List of transitional forms

A transitional form is an organism that has features intermediate of its ancestors and progeny. The term is most common in evolution to refer to organisms that show certain features (wings, feathers, gills and so on) partly in development. In theory, every fossil is a transitional form if it has descendants and each living creature is a transition between its parent and its offspring. However, evolution is about the features of populations rather than individuals, and the transition at the species level can be too small to notice in fossils. So the list below concentrates on broad transitional features and the genus or larger group.

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Definitions

A fossil (and the organism it came from) is usually considered transitional with respect to just two groups. (If more than two are considered, then the definition of "transitional" is fuzzier.) Individual organisms (or individual species), considered by themselves, cannot be divided into "transitional" and "non-transitional", rather like how individual towns can be labeled "between" and "not between"; the term is relative. However, in cases where two groups are very populous or well-known, and all of the intermediate species have gone extinct, any intermediate organism's transitional nature becomes noteworthy and noticeable, and may hence be called "transitional" all by itself. To return to the analogy of geography, the United States has a region called "the Midwest" or (somewhat derogatory) "flyover country". Of course every town and region in the US is in the middle and to the West of somewhere, and can be flown over. But the reason the Midwest is singled out as a "transitional" region is that it lies between the more populous and city-strewn East and West Coasts yet itself is denser than the Great Plains to its own west.

While some of the fossilized species in this list may be direct descendants and direct ancestors of the forms on either side of the transition, most are in fact close relatives of the "true" ancestral species. This is because evolution produces a tree of life on which there are many paths "up", but forward in time there is only one true path "down", through the various parent species. (A mother species can have many daughters, but each daughter has only one mother.) The number of fossils directly ancestral to, for example, modern birds decreases as one travels down the geologic column. Alongside each of these true bird ancestors are dozens of fossilized cousin bird species whose lines eventually died out altogether, but whose morphology provides clues about the nature of the ancestral species.

Because of all this, the term transitional form is often used to mean organisms that lie between two groups as cousins, not just as ancestors. For example, the echidna is not ancestral to modern mammals, but retains features of the reptile-like mammals which other mammals (the therians) lost, and is therefore transitional between ancient reptiles and therian mammals. A generally interchangeable term is intermediate form. Most iconic transitionals are the close descendants or cousins of a directly ancestral species whose fossils have not been found, or which never fossilized to begin with. (Fossilization is extremely rare.)

According to creationists

According to creationists, each and every one of the following fossils is either misinterpreted by scientists, a fraud manufactured by scientists, or does not exist at all. They have been shown utterly wrong in this claim - so they keep claiming it anyway.

Creationists also define transitional forms in inherently absurd or vague ways that cannot be met by the evidence. For example, they may insist that each of a proposed transitional organism's parts (its legs, eyes, wings) should be "partially formed" instead of "fully formed", even if those parts have nothing to do with the transition. (For example, that an ape-human transitional form would have half-length limbs, or only one eye.) What "partially formed" means is not always clear.

Even more nebulously, it is argued that a true transitional would be an "incomplete creature", a fantasy that creationists will contrast with the known fossil record of "fully formed" or "fully functional" creatures. A similar idea is that "real" transitionals would be Frankenstein's monsters, stitched-together assemblages of the parts of the two species. (It is akin to asserting that evolution could not be real unless the Piltdown hoax was also real, or asserting that if teenagers were really between children and adults, they would have baby heads on adult bodies.) In short, if biologists believe the species's members were healthy enough to survive for more than a few days, then it can't be transitional, because it must have been "fully formed". The thinking here may be a product of biological essentialism — a thing is either A or B, and something "between" A and B is logically impossible or convoluted.

Some creationists propose that the common ancestor of two species would necessarily look like a blend of them, such as Kirk Cameron's infamous Crocoduck. This ignores that the evolutionary model involves traits arising without having to be present in the common ancestor. Otherwise, the world's earliest life forms would somehow look like combinations of every species alive today. Also, a given distant ancestor species with living progeny (for example, the reptilian ancestor of ducks and crocodiles) will also have many different-looking descendants, not just two. Evolutionary lines do not "run out" of divergences any more than the surname Smith would run out of acts of reproduction.

Another mistake/lie made by creationist is that a transitional fossil has to be the direct descendant of one species and the direct ancestor of another. What they do not understand is the true definition of a transitional form. A transitional form illustrates an evolutionary link, as it can have features of two species, but have no other species as descendants. For example, your mother would be a 'transitional form' between you and your grandmother, as she shares traits with both of you. However, if your mother had a sister, she would also be a "transitional form" between you and your grandmother, having traits from both of you.

For example, apes and humans split from a common ancestor seven million years ago and both lineages are still around.

For this reason the concept of "missing link" is a misleading one. A transitional form does not need to be a perfect halfway house directly linking one group of organisms to another. "It merely needs to record aspects of evolutionary change that occurred as one lineage split from another."

It is also sometimes argued that if key transitional traits of an intermediate species (for example, the wing claws of Archaeopteryx) have not completely disappeared today, the species is not transitional. (The ostrich has wing claws). Of course, biology is under no obligation to "clear the slate" and make it so that extinct species' traits are utterly foreign to us. To assume otherwise is to assume presentism, that there is something "special" about the modern day. Eventually, perhaps, ostrich claws will disappear -- will this make them "retroactively" transitional?

When all hope is lost, creationists call the intermediate a "mosaic species" that "doesn't prove anything", and point out that God can create whatever he wants.

The species listed here are all thought to be close relatives of species descending from the first forms in the list and ancestral to the last ones. Each list represents some branch on the tree of life, its members being the sub-branches and "twigs" extending from this branch.

Transitions in vertebrates before the Cenozoic

This is a fairly incomplete list. Please help us expand it!

Invertebrate to Vertebrate

  • Unnamed Upper (U.) Pre-Cambrian chordate First to bear a primitive notochord; archaetypical chordate.
  • Pikaia gracilens Middle (M.) Cambrian chordate with lancelet-like morphology.
  • Haikouella Lower (L.) Cambrian chordate, first to bear a skull; archaetypical craniate.
  • Haikouichthys L. Cambrian quasi-vertebrate, intermediate in developing a vertebral column; archaetypical vertebrate. [1]
  • Conodonts U. Cambrian to Triassic quasi-vertebrates with spinal cord; "bug-eyed lampreys".
  • Myllokunmingia L. Cambrian vertebrate with primitive spinal column; oldest true crown-group vertebrate.
  • Arandaspis L. Ordovician vertebrate, armoured jawless fish (ostracoderm), oldest known vertebrate with hard parts known from (mostly) complete fossils.[2]

Jawless Fish to Jawed Vertebrate

  • Birkenia Silurian primitive, jawless fish, a typical member of the Anaspida[3][4]
  • Cephalaspis Silurian armoured jawless fish, archaetypical member of the "Osteostraca," sister group to all jawed vertebrates.
  • Shuyu Silurian to Devonian, armoured jawless fish belonging to Galeaspida, related to Osteostraca. Internal cranial anatomy very similar to the anatomy seen in basal jawed vertebrates[5]. This similarity is directly implied with the translation of its name, "Dawn Fish," with the implication that it represents the "dawn of jawed vertebrates."

Acanthodian to shark[6]

  • Ptomacanthus sharklike fish, originally described as an acanthodian fish: brain anatomy demonstrates that it is an intermediate between acanthodians and sharks.
  • Cladoselache primitive/basal shark.
  • Tristychius another sharklike fish.
  • Ctenacanthus primitive/basal shark.
  • Paleospinax sharklike jaw, primitive teeth.
  • Spathobatis Ray-like fish.
  • Protospinax Ancestral to both sharks and skates.

Primitive jawed fish to bony fish[7]

  • Acanthodians superficially similar to early bony fishes, and some have been identified as being the ancestors of sharks.
  • Palaeoniscoids primitive bony fishes.
  • Canobius, Aeduella palaeoniscoids with more advanced jaws.
  • Parasemionotus combination of modern cheeks with more primitive features, like lungs
  • Oreochima first teleost fish
  • Leptolepids vaguely herring-like ancestors of modern teleost fish. Lung modified into swim bladder.
  • Amphistium and Heteronectes percomorphs that demonstrate the transition of the eye location of flatfishes.

Fish to amphibian[8]

  • Paleoniscoids both ancestral to modern fish and land vertebrates
  • Osteolepis modified limb bones, amphibian like skull and teeth
  • Kenichthys shows the position of exhaling nostrils moving from front to fish to throat in tetrapods in its halfway point, in the teeth
  • Eusthenopteron, Sterropterygion fin bones similarly structured to amphibian feet, but no toes yet, and still fishlike bodily proportions
  • Panderichthys, Elpistostege tetrapod-like bodily proportions.
  • Obruchevichthys fragmented skeleton with intermediate characteristics, possible first tetrapod.
  • Tiktaalik a fish with developing legs. Also appearance of ribs and neck.
  • Acanthostega gunnarifamous intermediate fossil. most primitive fossil that is known to be a tetrapod or four legged animal from the Upper Devonian of Greenland, which has shed significant light on the derivation and early evolution of tetrapods. It had legs and feet but was aquatic, not an amphibian.
  • Ichthyostega like Acanthostega, another fishlike amphibian
  • Hynerpeton A little more advanced then Acanthostega and Ichtyostega
  • Labyrinthodonts still many fishlike features, but tailfins have disappeared
  • Gars Fish with vascularized swim bladders that can function as lungs
  • Lungfish and Birchirs fish that have lungs

Primitive to modern amphibians[9]

  • Temnospondyls
  • Dendrerpeton acadianum
  • Archegosaurus decheni
  • Eryops megacephalus
  • Trematops
  • Amphibamus lyelli
  • Doleserpeton annectens
  • Triadobatrachus a primitive frog.
  • Vieraella an early modern frog
  • Karaurus a primitive salamander

Amphibian to reptile[10]

  • Proterogyrinus
  • Limnoscelis
  • Tseajaia
  • Solenodonsaurus
  • Hylonomus
  • Paleothyris

Early reptile to diapsid[11]

  • Hylonomus
  • Paleothyris
  • Petrolacosaurus
  • Araeoscelis
  • Apsisaurus
  • Claudiosaurus
  • Planocephalosaurus
  • Protorosaurus
  • Prolacerta
  • Proterosuchus
  • Hyperodapedon
  • Trilophosaurus

Early diapsid to turtle[12]

  • Pappochelys rosinae diapsid skull with expanded ribs and fused gastralia
  • Odontochelys semitestacea secondary loss of temporal fenestrae, partial formation of a turtle shell, showing how the hard underbelly, or plastron, formed first.[13]
  • Deltavjatia vjatkensis
  • Proganochelys

Early synapsid to mammal[14]

  • Paleothyris
  • Protoclepsydrops haplous
  • Clepsydrops
  • Archaeothyris
  • Varanops
  • Haptodus
  • Dimetrodon
  • Sphenacodon
  • Biarmosuchia
  • Procynosuchus
  • Dvinia
  • Thrinaxodon
  • Cynognathus
  • Diademodon
  • Probelesodon
  • Probainognathus
  • Exaeretodon
  • Oligokyphus
  • Kayentatherium
  • Pachygenelus
  • Diarthrognathus
  • Adelobasileus cromptoni
  • Sinoconodon
  • Kuehneotherium
  • Eozostrodon
  • Morganucodon -- a transition between "proto mammals" and "true mammals".
  • Haldanodon
  • Peramus
  • Endotherium
  • Kielantherium
  • Aegialodon
  • Steropodon galmani
  • Vincelestes neuquenianus
  • Pariadens kirklandi
  • Kennalestes
  • Asioryctes
  • Procerberus
  • Gypsonictops
  • Juramaia
  • Eomaia
  • Sinodelphys

Dinosaur to bird[15]

  • Kulindadromeus A basal neornithischian (Ya know, Triceratops, Iguanadon, Hypsilophodon, and such) with feathers.
  • Allosaurus A large theropod with a wishbone.
  • Aerosteon A large theropod of the same lineage as the aforementioned Allosaurus that was discovered to have air sacs supplementing lungs, like modern birds.
  • Compsognathus A small coeleurosaur with a wishbone.
  • Epidendrosaurus
  • Epidexipteryx
  • Scandoriopteryx
  • Gigantoraptor A large oviraptorosaur discovered brooding its nests in order to protect and incubate eggs.
  • Gobivenator
  • Mei A troodont discovered sleeping with its head underneath its wing/
  • Saurornithoides
  • Sinovenator
  • Buitreraptor
  • Pyroraptor
  • Unenlagia
  • Graciliraptor
  • Bambiraptor
  • Balaur A large flightless bird that was wrongly thought to be a dromaeosaurid dinosaur..
  • Tsaagan
  • Dromaeosaurus
  • Sinosauropteryx a basal coelurosaur discovered to be covered in feathers. It is also the first dinosaur to have its colour determined, thanks to preserved pigment structures in the feathers.
  • Protarchaeopteryx
  • Caudipteryx
  • VelociraptorFile:Wikipedia's W.svg — a famous dromaeosaurid discovered to have quill knobs on its wrists. For some odd-like reason, sadly. Everyone sees these things as mutant dragon-like things.
  • DeinonychusFile:Wikipedia's W.svg
  • Utahraptor
  • Achillobator
  • Oviraptor the first dinosaur discovered to steal brood nests.
  • Sinovenator
  • Beipiaosaurus
  • Lisboasaurus
  • Sinornithosaurus
  • Microraptor a feathered bird with distinctly dinosaurian characteristics, such as its tail.
  • Xiaotingia slightly earlier than Archaeopteryx, slightly more like a dinosaur and less like a bird
  • Archaeopteryx the famous bird-with-teeth.
  • Anchiornis
  • Baptornis
  • Rahonavis
  • Confuciusornis
  • Sinornis
  • Iberomesornis
  • Theriznosaurus
  • Nothronychus
  • Citipati
  • Falcarius
  • Alxasaurus
  • Chirostenotes
  • Avimimus
  • Khaan
  • Incisivosaurus
  • Caenagnathus
  • Troodon
  • Byronosaurus
  • Ingenia
  • Hesperonychus
  • Conchoraptor
  • Patagopteryx
  • Ambiortus
  • Hesperornis A diving seabird with prominent teeth. It's also completely flightless.
  • Apsaravis
  • Ichthyornis A flying seabird with prominent teeth.
  • Columba One of many typical modern birds.

Transitional mammalian fossils

Primates

  • PurgatoriusFile:Wikipedia's W.svg the earliest primate-like organism
  • PlesiadapisFile:Wikipedia's W.svg Mammal closely related to primates.
  • CarpolestesFile:Wikipedia's W.svg Mammal closely related to primates[16]
  • ArchicebusFile:Wikipedia's W.svg First euprimate, or something very similar to it.
  • Omomys Tarsier-like primate
  • EosimiasFile:Wikipedia's W.svg Basal anthropoid
  • Amphipithecus Another basal anthropoid
  • ApidiumFile:Wikipedia's W.svg The first, primitive monkey.
  • Propliopithecus Primitive New World Monkey
  • Darwinius masillae a link between earlier primates and later ones.
  • DryopithecusFile:Wikipedia's W.svg Primitive ape.
  • ProconsulFile:Wikipedia's W.svg Primate that is closely related to apes.
  • SivapithecusFile:Wikipedia's W.svg Primate closely related to the ancestors of Orangutans
  • DjebelemurFile:Wikipedia's W.svg First lemuriform primate.[17]
  • Cantius Extremely primitive prosimian from the Early EoceneFile:Wikipedia's W.svg of North America.[18]
  • Teilhardina First North American primate.[19]

Non-human primate to human

  • SahelanthropusFile:Wikipedia's W.svg possible candidate for last human-chimpanzee common ancestor; from placement of skull possibly walked upright.
  • OrrorinFile:Wikipedia's W.svg possible human ancestor, may have walked upright as shown by shape of femur.[20]
  • ArdipithecusFile:Wikipedia's W.svg
  • Australopithecus a genus of bipedal apes
  • KenyanthropusFile:Wikipedia's W.svg a genus of bipedal apes that may have been the earliest known tool users; possibly the earliest member of the genus Homo
  • Homo habilis a transitional form from Australopithecus to later Homo[21]
  • Homo rudolfensis a type of Homo habilis or a different species
  • Homo ergaster an early form of Homo erectus or a distinct species
  • Homo erectus a transitional form from earlier Homo to later Homo (Latin for "human") species
  • Homo heidelbergensis a possible common ancestor of modern man and Homo neanderthalensis [22] [23]
  • Homo neanderthalensis Neanderthals interbred with modern humans multiple times.[24]
  • Homo floresiensis The infamous "hobbits" of Flores.
  • Homo sapiens idaltuFile:Wikipedia's W.svg archaic subspecies of modern human, possibly ancestral to Homo sapiens sapiens (modern humans).

Cetaceans

  • Indohyus a vaguely chevrotain-like or raccoon-like aquatic artiodactyl ungulate with an inner ear identical to that of whales.
  • AmbulocetusFile:Wikipedia's W.svg an early whale that looks like a mammalian version of a crocodile
  • Pakicetus an early, semi-aquatic whale, a superficially wolf-like animal believed to be a direct ancestor of modern whales.
  • Rhodocetus An early whale with comparatively large hindlegs: not only represents a transition between semi-aquatic whales, like Ambulocetus, and obligately aquatic whales, like Basilosaurus.
  • Basilosaurus A large, elongated whale with vestigial hind flippers: transition from early marine whales (like Rhodocetus) to modern whales
  • DorudonFile:Wikipedia's W.svg A small whale with vestigial hind flippers, close relative of Basilosaurus.

Proboscideans

  • Eritherium
  • Phosphatherium
  • Numidotherium
  • Barytherium
  • Phiomia
  • Prodeinotherium
  • Stegodon

Transitional plant fossils

  • CooksoniaFile:Wikipedia's W.svg early vascular plant
  • ArchaeopterisFile:Wikipedia's W.svg early tree
  • WilliamsoniaFile:Wikipedia's W.svg an early flowering plant ("stem angiosperm")
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See also

References

  1. http://adsabs.harvard.edu/abs/2003Natur.421..526S
  2. http://en.wikipedia.org/wiki/List_of_transitional_fossils
  3. http://www.britannica.com/EBchecked/topic/66626/Birkenia
  4. http://en.wikipedia.org/wiki/Birkenia
  5. http://www.nature.com/nature/journal/v476/n7360/full/nature10276.html
  6. http://www.talkorigins.org/faqs/faq-transitional/part1a.html
  7. http://www.talkorigins.org/faqs/faq-transitional/part1a.html
  8. http://www.talkorigins.org/faqs/faq-transitional/part1a.html
  9. http://www.talkorigins.org/faqs/faq-transitional/part1a.html
  10. http://www.talkorigins.org/faqs/faq-transitional/part1b.html
  11. http://www.talkorigins.org/faqs/faq-transitional/part1b.html
  12. http://www.talkorigins.org/faqs/faq-transitional/part1b.html
  13. Article in the journal Nature
  14. http://www.talkorigins.org/faqs/faq-transitional/part1b.html
  15. http://www.talkorigins.org/faqs/faq-transitional/part1b.html
  16. This encompasses the first three
  17. http://rspb.royalsocietypublishing.org/content/royprsb/276/1676/4087.full.pdf
  18. P. D. Gingerich and E. L. Simons. 1977. Systematics, phylogeny, and evolution of early Eocene Adapidae (Mammalia, Primates) in North America. Contributions from the Museum of Paleontology, University of Michigan 24(22):245-279
  19. Systematic analysis of Omomyiform phylogeny
  20. Henke, Winfried. Tatersall, Ian. Hardt, Thorolf. Handbook of Paleoanthropology: Phylogeny of Hominids, pub. 2007.
  21. http://www.bbc.co.uk/sn/prehistoric_life/human/human_evolution/first_europeans1.shtml
  22. Homo heidelbergensis Click on the link, 'Evolutionary tree'.
  23. "Modern humans and Neanderthals share a tangled genetic web" - Phys.org
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