, which is not the case in any other vertebrate, although is seen in lancelets. Even if the structure was a notochord, the presence of notochords is not limited to vertebrates either.[15][20]

Further criticism was drawn towards the identification of the blocks of the body variously as gill pouches and muscle blocks (myomeres), despite the lack of differentiation in the structure of these blocks. In vertebrates, myomeres are also thinner, and extend along the whole length of the body rather than stopping short of the head. Meanwhile, the gill pouches of lampreys are paired extensions rather than segmented structures, and are usually embedded in a complex gill skeleton, neither of which is the case in Tullimonstrum.[15][20]

Other identifications of soft-tissue structures were considered as being equally problematic. The supposed brain has no associated nervous tissue and is not connected to the eyes, and the purported liver was located under the gills as opposed to being further back as in other vertebrates. The "mouth" at the front of the proboscis was described as possessing gnathostome-like distinct tooth rows, despite lampreys having "tooth fields" on the interior of the mouth. This would necessitate the convergent re-evolution of grasping jaws.[15]

An additional difficulty is that the thin and jointed proboscis is inconsistent with the feeding methods typically used for open-water vertebrates: Either ram or suction feeding. The gill pouches would have obstructed the flow of water even further.[15]

Sallan et al. note that stalked eyes, tail fins, and brains are also present in anomalocaridids, and that Opabinia also has a similar proboscis. Previously arthropod affinities were rejected under the presumption that other Mazon Creek arthropods are preserved in three-dimensions, with carbonization of the exoskeleton, but the arthropods are not actually preserved in that manner.[15] They also suggested that molluscs convergently evolved complex camera-like eyes containing melanosomes,[15] but proponents of the vertebrate interpretation argue that no molluscs are known that have or had melanosomes in two distinct forms.[4] Further similarities (such as the lobed brain, muscle bands, tail fin, proboscis, and "teeth") could support possible molluscan affinities.[15]

Rogers et al. (2019) edit

Regardless, Rogers et al. (2019) demonstrated that certain squid (Loligo vulgaris) and cuttlefish (Sepia officinalis) species do in fact have two different melanosome forms which can decay to look like an RPE-like layer, similar to that observed in vertebrates and Tullimonstrum fossils.[21] On a plot of trace metal signatures in the eyes of Mazon Creek fossils, Tullimonstrum is clearly distinct from both vertebrates (which have a higher concentration of zinc) and the eyespots of the putative cephalopod Pohlsepia (however, no evidence of melanosomes were found in Pohlsepia, and some studies deny its affinity as cephalopod[22][23]) - although it should be noted however that these signals are influenced by the fossilisation process. The authors doubt that Tullimonstrum was a cephalopod (in the absence of other supporting traits), they argue that eye structure and chemistry alone cannot disprove invertebrate affinities.[21]

Even if the eye of Tullimonstrum is homologous with vertebrates, it is not necessarily a member of Vertebrata. Many vertebrate-like traits are also observed in tunicates (the larvae of which have pigmented eyes and tail fins), lancelets and acorn worms (both of which have gill openings and axial support structures), and the extinct vetulicolians.[15]

Mikami et al. (2023) edit

 
Reconstruction of Tullimonstrum as invertebrate according to Mikami et al. (2023)

In 2023, Mikami et al. (2023) scanned 153 specimens of Tullimonstrum by 3D scanner, as well as other taxa from Mazon Creek. They concluded that some of the characters used by McCoy et al. (2016) to justify a vertebrate identity (tri-lobed brain, tectal cartilages, fin rays) are not comparable to those of vertebrates. The authors also determined that Tullimonstrum has segmentation extending to the preoptic region, which is clearly different from vertebrates. Alternative classifications were discussed in detail, but Tullimonstrum could be a non-vertebrate chordate (due to its segmentation resembling the myomeres of Esconicthys, an enigmatic jawed vertebrate from Mazon Creek) or a protostome.[24]

Paleoecology edit

Tullimonstrum was probably a free-swimming carnivore that dwelt in open marine water, and was occasionally washed to the near-shore setting in which it was preserved.[2] This means it swam freely in the water and not clamped to a hard surface or benthic environment.[2]

Taphonomy edit

The formation of the Mazon Creek fossils is unusual. When the creatures died, they were rapidly buried in silty outwash. The bacteria that began to decompose the plant and animal remains in the mud produced carbon dioxide in the sediments around the remains. The carbonate combined with iron from the groundwater around the remains, forming encrusting nodules of siderite. The organism was entombed, retarding decay and allowing an impression or carbonaceous remains[18][13] of the organism to be preserved. The first insights into the mechanisms of carbonaceous preservation in the Mazon Creek are provided as part of a large fossil data set,[13] however, the details are still subject of ongoing research.[25]

The combination of rapid burial and rapid formation of siderite resulted in excellent preservation of the many animals and plants that were entombed in the mud. As a result, the Mazon Creek fossils are one of the world's major Lagerstätten, or concentrated fossil assemblages.[2] The rapid burial and compression often caused Tullimonstrum carcasses to fold and bend like other Mazon Creek animals.[4]

The proboscis is rarely preserved in its entirety; it is complete in around 3% of specimens. However, some part of the organ is preserved in about 50% of cases.[2]

Many unique fossils have been found alongside Tullimonstrum like the sea anemone Essexella, the malacostracan Belotelson, the eurypterid Adelophthalmus mazonensis, horseshoe crabs, the elasmobranch fish Bandringa, and the coleoid cephalopod Jeletzkya.[26][27]

Paleontologist's prank edit

A 1966–1968 prank promulgated by paleontologist Bryan Patterson suggested that modern representatives could possibly be found in remote lakes of Kenya, known under the local name "Ekurut Loedonkakini". These "dancing worms of Turkana" could supposedly kill a man with a bite, produced some sort of milk, and were known even to school-age children.

Patterson had several letters sent from Kenya under various aliases to Eugene Richardson, the Field Museum's curator of fossil invertebrates. Patterson had previously been the museum's curator of vertebrate paleontology and retained an accomplice there who was aware of the prank (and prevented it from going too far). A planned expedition was cancelled after the hoax was disclosed in a good-natured Christmas letter.[28][29]

Richardson later recounted the story and published the original letters, poems, and doctored photos in a book under the pseudonym E. Scumas Rory.[30]

In popular culture edit

In 1989, Tullimonstrum gregarium was officially designated the state fossil of Illinois.[31] Artwork of it is featured on U-Haul rental vehicles from the state.[32][33]

See also edit

References edit

  1. ^ McCoy, Victoria E.; Wittry, Jack; Sadabadi, Hamed; Mayer, Paul (December 1, 2023). "A reappraisal of Nemavermes mackeei from the Mazon Creek fossil site expands Carboniferous cyclostome diversity". Journal of Paleontology: 1–17. doi:10.1017/jpa.2023.72. ISSN 0022-3360.
  2. ^ a b c d e f g h i j k l Johnson, Ralph Gordon & Richardson, Jr., Eugene Stanley (March 24, 1969). "Pennsylvanian Invertebrates of the Mazon Creek Area, Illinois: The Morphology and Affinities of Tullimonstrum". Fieldiana Geology. 12 (8): 119–149. OCLC 86328.
  3. ^ a b Richardson, Jr., Eugene Stanley (January 7, 1966). "Wormlike Fossil from the Pennsylvanian of Illinois". Science. 151 (3706): 75–76. Bibcode:1966Sci...151...75R. doi:10.1126/science.151.3706.75-a. PMID 17842092. S2CID 40136008.
  4. ^ a b c d e f g h i j Clements, Thomas; et al. (April 28, 2016). "The eyes of Tullimonstrum reveal a vertebrate affinity". Nature. 532 (7600): 500–503. Bibcode:2016Natur.532..500C. doi:10.1038/nature17647. hdl:2381/37646. PMID 27074512. S2CID 205248673.
  5. ^ a b c d e f g McCoy, Victoria E.; et al. (April 28, 2016). "The 'Tully monster' is a vertebrate". Nature. 532 (7600): 496–499. Bibcode:2016Natur.532..496M. doi:10.1038/nature16992. PMID 26982721. S2CID 205247805.
  6. ^ Dunham, Will (March 16, 2016). "Tully Monster Mystery Solved, Scientists Say". Scientific American. Reuters. Retrieved March 18, 2016.
  7. ^ Greshko, Michael (March 16, 2016). . National Geographic. Archived from the original on March 19, 2016. Retrieved March 17, 2016.
  8. ^ Mikulic, Donald G. & Kluessendorf, Joanne (1997). (PDF). Geobit. 5. OCLC 38563956. Archived from the original (PDF) on February 22, 2014.
  9. ^ Briggs, Helen (March 16, 2016). "Fishy origin of bizarre fossil 'monster'". BBC News.
  10. ^ Chen, Jun-yuan; et al. (October 2005). "An Early Cambrian problematic fossil: Vetustovermis and its possible affinities". Proceedings of the Royal Society B. 272 (1576): 2003–2007. doi:10.1098/rspb.2005.3159. OCLC 112007302. PMC 1559895. PMID 16191609.
  11. ^ Switek, Brian (January 27, 2011). "Tully's Mystery Monster". Wired. Laelaps. Retrieved February 5, 2014.
  12. ^ Delle Cave, Laura; et al. (1998). "Advances, diversions, possible relapses and additional problems in understanding the early evolution of the Articulata". Italian Journal of Zoology. 65 (1): 19–38. doi:10.1080/11250009809386724.
  13. ^ a b c d Wiemann, Jasmina; Crawford, Jason M.; Briggs, Derek E. G. (July 8, 2020). "Phylogenetic and physiological signals in metazoan fossil biomolecules". Science Advances. 6 (28): eaba6883. Bibcode:2020SciA....6.6883W. doi:10.1126/sciadv.aba6883. ISSN 2375-2548. PMC 7439315. PMID 32832604.
  14. ^ a b Tang, Qing; Pang, Ke; Li, Guangjin; Chen, Lei; Yuan, Xunlai; Xiao, Shuhai (September 1, 2021). "One-billion-year-old epibionts highlight symbiotic ecological interactions in early eukaryote evolution". Gondwana Research. 97: 22–33. Bibcode:2021GondR..97...22T. doi:10.1016/j.gr.2021.05.008. ISSN 1342-937X.
  15. ^ a b c d e f g h i Sallan, L.; et al. (February 20, 2017). "The 'Tully Monster' is not a vertebrate: characters, convergence and taphonomy in Palaeozoic problematic animals". Palaeontology. 60 (2): 149–157. Bibcode:2017Palgy..60..149S. doi:10.1111/pala.12282. S2CID 90132820.
  16. ^ St. Fleur, Nicholas (March 16, 2016). "Solving the Tully Monster's Cold Case". The New York Times. Retrieved March 16, 2016.
  17. ^ Miyashita, Tetsuto; Diogo, Rui (2016). "Evolution of Serial Patterns in the Vertebrate Pharyngeal Apparatus and Paired Appendages via Assimilation of Dissimilar Units". Frontiers in Ecology and Evolution. 4. doi:10.3389/fevo.2016.00071. ISSN 2296-701X.
  18. ^ a b McCoy, Victoria E.; et al. (April 28, 2020). "Chemical signatures of soft tissues distinguish between vertebrates and invertebrates from the Carboniferous Mazon Creek Lagerstätte of Illinois". Geobiology. 18 (5): 560–565. Bibcode:2020Gbio...18..560M. doi:10.1111/gbi.12397. PMID 32347003. S2CID 216646333.
  19. ^ Wiemann, Jasmina; Briggs, Derek E. G. (2022). "Raman spectroscopy is a powerful tool in molecular paleobiology: An analytical response to Alleon et al". BioEssays. 44 (2): 2100070. doi:10.1002/bies.202100070. ISSN 1521-1878. PMID 34993976. S2CID 245824320.
  20. ^ a b Baillie, Katherine Unger (February 20, 2017). "'Tully Monster' Mystery Is Far From Solved, Penn-led Group Argues". The University of Pennsylvania. Retrieved February 20, 2017.
  21. ^ a b Rogers, Christopher S.; Astrop, Timothy I.; Webb, Samuel M.; Ito, Shosuke; Wakamatsu, Kazumasa; McNamara, Maria E. (October 23, 2019). "Synchrotron X-ray absorption spectroscopy of melanosomes in vertebrates and cephalopods: implications for the affinity of Tullimonstrum". Proceedings of the Royal Society B: Biological Sciences. 286 (1913): 20191649. doi:10.1098/rspb.2019.1649. ISSN 0962-8452. PMC 6834042. PMID 31640518.
  22. ^ Klug, Christian; Landman, Neil H.; Fuchs, Dirk; Mapes, Royal H.; Pohle, Alexander; Guériau, Pierre; Reguer, Solenn; Hoffmann, René (July 31, 2019). "Anatomy and evolution of the first Coleoidea in the Carboniferous". Communications Biology. 2 (1): 280. doi:10.1038/s42003-019-0523-2. ISSN 2399-3642. PMC 6668408. PMID 31372519.
  23. ^ Whalen, Christopher D.; Landman, Neil H. (March 8, 2022). "Fossil coleoid cephalopod from the Mississippian Bear Gulch Lagerstätte sheds light on early vampyropod evolution". Nature Communications. 13 (1): 1107. Bibcode:2022NatCo..13.1107W. doi:10.1038/s41467-022-28333-5. ISSN 2041-1723. PMC 8904582. PMID 35260548.
  24. ^ Mikami, Tomoyuki; Ikeda, Takafumi; Muramiya, Yusuke; Hirasawa, Tatsuya; Iwasaki, Wataru (2023). Cherns, Lesley (ed.). "Three‐dimensional anatomy of the Tully monster casts doubt on its presumed vertebrate affinities". Palaeontology. 66 (2): e12646. doi:10.1111/pala.12646. ISSN 0031-0239. S2CID 258198566.
  25. ^ Baird, Gordon (1986). "Taphonomy of Middle Pennsylvanian Mazon Creek area fossil localities, northeast Illinois: Significance of exceptional fossil preservation in syngenetic concretions". PALAIOS. 1 (3): 271–285. Bibcode:1986Palai...1..271B. doi:10.2307/3514690. JSTOR 3514690.
  26. ^ P. A. Allison (1987). "A new cephalopod with soft parts from the Upper Carboniferous Francis Creek Shale of Illinois, USA". Lethaia. 20 (78): 117–121. doi:10.1111/j.1502-3931.1987.tb02028.x.
  27. ^ Selden, Paul; Nudds, John (2012). "Mazon Creek". Evolution of Fossil Ecosystems (second ed.). Manson Publishing Ltd. pp. 94–96. ISBN 978-1-84076-623-3 – via Google Books.
  28. ^ Chure, Dan (April 1, 2012). "Tullimonstrum gregarium and the dancing worm of Turkana". Land of the Dead. Retrieved June 8, 2021.
  29. ^ Kloss, Gerald (June 18, 1968). "The Great Dancing Worm Hoax". The Milwaukee Journal. Retrieved March 31, 2012.
  30. ^ Rory, E. Scumas (1969). The Dancing Worm of Turkana. Vanishing Press. OCLC 191964063.
  31. ^ "State Symbol: Illinois State Fossil — Tully Monster (Tullimonstrum gregarium)". Illinois State Museum. Retrieved March 31, 2012.
  32. ^ Shelton, Jim (March 16, 2016). "Solving the mystery of the Tully Monster". YaleNews. Retrieved February 22, 2023.
  33. ^ Geggel, Laura (April 13, 2016). "Photos: Ancient Tully Monster's Identity Revealed". livescience.com. Retrieved February 22, 2023.

External links edit

 
Wikimedia Commons has media related to Tullimonstrum.
 
Wikispecies has information related to Tullimonstrum.
  • "Tully: Monster vs Method", a video by the Field Museum of Natural History
  • "The Tully Monster", a video by the Field Museum of Natural History
  • Mazon Creek Paleobotany References by the Field Museum of Natural History

February 16, 2024
tullimonstrum, tully, monster, redirects, here, confused, with, telly, monster, colloquially, known, tully, monster, sometimes, tully, monster, extinct, genus, soft, bodied, bilaterian, animal, that, lived, shallow, tropical, coastal, waters, muddy, estuaries,. Tully Monster redirects here Not to be confused with Telly Monster Tullimonstrum colloquially known as the Tully monster or sometimes Tully s monster is an extinct genus of soft bodied bilaterian animal that lived in shallow tropical coastal waters of muddy estuaries during the Pennsylvanian geological period about 300 million years ago A single species T gregarium is known Examples of Tullimonstrum have been found only in the Essex biota a smaller section of the Mazon Creek fossil beds of Illinois United States Its classification has been the subject of controversy and interpretations of the fossil have likened it to molluscs arthropods conodonts worms tunicates and vertebrates This creature had a mostly cigar shaped body with a triangular tail fin two long stalked eyes and a proboscis tipped with a mouth like appendage Based on the fossils it seems this creature was a nektonic carnivore that hunted in the ocean s water column When Tullimonstrum was alive Illinois was a mixture of ecosystems like muddy estuaries marine environments and rivers and lakes Fossils of other organisms like crustacean Belotelson the cnidarian Essexella and the elasmobranch fish Bandringa have been found alongside Tullimonstrum TullimonstrumTemporal range Pennsylvanian Moscovian to Kasimovian 311 306 Ma PreꞒ Ꞓ O S D C P T J K Pg N Specimen of Tullimonstrum gregarium showing stalked structuresScientific classificationDomain EukaryotaKingdom AnimaliaSubkingdom EumetazoaClade ParaHoxozoaClade BilateriaGenus TullimonstrumRichardson 1966Type speciesTullimonstrum gregariumRichardson 1966SynonymsNemavermes mackeei Schram 1973 1 Contents 1 Description 2 History of discovery 3 Classification 3 1 Arguments in favor of vertebrate affinities 3 1 1 McCoy et al 2016 3 1 2 Clements et al 2016 3 1 3 McCoy et al 2020 Wiemann et al 2022 3 2 Arguments in favour of non vertebrate affinities 3 2 1 Sallan et al 2017 3 2 2 Rogers et al 2019 3 2 3 Mikami et al 2023 4 Paleoecology 4 1 Taphonomy 5 Paleontologist s prank 6 In popular culture 7 See also 8 References 9 External linksDescription edit nbsp Reconstruction of Tullimonstrum according to Johnson et al 1969 Tullimonstrum probably reached lengths of up to 35 centimetres 14 in the smallest individuals are about 8 cm 3 1 in long 2 Tullimonstrum had a pair of vertical ventral fins though the fidelity of preservation of fossils of its soft body makes this difficult to determine situated at the tail end of its body and typically featured a long proboscis with up to eight small sharp teeth on each jaw with which it may have actively probed for small creatures and edible detritus in the muddy bottom It was part of the ecological community represented in the unusually rich group of soft bodied organisms found among the assemblage called the Mazon Creek fossils from their site in Grundy County Illinois 3 The absence of a hard part in the fossil implies that the animal did not possess organs composed of bone chitin or calcium carbonate 2 There is evidence of serially repeated internal structures 2 Its head is poorly differentiated 2 A transverse bar shaped structure which was either dorsal or ventral terminates in two round organs 2 3 which are associated with dark material which have been identified as melanosomes containing the pigment melanin 4 Their form and structure is suggestive of a camera type eye 2 4 Tullimonstrum possessed structures which have been interpreted as gills and a possible notochord or rudimentary spinal cord 5 6 History of discovery edit nbsp T gregarium fossil part and counterpart Amateur collector Francis Tully ia found the first of these fossils in 1955 in a fossil bed known as the Mazon Creek formation He took the strange creature to the Field Museum of Natural History but paleontologists were stumped as to which phylum Tullimonstrum belonged in 7 The species Tullimonstrum gregarium Tully s common monster as these fossils later were named takes its genus name from Tully 2 whereas the species name gregarium means common and reflects its abundance 8 The term monstrum monster relates to the creature s outlandish appearance and strange body plan The fossil remains a puzzle and interpretations liken it to a worm a mollusc an arthropod a conodont 9 or a vertebrate 4 5 Since it appears to lack characteristics of the well known modern phyla some speculate that it was representative of a stem group to one of the many phyla of worms that are poorly represented today 2 Similarities with Cambrian fossil organisms were noted Chen et al suggested similarities to Nectocaris pteryx 10 Others pointed to a general resemblance between Tullimonstrum and Opabinia regalis 11 although Cave et al note that they were too morphologically dissimilar to be related 12 Classification editThe classification of Tullimonstrum has been an ongoing debate since the creature was first described 4 5 with many scientists presenting evidence of a vertebrate affinity and others of an invertebrate affinity 5 13 14 15 4 Arguments in favor of vertebrate affinities edit McCoy et al 2016 edit nbsp Reconstruction of Tullimonstrum as vertebrate according to McCoy et al 2016 In 2016 two studies were released simultaneously showing that Tullimonstrum may have been a basal vertebrate thus a member of the phylum Chordata 4 5 McCoy et al undertook a morphological study of several specimens their analysis indicated that Tullimonstrum may be closely related to modern lampreys 5 This affinity was attributed based on pronounced cartilaginous vertebral structures known as arcualia a dorsal fin and asymmetric caudal fin keratinous teeth a single nostril and tectal cartilages like in lampreys While McCoy et al raised the possibility that Tullimonstrum belong to the ancestral group of lamprey 5 16 it also has many features not found in Cyclostomes lampreys and hagfishes 17 Clements et al 2016 edit A second study by Clements et al 2016 came to the conclusion that Tullimonstrum was a stem vertebrate based on its eye anatomy Close examination revealed that the animal had a camera like eye with preserved lenses and the presence of cylindrical and spheroid melanosomes arranged in distinct layers These ocular pigments and their unique structure was interpreted to be a retinal pigmented epithelium RPE offering strong support that the bar organs were indeed eyes 4 The dark pigments in the eye were chemically tested and found to be fossilized melanin as opposed to ommochromes or pterins which are ocular pigments used by many invertebrate groups While the authors admitted that the ocular pigments of many invertebrate groups have been poorly investigated at the time of publication the presence of RPE and two distinct melanosome morphology is a uniquely vertebrate trait 4 McCoy et al 2020 Wiemann et al 2022 edit In 2020 McCoy Wiemann and colleagues used Raman spectroscopy to identify the molecular bonds present in the organic material preserved with Tullimonstrum Based on samples from multiple points in the body they identified the organic material as representing the decay products of chordate tissues as opposed to the polysaccharide based chitin as is seen in arthropods offering independent and rather unambiguous evidence for the interpretation that Tullimonstrum is a chordate or vertebrate 18 In 2022 Wiemann and colleagues replicated these spectral signals in collaboration with independent laboratories using Fourier Transform Infrared spectroscopy 19 Comparable tissue signatures have been detected in preserved carbonaceous remains of a diversity of other animals 13 14 Arguments in favour of non vertebrate affinities edit Sallan et al 2017 edit In 2017 Sallan et al rejected the identification of the Tully monster as a vertebrate Firstly they noted that even the presence of the two melanosome types is variable among vertebrates hagfish lack them altogether and extant sharks as well as extinct forms found in the Mazon Creek area such as Bandringa only have spheroid melanosomes Additionally the supposed notochord extends in front of the level of the eyes which is not the case in any other vertebrate although is seen in lancelets Even if the structure was a notochord the presence of notochords is not limited to vertebrates either 15 20 Further criticism was drawn towards the identification of the blocks of the body variously as gill pouches and muscle blocks myomeres despite the lack of differentiation in the structure of these blocks In vertebrates myomeres are also thinner and extend along the whole length of the body rather than stopping short of the head Meanwhile the gill pouches of lampreys are paired extensions rather than segmented structures and are usually embedded in a complex gill skeleton neither of which is the case in Tullimonstrum 15 20 Other identifications of soft tissue structures were considered as being equally problematic The supposed brain has no associated nervous tissue and is not connected to the eyes and the purported liver was located under the gills as opposed to being further back as in other vertebrates The mouth at the front of the proboscis was described as possessing gnathostome like distinct tooth rows despite lampreys having tooth fields on the interior of the mouth This would necessitate the convergent re evolution of grasping jaws 15 An additional difficulty is that the thin and jointed proboscis is inconsistent with the feeding methods typically used for open water vertebrates Either ram or suction feeding The gill pouches would have obstructed the flow of water even further 15 Sallan et al note that stalked eyes tail fins and brains are also present in anomalocaridids and that Opabinia also has a similar proboscis Previously arthropod affinities were rejected under the presumption that other Mazon Creek arthropods are preserved in three dimensions with carbonization of the exoskeleton but the arthropods are not actually preserved in that manner 15 They also suggested that molluscs convergently evolved complex camera like eyes containing melanosomes 15 but proponents of the vertebrate interpretation argue that no molluscs are known that have or had melanosomes in two distinct forms 4 Further similarities such as the lobed brain muscle bands tail fin proboscis and teeth could support possible molluscan affinities 15 Rogers et al 2019 edit Regardless Rogers et al 2019 demonstrated that certain squid Loligo vulgaris and cuttlefish Sepia officinalis species do in fact have two different melanosome forms which can decay to look like an RPE like layer similar to that observed in vertebrates and Tullimonstrum fossils 21 On a plot of trace metal signatures in the eyes of Mazon Creek fossils Tullimonstrum is clearly distinct from both vertebrates which have a higher concentration of zinc and the eyespots of the putative cephalopod Pohlsepia however no evidence of melanosomes were found in Pohlsepia and some studies deny its affinity as cephalopod 22 23 although it should be noted however that these signals are influenced by the fossilisation process The authors doubt that Tullimonstrum was a cephalopod in the absence of other supporting traits they argue that eye structure and chemistry alone cannot disprove invertebrate affinities 21 Even if the eye of Tullimonstrum is homologous with vertebrates it is not necessarily a member of Vertebrata Many vertebrate like traits are also observed in tunicates the larvae of which have pigmented eyes and tail fins lancelets and acorn worms both of which have gill openings and axial support structures and the extinct vetulicolians 15 Mikami et al 2023 edit nbsp Reconstruction of Tullimonstrum as invertebrate according to Mikami et al 2023 In 2023 Mikami et al 2023 scanned 153 specimens of Tullimonstrum by 3D scanner as well as other taxa from Mazon Creek They concluded that some of the characters used by McCoy et al 2016 to justify a vertebrate identity tri lobed brain tectal cartilages fin rays are not comparable to those of vertebrates The authors also determined that Tullimonstrum has segmentation extending to the preoptic region which is clearly different from vertebrates Alternative classifications were discussed in detail but Tullimonstrum could be a non vertebrate chordate due to its segmentation resembling the myomeres of Esconicthys an enigmatic jawed vertebrate from Mazon Creek or a protostome 24 Paleoecology editTullimonstrum was probably a free swimming carnivore that dwelt in open marine water and was occasionally washed to the near shore setting in which it was preserved 2 This means it swam freely in the water and not clamped to a hard surface or benthic environment 2 Taphonomy edit The formation of the Mazon Creek fossils is unusual When the creatures died they were rapidly buried in silty outwash The bacteria that began to decompose the plant and animal remains in the mud produced carbon dioxide in the sediments around the remains The carbonate combined with iron from the groundwater around the remains forming encrusting nodules of siderite The organism was entombed retarding decay and allowing an impression or carbonaceous remains 18 13 of the organism to be preserved The first insights into the mechanisms of carbonaceous preservation in the Mazon Creek are provided as part of a large fossil data set 13 however the details are still subject of ongoing research 25 The combination of rapid burial and rapid formation of siderite resulted in excellent preservation of the many animals and plants that were entombed in the mud As a result the Mazon Creek fossils are one of the world s major Lagerstatten or concentrated fossil assemblages 2 The rapid burial and compression often caused Tullimonstrum carcasses to fold and bend like other Mazon Creek animals 4 The proboscis is rarely preserved in its entirety it is complete in around 3 of specimens However some part of the organ is preserved in about 50 of cases 2 Many unique fossils have been found alongside Tullimonstrum like the sea anemone Essexella the malacostracan Belotelson the eurypterid Adelophthalmus mazonensis horseshoe crabs the elasmobranch fish Bandringa and the coleoid cephalopod Jeletzkya 26 27 Paleontologist s prank editA 1966 1968 prank promulgated by paleontologist Bryan Patterson suggested that modern representatives could possibly be found in remote lakes of Kenya known under the local name Ekurut Loedonkakini These dancing worms of Turkana could supposedly kill a man with a bite produced some sort of milk and were known even to school age children Patterson had several letters sent from Kenya under various aliases to Eugene Richardson the Field Museum s curator of fossil invertebrates Patterson had previously been the museum s curator of vertebrate paleontology and retained an accomplice there who was aware of the prank and prevented it from going too far A planned expedition was cancelled after the hoax was disclosed in a good natured Christmas letter 28 29 Richardson later recounted the story and published the original letters poems and doctored photos in a book under the pseudonym E Scumas Rory 30 In popular culture editIn 1989 Tullimonstrum gregarium was officially designated the state fossil of Illinois 31 Artwork of it is featured on U Haul rental vehicles from the state 32 33 See also editPaleontology in IllinoisReferences edit McCoy Victoria E Wittry Jack Sadabadi Hamed Mayer Paul December 1 2023 A reappraisal of Nemavermes mackeei from the Mazon Creek fossil site expands Carboniferous cyclostome diversity Journal of Paleontology 1 17 doi 10 1017 jpa 2023 72 ISSN 0022 3360 a b c d e f g h i j k l Johnson Ralph Gordon amp Richardson Jr Eugene Stanley March 24 1969 Pennsylvanian Invertebrates of the Mazon Creek Area Illinois The Morphology and Affinities of Tullimonstrum Fieldiana Geology 12 8 119 149 OCLC 86328 a b Richardson Jr Eugene Stanley January 7 1966 Wormlike Fossil from the Pennsylvanian of Illinois Science 151 3706 75 76 Bibcode 1966Sci 151 75R doi 10 1126 science 151 3706 75 a PMID 17842092 S2CID 40136008 a b c d e f g h i j Clements Thomas et al April 28 2016 The eyes of Tullimonstrum reveal a vertebrate affinity Nature 532 7600 500 503 Bibcode 2016Natur 532 500C doi 10 1038 nature17647 hdl 2381 37646 PMID 27074512 S2CID 205248673 a b c d e f g McCoy Victoria E et al April 28 2016 The Tully monster is a vertebrate Nature 532 7600 496 499 Bibcode 2016Natur 532 496M doi 10 1038 nature16992 PMID 26982721 S2CID 205247805 Dunham Will March 16 2016 Tully Monster Mystery Solved Scientists Say Scientific American Reuters Retrieved March 18 2016 Greshko Michael March 16 2016 Scientists Finally Know What Kind of Monster a Tully Monster Was National Geographic Archived from the original on March 19 2016 Retrieved March 17 2016 Mikulic Donald G amp Kluessendorf Joanne 1997 Illinois State Fossil Tullimonstrum gregarium PDF Geobit 5 OCLC 38563956 Archived from the original PDF on February 22 2014 Briggs Helen March 16 2016 Fishy origin of bizarre fossil monster BBC News Chen Jun yuan et al October 2005 An Early Cambrian problematic fossil Vetustovermis and its possible affinities Proceedings of the Royal Society B 272 1576 2003 2007 doi 10 1098 rspb 2005 3159 OCLC 112007302 PMC 1559895 PMID 16191609 Switek Brian January 27 2011 Tully s Mystery Monster Wired Laelaps Retrieved February 5 2014 Delle Cave Laura et al 1998 Advances diversions possible relapses and additional problems in understanding the early evolution of the Articulata Italian Journal of Zoology 65 1 19 38 doi 10 1080 11250009809386724 a b c d Wiemann Jasmina Crawford Jason M Briggs Derek E G July 8 2020 Phylogenetic and physiological signals in metazoan fossil biomolecules Science Advances 6 28 eaba6883 Bibcode 2020SciA 6 6883W doi 10 1126 sciadv aba6883 ISSN 2375 2548 PMC 7439315 PMID 32832604 a b Tang Qing Pang Ke Li Guangjin Chen Lei Yuan Xunlai Xiao Shuhai September 1 2021 One billion year old epibionts highlight symbiotic ecological interactions in early eukaryote evolution Gondwana Research 97 22 33 Bibcode 2021GondR 97 22T doi 10 1016 j gr 2021 05 008 ISSN 1342 937X a b c d e f g h i Sallan L et al February 20 2017 The Tully Monster is not a vertebrate characters convergence and taphonomy in Palaeozoic problematic animals Palaeontology 60 2 149 157 Bibcode 2017Palgy 60 149S doi 10 1111 pala 12282 S2CID 90132820 St Fleur Nicholas March 16 2016 Solving the Tully Monster s Cold Case The New York Times Retrieved March 16 2016 Miyashita Tetsuto Diogo Rui 2016 Evolution of Serial Patterns in the Vertebrate Pharyngeal Apparatus and Paired Appendages via Assimilation of Dissimilar Units Frontiers in Ecology and Evolution 4 doi 10 3389 fevo 2016 00071 ISSN 2296 701X a b McCoy Victoria E et al April 28 2020 Chemical signatures of soft tissues distinguish between vertebrates and invertebrates from the Carboniferous Mazon Creek Lagerstatte of Illinois Geobiology 18 5 560 565 Bibcode 2020Gbio 18 560M doi 10 1111 gbi 12397 PMID 32347003 S2CID 216646333 Wiemann Jasmina Briggs Derek E G 2022 Raman spectroscopy is a powerful tool in molecular paleobiology An analytical response to Alleon et al BioEssays 44 2 2100070 doi 10 1002 bies 202100070 ISSN 1521 1878 PMID 34993976 S2CID 245824320 a b Baillie Katherine Unger February 20 2017 Tully Monster Mystery Is Far From Solved Penn led Group Argues The University of Pennsylvania Retrieved February 20 2017 a b Rogers Christopher S Astrop Timothy I Webb Samuel M Ito Shosuke Wakamatsu Kazumasa McNamara Maria E October 23 2019 Synchrotron X ray absorption spectroscopy of melanosomes in vertebrates and cephalopods implications for the affinity of Tullimonstrum Proceedings of the Royal Society B Biological Sciences 286 1913 20191649 doi 10 1098 rspb 2019 1649 ISSN 0962 8452 PMC 6834042 PMID 31640518 Klug Christian Landman Neil H Fuchs Dirk Mapes Royal H Pohle Alexander Gueriau Pierre Reguer Solenn Hoffmann Rene July 31 2019 Anatomy and evolution of the first Coleoidea in the Carboniferous Communications Biology 2 1 280 doi 10 1038 s42003 019 0523 2 ISSN 2399 3642 PMC 6668408 PMID 31372519 Whalen Christopher D Landman Neil H March 8 2022 Fossil coleoid cephalopod from the Mississippian Bear Gulch Lagerstatte sheds light on early vampyropod evolution Nature Communications 13 1 1107 Bibcode 2022NatCo 13 1107W doi 10 1038 s41467 022 28333 5 ISSN 2041 1723 PMC 8904582 PMID 35260548 Mikami Tomoyuki Ikeda Takafumi Muramiya Yusuke Hirasawa Tatsuya Iwasaki Wataru 2023 Cherns Lesley ed Three dimensional anatomy of the Tully monster casts doubt on its presumed vertebrate affinities Palaeontology 66 2 e12646 doi 10 1111 pala 12646 ISSN 0031 0239 S2CID 258198566 Baird Gordon 1986 Taphonomy of Middle Pennsylvanian Mazon Creek area fossil localities northeast Illinois Significance of exceptional fossil preservation in syngenetic concretions PALAIOS 1 3 271 285 Bibcode 1986Palai 1 271B doi 10 2307 3514690 JSTOR 3514690 P A Allison 1987 A new cephalopod with soft parts from the Upper Carboniferous Francis Creek Shale of Illinois USA Lethaia 20 78 117 121 doi 10 1111 j 1502 3931 1987 tb02028 x Selden Paul Nudds John 2012 Mazon Creek Evolution of Fossil Ecosystems second ed Manson Publishing Ltd pp 94 96 ISBN 978 1 84076 623 3 via Google Books Chure Dan April 1 2012 Tullimonstrum gregarium and the dancing worm of Turkana Land of the Dead Retrieved June 8 2021 Kloss Gerald June 18 1968 The Great Dancing Worm Hoax The Milwaukee Journal Retrieved March 31 2012 Rory E Scumas 1969 The Dancing Worm of Turkana Vanishing Press OCLC 191964063 State Symbol Illinois State Fossil Tully Monster Tullimonstrum gregarium Illinois State Museum Retrieved March 31 2012 Shelton Jim March 16 2016 Solving the mystery of the Tully Monster YaleNews Retrieved February 22 2023 Geggel Laura April 13 2016 Photos Ancient Tully Monster s Identity Revealed livescience com Retrieved February 22 2023 External links edit nbsp Wikimedia Commons has media related to Tullimonstrum nbsp Wikispecies has information related to Tullimonstrum Tully Monster vs Method a video by the Field Museum of Natural History The Tully Monster a video by the Field Museum of Natural History Mazon Creek Paleobotany References by the Field Museum of Natural History Retrieved from https en wikipedia org w index php title Tullimonstrum amp oldid 1189334021, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.