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Living fossil

January 31, 2023

"Living Fossil" redirects here. For the story by L. Sprague de Camp, see Living Fossil (short story).

A living fossil is an extant taxon that cosmetically resembles related species known only from the fossil record. To be considered a living fossil, the fossil species must be old relative to the time of origin of the extant clade. Living fossils commonly are of species-poor lineages, but they need not be. While the body plan of a living fossil remains superficially similar, it is never the same species as the remote relatives it resembles, because genetic drift would inevitably change its chromosomal structure.

The coelacanths were thought to have gone extinct 66 million years ago, until a living specimen belonging to the order was discovered in 1938.

Living fossils exhibit stasis (also called "bradytely") over geologically long time scales. Popular literature may wrongly claim that a "living fossil" has undergone no significant evolution since fossil times, with practically no molecular evolution or morphological changes. Scientific investigations have repeatedly discredited such claims.[1][2][3]

The minimal superficial changes to living fossils are mistakenly declared as an absence of evolution, but they are examples of stabilizing selection, which is an evolutionary process—and perhaps the dominant process of morphological evolution.[4]

Characteristics

Fossil and living ginkgos
 
170 million-year-old fossil Ginkgo leaves
 
Living Ginkgo biloba plant

Living fossils have two main characteristics, although some have a third:

  1. Living organisms that are members of a taxon that has remained recognisable in the fossil record over an unusually long time span.
  2. They show little morphological divergence, whether from early members of the lineage, or among extant species.
  3. They tend to have little taxonomic diversity.[5]

The first two are required for recognition as a living fossil status; some authors also require the third, others merely note it as a frequent trait.

Such criteria are neither well-defined nor clearly quantifiable, but modern methods for analyzing evolutionary dynamics can document the distinctive tempo of stasis.[6][7][8] Lineages that exhibit stasis over very short time scales are not considered living fossils; what is poorly-defined is the time scale over which the morphology must persist for that lineage to be recognized as a living fossil.

The term "living fossil" is much misunderstood in popular media in particular, in which it often is used meaninglessly. In professional literature the expression seldom appears and must be used with far more caution, although it has been used inconsistently.[9][10]

One example of a concept that could be confused with "living fossil" is that of a "Lazarus taxon", but the two are not equivalent; a Lazarus taxon (whether a single species or a group of related species) is one that suddenly reappears, either in the fossil record or in nature, as if the fossil had "come to life again".[11] In contrast to "Lazarus taxa", a living fossil in most senses is a species or lineage that has undergone exceptionally little change throughout a long fossil record, giving the impression that the extant taxon had remained identical through the entire fossil and modern period. Because of the mathematical inevitability of genetic drift, though, the DNA of the modern species is necessarily different from that of its distant, similar-looking ancestor. They almost certainly would not be able to cross-reproduce, and are not the same species.[12]

The average species turnover time, meaning the time between when a species first is established and when it finally disappears, varies widely among phyla, but averages about 2–3 million years.[citation needed] A living taxon that had long been thought to be extinct could be called a Lazarus taxon once it was discovered to be still extant. A dramatic example was the order Coelacanthiformes, of which the genus Latimeria was found to be extant in 1938. About that there is little debate — however, whether Latimeria resembles early members of its lineage sufficiently closely to be considered a living fossil as well as a Lazarus taxon has been denied by some authors in recent years.[1]

Coelacanths disappeared from the fossil record some 80 million years ago (upper Cretaceous) and, to the extent that they exhibit low rates of morphological evolution, extant species qualify as living fossils. It must be emphasised that this criterion reflects fossil evidence, and is totally independent of whether the taxa had been subject to selection at all, which all living populations continuously are, whether they remain genetically unchanged or not.[13]

This apparent stasis, in turn, gives rise to a great deal of confusion — for one thing, the fossil record seldom preserves much more than the general morphology of a specimen. To determine much about its physiology is seldom possible; not even the most dramatic examples of living fossils can be expected to be without changes, no matter how persistently constant their fossils and the extant specimens might seem. To determine much about noncoding DNA is hardly ever possible, but even if a species were hypothetically unchanged in its physiology, it is to be expected from the very nature of the reproductive processes, that its non-functional genomic changes would continue at more-or-less standard rates. Hence, a fossil lineage with apparently constant morphology need not imply equally constant physiology, and certainly neither implies any cessation of the basic evolutionary processes such as natural selection, nor reduction in the usual rate of change of the noncoding DNA.[13]

Some living fossils are taxa that were known from palaeontological fossils before living representatives were discovered. The most famous examples of this are:

All the above include taxa that originally were described as fossils but now are known to include still-extant species.

Other examples of living fossils are single living species that have no close living relatives, but are survivors of large and widespread groups in the fossil record. For example:

All of these were described from fossils before later being found alive.[14][15][16]

The fact that a living fossil is a surviving representative of an archaic lineage does not imply that it must retain all the "primitive" features (plesiomorphies) of its ancestral lineage. Although it is common to say that living fossils exhibit "morphological stasis", stasis, in the scientific literature, does not mean that any species is strictly identical to its ancestor, much less remote ancestors.

Some living fossils are relicts of formerly diverse and morphologically varied lineages, but not all survivors of ancient lineages necessarily are regarded as living fossils. See for example the uniquely and highly autapomorphic oxpeckers, which appear to be the only survivors of an ancient lineage related to starlings and mockingbirds.[17]

Evolution and living fossils

The term living fossil is usually reserved for species or larger clades that are exceptional for their lack of morphological diversity and their exceptional conservatism, and several hypotheses could explain morphological stasis on a geologically long time-scale. Early analyses of evolutionary rates emphasized the persistence of a taxon rather than rates of evolutionary change.[18] Contemporary studies instead analyze rates and modes of phenotypic evolution, but most have focused on clades that are thought to be adaptive radiations rather than on those thought to be living fossils. Thus, very little is presently known about the evolutionary mechanisms that produce living fossils or how common they might be. Some recent studies have documented exceptionally low rates of ecological and phenotypic evolution despite rapid speciation.[19] This has been termed a "non-adaptive radiation" referring to diversification not accompanied by adaptation into various significantly different niches.[20] Such radiations are explanation for groups that are morphologically conservative. Persistent adaptation within an adaptive zone is a common explanation for morphological stasis.[21] The subject of very low evolutionary rates, however, has received much less attention in the recent literature than that of high rates

Living fossils are not expected to exhibit exceptionally low rates of molecular evolution, and some studies have shown that they do not.[22] For example, on tadpole shrimp (Triops), one article notes, "Our work shows that organisms with conservative body plans are constantly radiating, and presumably, adapting to novel conditions.... I would favor retiring the term ‘living fossil’ altogether, as it is generally misleading."[23] Some scientists instead prefer a new term stabilomorph, being defined as "an effect of a specific formula of adaptative strategy among organisms whose taxonomic status does not exceed genus-level. A high effectiveness of adaptation significantly reduces the need for differentiated phenotypic variants in response to environmental changes and provides for long-term evolutionary success."[24]

The question posed by several recent studies pointed out that the morphological conservatism of coelacanths is not supported by paleontological data.[25][26] In addition, it was shown recently that studies concluding that a slow rate of molecular evolution is linked to morphological conservatism in coelacanths are biased by the a priori hypothesis that these species are ‘living fossils’.[27] Accordingly, the genome stasis hypothesis is challenged by the recent finding that the genome of the two extant coelacanth species L. chalumnae and L. menadoensis contain multiple species-specific insertions, indicating transposable element recent activity and contribution to post-speciation genome divergence.[28] Such studies, however, challenge only a genome stasis hypothesis, not the hypothesis of exceptionally low rates of phenotypic evolution.

History

The term was coined by Charles Darwin in his On the Origin of Species from 1859, when discussing Ornithorhynchus (the platypus) and Lepidosiren (the South American lungfish):

... All fresh-water basins, taken together, make a small area compared with that of the sea or of the land; and, consequently, the competition between fresh-water productions will have been less severe than elsewhere; new forms will have been more slowly formed, and old forms more slowly exterminated. And it is in fresh water that we find seven genera of Ganoid fishes, remnants of a once preponderant order: and in fresh water we find some of the most anomalous forms now known in the world, as the Ornithorhynchus and Lepidosiren, which, like fossils, connect to a certain extent orders now widely separated in the natural scale. These anomalous forms may almost be called living fossils; they have endured to the present day, from having inhabited a confined area, and from having thus been exposed to less severe competition.[29]

Other definitions

Long-enduring

 
Elephant shrews resemble the extinct Leptictidium of Eocene Europe.

A living taxon that lived through a large portion of geologic time.[citation needed]

The Australian lungfish (Neoceratodus fosteri), also known as the Queensland lungfish, is an example of an organism that meets this criterion. Fossils identical to modern specimens have been dated at over 100 million years old. Modern Queensland lungfish have existed as a species for almost 30 million years. The contemporary nurse shark has existed for more than 112 million years, making this species one of the oldest, if not actually the oldest extant vertebrate species.

Resembles ancient species

A living taxon morphologically and/or physiologically resembling a fossil taxon through a large portion of geologic time (morphological stasis).[30]

Retains many ancient traits

 
More primitive trapdoor spiders, such as this female Liphistius sp., have segmented plates on the dorsal surface of the abdomen and cephalothorax, a character shared with scorpions, making it probable that after the spiders diverged from the scorpions, the earliest unique ancestor of trapdoor species was the first to split off from the lineage that contains all other extant spiders.

A living taxon with many characteristics believed to be primitive.[citation needed]

This is a more neutral definition. However, it does not make it clear whether the taxon is truly old, or it simply has many plesiomorphies. Note that, as mentioned above, the converse may hold for true living fossil taxa; that is, they may possess a great many derived features (autapomorphies), and not be particularly "primitive" in appearance.

Relict population

Any one of the above three definitions, but also with a relict distribution in refuges.[citation needed]

Some paleontologists believe that living fossils with large distributions (such as Triops cancriformis) are not real living fossils. In the case of Triops cancriformis (living from the Triassic until now), the Triassic specimens lost most of their appendages (mostly only carapaces remain), and they have not been thoroughly examined since 1938.

Low diversity

Any of the first three definitions, but the clade also has a low taxonomic diversity (low diversity lineages).[citation needed]

Oxpeckers are morphologically somewhat similar to starlings due to shared plesiomorphies, but are uniquely adapted to feed on parasites and blood of large land mammals, which has always obscured their relationships. This lineage forms part of a radiation that includes Sturnidae and Mimidae, but appears to be the most ancient of these groups. Biogeography strongly suggests that oxpeckers originated in eastern Asia and only later arrived in Africa, where they now have a relict distribution.[17]

The two living species thus seem to represent an entirely extinct and (as Passerida go) rather ancient lineage, as certainly as this can be said in the absence of actual fossils. The latter is probably due to the fact that the oxpecker lineage never occurred in areas where conditions were good for fossilization of small bird bones, but of course, fossils of ancestral oxpeckers may one day turn up enabling this theory to be tested.

Operational definition

An operational definition was proposed in 2017, where a 'living fossil' lineage has a slow rate of evolution and occurs close to the middle of morphological variation (the centroid of morphospace) among related taxa (i.e. a species is morphologically conservative among relatives).[31] The scientific accuracy of the morphometric analyses used to classify tuatara as a living fossil under this definition have been criticised however,[32] which prompted a rebuttal from the original authors.[33]

Examples

Some of these are informally known as "living fossils".

 
Ginkgos have not only existed for a long time, but also have a long life span, with some having an age of over 2,500 years. Six specimens survived the atomic bombing of Hiroshima, 1 to 2 kilometers from ground zero. They still live there today.
 
Ferns were the dominant plant group in the Jurassic period, with some species, such as Osmunda claytoniana, maintaining evolutionary stasis for at least 180 million years.[34][35]

Bacteria

  • Cyanobacteria - the oldest living fossils, emerging 3.5 billion years ago. They exist as single bacteria but are most often pictured as stromatolites, artificial rocks produced by cyanobacteria waste.[36]

Protists

Plants

Fungi

Animals

 
Echidnas are one of few mammals to lay eggs.
Vertebrates
 
Hoatzin hatch with two visible claws on their wings, but the claws fall out once the birds reach maturity.
 
Crocodilians survived the K–Pg extinction event that killed off the non-avian dinosaurs.
 
Tuataras are reptiles, yet retain more primitive characteristics than lizards and snakes.
 
The goblin shark is the only extant representative of the family Mitsukurinidae, a lineage some 125 million years old (early Cretaceous).
 
Nautilus retain the external spiral shell that its other relatives have lost.
 
With little change over the last 450 million years, the horseshoe crabs appear as living fossils.
Invertebrates

See also

References

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  2. ^ Mathers, Thomas C.; Hammond, Robert L.; Jenner, Ronald A.; Hänfling, Bernd; Gómez, Africa (2013). "Multiple global radiations in tadpole shrimps challenge the concept of 'living fossils'". PeerJ. 1: e62. doi:10.7717/peerj.62. PMC 3628881. PMID 23638400.
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External links

 
Look up living fossil in Wiktionary, the free dictionary.

    January 31, 2023
    living, fossil, living, fossil, redirects, here, story, sprague, camp, living, fossil, short, story, living, fossil, extant, taxon, that, cosmetically, resembles, related, species, known, only, from, fossil, record, considered, living, fossil, fossil, species,. Living Fossil redirects here For the story by L Sprague de Camp see Living Fossil short story A living fossil is an extant taxon that cosmetically resembles related species known only from the fossil record To be considered a living fossil the fossil species must be old relative to the time of origin of the extant clade Living fossils commonly are of species poor lineages but they need not be While the body plan of a living fossil remains superficially similar it is never the same species as the remote relatives it resembles because genetic drift would inevitably change its chromosomal structure The coelacanths were thought to have gone extinct 66 million years ago until a living specimen belonging to the order was discovered in 1938 Living fossils exhibit stasis also called bradytely over geologically long time scales Popular literature may wrongly claim that a living fossil has undergone no significant evolution since fossil times with practically no molecular evolution or morphological changes Scientific investigations have repeatedly discredited such claims 1 2 3 The minimal superficial changes to living fossils are mistakenly declared as an absence of evolution but they are examples of stabilizing selection which is an evolutionary process and perhaps the dominant process of morphological evolution 4 Contents 1 Characteristics 2 Evolution and living fossils 3 History 3 1 Other definitions 3 1 1 Long enduring 3 1 2 Resembles ancient species 3 1 3 Retains many ancient traits 3 1 4 Relict population 3 1 5 Low diversity 3 2 Operational definition 4 Examples 4 1 Bacteria 4 2 Protists 4 3 Plants 4 4 Fungi 4 5 Animals 5 See also 6 References 7 External linksCharacteristics EditFossil and living ginkgos 170 million year old fossil Ginkgo leaves Living Ginkgo biloba plant Living fossils have two main characteristics although some have a third Living organisms that are members of a taxon that has remained recognisable in the fossil record over an unusually long time span They show little morphological divergence whether from early members of the lineage or among extant species They tend to have little taxonomic diversity 5 The first two are required for recognition as a living fossil status some authors also require the third others merely note it as a frequent trait Such criteria are neither well defined nor clearly quantifiable but modern methods for analyzing evolutionary dynamics can document the distinctive tempo of stasis 6 7 8 Lineages that exhibit stasis over very short time scales are not considered living fossils what is poorly defined is the time scale over which the morphology must persist for that lineage to be recognized as a living fossil The term living fossil is much misunderstood in popular media in particular in which it often is used meaninglessly In professional literature the expression seldom appears and must be used with far more caution although it has been used inconsistently 9 10 One example of a concept that could be confused with living fossil is that of a Lazarus taxon but the two are not equivalent a Lazarus taxon whether a single species or a group of related species is one that suddenly reappears either in the fossil record or in nature as if the fossil had come to life again 11 In contrast to Lazarus taxa a living fossil in most senses is a species or lineage that has undergone exceptionally little change throughout a long fossil record giving the impression that the extant taxon had remained identical through the entire fossil and modern period Because of the mathematical inevitability of genetic drift though the DNA of the modern species is necessarily different from that of its distant similar looking ancestor They almost certainly would not be able to cross reproduce and are not the same species 12 The average species turnover time meaning the time between when a species first is established and when it finally disappears varies widely among phyla but averages about 2 3 million years citation needed A living taxon that had long been thought to be extinct could be called a Lazarus taxon once it was discovered to be still extant A dramatic example was the order Coelacanthiformes of which the genus Latimeria was found to be extant in 1938 About that there is little debate however whether Latimeria resembles early members of its lineage sufficiently closely to be considered a living fossil as well as a Lazarus taxon has been denied by some authors in recent years 1 Coelacanths disappeared from the fossil record some 80 million years ago upper Cretaceous and to the extent that they exhibit low rates of morphological evolution extant species qualify as living fossils It must be emphasised that this criterion reflects fossil evidence and is totally independent of whether the taxa had been subject to selection at all which all living populations continuously are whether they remain genetically unchanged or not 13 This apparent stasis in turn gives rise to a great deal of confusion for one thing the fossil record seldom preserves much more than the general morphology of a specimen To determine much about its physiology is seldom possible not even the most dramatic examples of living fossils can be expected to be without changes no matter how persistently constant their fossils and the extant specimens might seem To determine much about noncoding DNA is hardly ever possible but even if a species were hypothetically unchanged in its physiology it is to be expected from the very nature of the reproductive processes that its non functional genomic changes would continue at more or less standard rates Hence a fossil lineage with apparently constant morphology need not imply equally constant physiology and certainly neither implies any cessation of the basic evolutionary processes such as natural selection nor reduction in the usual rate of change of the noncoding DNA 13 Some living fossils are taxa that were known from palaeontological fossils before living representatives were discovered The most famous examples of this are Coelacanthiform fishes 2 species Metasequoia the dawn redwood discovered in a remote Chinese valley 1 species glypheoid lobsters 2 species mymarommatid wasps 10 species eomeropid scorpionflies 1 species jurodid beetles 1 species soft sea urchins 59 species All the above include taxa that originally were described as fossils but now are known to include still extant species Other examples of living fossils are single living species that have no close living relatives but are survivors of large and widespread groups in the fossil record For example Ginkgo biloba Syntexis libocedrii the cedar wood wasp Dinoflagellates typified on coccoid dinocysts occasionally calcareous cell remnants All of these were described from fossils before later being found alive 14 15 16 The fact that a living fossil is a surviving representative of an archaic lineage does not imply that it must retain all the primitive features plesiomorphies of its ancestral lineage Although it is common to say that living fossils exhibit morphological stasis stasis in the scientific literature does not mean that any species is strictly identical to its ancestor much less remote ancestors Some living fossils are relicts of formerly diverse and morphologically varied lineages but not all survivors of ancient lineages necessarily are regarded as living fossils See for example the uniquely and highly autapomorphic oxpeckers which appear to be the only survivors of an ancient lineage related to starlings and mockingbirds 17 Evolution and living fossils EditThe term living fossil is usually reserved for species or larger clades that are exceptional for their lack of morphological diversity and their exceptional conservatism and several hypotheses could explain morphological stasis on a geologically long time scale Early analyses of evolutionary rates emphasized the persistence of a taxon rather than rates of evolutionary change 18 Contemporary studies instead analyze rates and modes of phenotypic evolution but most have focused on clades that are thought to be adaptive radiations rather than on those thought to be living fossils Thus very little is presently known about the evolutionary mechanisms that produce living fossils or how common they might be Some recent studies have documented exceptionally low rates of ecological and phenotypic evolution despite rapid speciation 19 This has been termed a non adaptive radiation referring to diversification not accompanied by adaptation into various significantly different niches 20 Such radiations are explanation for groups that are morphologically conservative Persistent adaptation within an adaptive zone is a common explanation for morphological stasis 21 The subject of very low evolutionary rates however has received much less attention in the recent literature than that of high ratesLiving fossils are not expected to exhibit exceptionally low rates of molecular evolution and some studies have shown that they do not 22 For example on tadpole shrimp Triops one article notes Our work shows that organisms with conservative body plans are constantly radiating and presumably adapting to novel conditions I would favor retiring the term living fossil altogether as it is generally misleading 23 Some scientists instead prefer a new term stabilomorph being defined as an effect of a specific formula of adaptative strategy among organisms whose taxonomic status does not exceed genus level A high effectiveness of adaptation significantly reduces the need for differentiated phenotypic variants in response to environmental changes and provides for long term evolutionary success 24 The question posed by several recent studies pointed out that the morphological conservatism of coelacanths is not supported by paleontological data 25 26 In addition it was shown recently that studies concluding that a slow rate of molecular evolution is linked to morphological conservatism in coelacanths are biased by the a priori hypothesis that these species are living fossils 27 Accordingly the genome stasis hypothesis is challenged by the recent finding that the genome of the two extant coelacanth species L chalumnae and L menadoensis contain multiple species specific insertions indicating transposable element recent activity and contribution to post speciation genome divergence 28 Such studies however challenge only a genome stasis hypothesis not the hypothesis of exceptionally low rates of phenotypic evolution History EditThe term was coined by Charles Darwin in his On the Origin of Species from 1859 when discussing Ornithorhynchus the platypus and Lepidosiren the South American lungfish All fresh water basins taken together make a small area compared with that of the sea or of the land and consequently the competition between fresh water productions will have been less severe than elsewhere new forms will have been more slowly formed and old forms more slowly exterminated And it is in fresh water that we find seven genera of Ganoid fishes remnants of a once preponderant order and in fresh water we find some of the most anomalous forms now known in the world as the Ornithorhynchus and Lepidosiren which like fossils connect to a certain extent orders now widely separated in the natural scale These anomalous forms may almost be called living fossils they have endured to the present day from having inhabited a confined area and from having thus been exposed to less severe competition 29 Other definitions Edit Long enduring Edit Elephant shrews resemble the extinct Leptictidium of Eocene Europe A living taxon that lived through a large portion of geologic time citation needed The Australian lungfish Neoceratodus fosteri also known as the Queensland lungfish is an example of an organism that meets this criterion Fossils identical to modern specimens have been dated at over 100 million years old Modern Queensland lungfish have existed as a species for almost 30 million years The contemporary nurse shark has existed for more than 112 million years making this species one of the oldest if not actually the oldest extant vertebrate species Resembles ancient species Edit A living taxon morphologically and or physiologically resembling a fossil taxon through a large portion of geologic time morphological stasis 30 Retains many ancient traits Edit More primitive trapdoor spiders such as this female Liphistius sp have segmented plates on the dorsal surface of the abdomen and cephalothorax a character shared with scorpions making it probable that after the spiders diverged from the scorpions the earliest unique ancestor of trapdoor species was the first to split off from the lineage that contains all other extant spiders A living taxon with many characteristics believed to be primitive citation needed This is a more neutral definition However it does not make it clear whether the taxon is truly old or it simply has many plesiomorphies Note that as mentioned above the converse may hold for true living fossil taxa that is they may possess a great many derived features autapomorphies and not be particularly primitive in appearance Relict population Edit Any one of the above three definitions but also with a relict distribution in refuges citation needed Some paleontologists believe that living fossils with large distributions such as Triops cancriformis are not real living fossils In the case of Triops cancriformis living from the Triassic until now the Triassic specimens lost most of their appendages mostly only carapaces remain and they have not been thoroughly examined since 1938 Low diversity Edit Any of the first three definitions but the clade also has a low taxonomic diversity low diversity lineages citation needed Oxpeckers are morphologically somewhat similar to starlings due to shared plesiomorphies but are uniquely adapted to feed on parasites and blood of large land mammals which has always obscured their relationships This lineage forms part of a radiation that includes Sturnidae and Mimidae but appears to be the most ancient of these groups Biogeography strongly suggests that oxpeckers originated in eastern Asia and only later arrived in Africa where they now have a relict distribution 17 The two living species thus seem to represent an entirely extinct and as Passerida go rather ancient lineage as certainly as this can be said in the absence of actual fossils The latter is probably due to the fact that the oxpecker lineage never occurred in areas where conditions were good for fossilization of small bird bones but of course fossils of ancestral oxpeckers may one day turn up enabling this theory to be tested Operational definition Edit An operational definition was proposed in 2017 where a living fossil lineage has a slow rate of evolution and occurs close to the middle of morphological variation the centroid of morphospace among related taxa i e a species is morphologically conservative among relatives 31 The scientific accuracy of the morphometric analyses used to classify tuatara as a living fossil under this definition have been criticised however 32 which prompted a rebuttal from the original authors 33 Examples EditSome of these are informally known as living fossils Ginkgos have not only existed for a long time but also have a long life span with some having an age of over 2 500 years Six specimens survived the atomic bombing of Hiroshima 1 to 2 kilometers from ground zero They still live there today Ferns were the dominant plant group in the Jurassic period with some species such as Osmunda claytoniana maintaining evolutionary stasis for at least 180 million years 34 35 Bacteria Edit Cyanobacteria the oldest living fossils emerging 3 5 billion years ago They exist as single bacteria but are most often pictured as stromatolites artificial rocks produced by cyanobacteria waste 36 Protists Edit The dinoflagellate Calciodinellum operosum 14 The dinoflagellate Dapsilidinium pastielsii 16 The dinoflagellate Posoniella tricarinelloides 15 The coccolithophore Tergestiella adriatica 37 Plants Edit Moss Pteridophytes Horsetails Equisetum Lycopods Tree ferns and ferns Gymnosperms Conifers Agathis kauri in New Zealand Australia and the Pacific and almasiga in the Philippines Araucaria araucana the monkey puzzle tree as well as other extant Araucaria species Metasequoia dawn redwood Cupressaceae related to Sequoia and Sequoiadendron Sciadopitys a unique conifer endemic to Japan known in the fossil record for about 230 million years Taiwania cryptomerioides one of the largest tree species in Asia Wollemia tree Araucariaceae a borderline example related to Agathis and Araucaria 38 39 Cycads Ginkgo tree Ginkgoaceae Welwitschia Angiosperms Amborella a plant from New Caledonia possibly closest to base of the flowering plants Trapa water caltrops seeds and leaves of numerous extinct species are known all the way back to the Cretaceous Nelumbo several species of lotus flower are known exclusively from fossils dating back to the Cretaceous Fungi Edit NeolectaAnimals Edit Echidnas are one of few mammals to lay eggs Vertebrates Hoatzin hatch with two visible claws on their wings but the claws fall out once the birds reach maturity Crocodilians survived the K Pg extinction event that killed off the non avian dinosaurs Tuataras are reptiles yet retain more primitive characteristics than lizards and snakes The goblin shark is the only extant representative of the family Mitsukurinidae a lineage some 125 million years old early Cretaceous Mammals Aardvark Orycteropus afer Amami rabbit Pentalagus furnessi 40 Nesolagus Asian striped rabbits Chevrotain Tragulidae citation needed Chousingha Tetracerus quadricornis Elephant shrew Macroscelidea citation needed Laotian rock rat Laonastes aenigmamus citation needed Monito del monte Dromiciops gliroides Monotremes the platypus and echidna Mountain beaver Aplodontia rufa Okapi Okapia johnstoni 41 Sumatran rhinoceros Dicerorhinus sumatrensis Opossums Didelphidae Clouded leopard Neofelis nebulousa Capybara Hydrochoerus hydrochaeris citation needed Bush dog Speothos venaticus Maned wolf Chrysocyon brachyurus Red panda Ailurus fulgens 42 Solenodon Solenodon cubanus and Solenodon paradoxus Shrew opossum Caenolestidae Spectacled bear Tremarctos ornatus False killer whale Pseudorca crassidens Pygmy right whale Caperea marginata 43 44 Pacarana Dinomys branickii Birds Pelicans Pelecanus form has been virtually unchanged since the Eocene and is noted to have been even more conserved across the Cenozoic than that of crocodiles 45 Acanthisittidae New Zealand wrens 2 living species a few more recently extinct Distinct lineage of Passeriformes Broad billed sapayoa Sapayoa aenigma One living species Distinct lineage of Tyranni Bearded reedling Panurus biarmicus One living species Distinct lineage of Passerida or Sylvioidea Picathartes rockfowls Coliiformes mousebirds 6 living species in 2 genera Distinct lineage of Neoaves Hoatzin Ophisthocomus hoazin One living species Distinct lineage of Neoaves Magpie goose Anseranas semipalmata One living species Distinct lineage of Anseriformes Seriema Cariamidae 2 living species Distinct lineage of Cariamae Tinamiformes tinamous 50 living species Distinct lineage of Palaeognathae Reptiles Crocodilia crocodiles gavials caimans and alligators Pig nosed turtle Carettochelys insculpta Hickatee Dermatemys mawii Snapping turtle Chelydridae family Tuatara Sphenodon punctatus and Sphenodon guntheri 31 Asian forest tortoise Manouria emys Impressed tortoise Manouria impressa Sunbeam snake Xenopeltis hainanensis and Xenopeltis unicolor Leatherback sea turtle Dermochelys coriacea Amphibians Giant salamanders Cryptobranchus and Andrias Hula painted frog Latonia nigriventer 46 Purple frog Nasikabatrachus sahyadrensis Nautilus retain the external spiral shell that its other relatives have lost With little change over the last 450 million years the horseshoe crabs appear as living fossils Jawless fish Hagfish Myxinidae family Lamprey Petromyzontiformes Bony fish Arowana and arapaima Osteoglossidae Bowfin Amia calva Coelacanth the lobed finned Latimeria menadoensis and Latimeria chalumnae Gar Lepisosteidae Queensland lungfish Neoceratodus fosteri African lungfish Protopterus sp Sturgeons and paddlefish Acipenseriformes Bichir family Polypteridae Protanguilla palau Mudskipper Oxudercinae Sharks Blind shark Brachaelurus waddi Bullhead shark Heterodontus sp Cow shark sixgill sharks and relatives Hexanchidae Elephant shark Callorhinchus milii Frilled shark Chlamydoselachus sp Goblin shark Mitsukurina owstoni Gulper shark Centrophorus sp InvertebratesInsects Helorid wasps 1 living genus 11 extinct genera Mantophasmatodea gladiators a few living species Meropeidae 3 living species 4 extinct Micromalthus debilis a beetle Mymarommatid wasps 10 living species in genus Palaeomymar Nevrorthidae 3 species poor genera Nothomyrmecia known as the dinosaur ant Notiothauma reedi a scorpionfly relative Orussidae parasitic wood wasps about 70 living species in 16 genera Peloridiidae peloridiid bugs fewer than 30 living species in 13 genera Rhinorhipid beetles 1 living species Triassic origin Rotoitid wasps 2 living species 14 extinct Sikhotealinia zhiltzovae a jurodid beetle Syntexis libocedrii Anaxyelidae cedar wood wasp Cyatta abscondita most recent common relative of Atta and Acromyrmex ant genera Crustaceans Glypheoidea 2 living species Neoglyphea inopinata and Laurentaeglyphea neocaledonica Stomatopods mantis shrimp Triops cancriformis also known as tadpole shrimp a notostracan crustacean Molluscs Nautilina e g Nautilus pompilius Neopilina Monoplacophoran Slit snail e g Entemnotrochus rumphii Vampyroteuthis infernalis the vampire squid Other invertebrates Crinoids Horseshoe crabs only 4 living species of the class Xiphosura family Limulidae Lingula anatina an inarticulate brachiopod Liphistiidae trapdoor spiders Onychophorans velvet worms Rhabdopleura a hemichordate Valdiviathyris quenstedti a craniforman brachiopod Paleodictyon nodosum unknown See also EditRelict biology Breeding back Lazarus taxonReferences Edit a b Casane Didier Laurenti Patrick 2013 04 01 Why coelacanths are not living fossils BioEssays 35 4 332 338 doi 10 1002 bies 201200145 ISSN 1521 1878 PMID 23382020 S2CID 2751255 Mathers Thomas C Hammond Robert L Jenner Ronald A Hanfling Bernd Gomez Africa 2013 Multiple global radiations in tadpole shrimps challenge the concept of living fossils PeerJ 1 e62 doi 10 7717 peerj 62 PMC 3628881 PMID 23638400 Grandcolas Philippe Nattier Romain Trewick Steve 2014 01 12 Relict species a relict concept Trends in Ecology amp Evolution 29 12 655 663 doi 10 1016 j tree 2014 10 002 ISSN 0169 5347 PMID 25454211 Lynch M 1990 The rate of evolution in mammals from the standpoint of the neutral expectation The American Naturalist 136 6 727 741 doi 10 1086 285128 S2CID 11055926 Eldredge Niles Stanley Steven 1984 Living Fossils New York Springer Verlag Butler M King A 2004 Phylogenetic comparative analysis A modeling approach for adaptive evolution The American Naturalist 164 6 683 695 doi 10 1086 426002 PMID 29641928 S2CID 4795316 Hansen T Martins E 1996 Translating between microevolutionary process and macroevolutionary patterns The correlation structure of interspecific data Evolution 50 4 1404 1417 doi 10 2307 2410878 JSTOR 2410878 PMID 28565714 Harmon L Losos J Davies T Gillespie R Gittleman J Jennings W et al 2010 Early bursts of body size and shape evolution are rare in comparative data Evolution 64 8 2385 2396 doi 10 1111 j 1558 5646 2010 01025 x PMID 20455932 S2CID 17544335 Nagalingum NS Marshall CR Quental TB Rai HS Little DP Mathews S 11 November 2011 Recent synchronous radiation of a living fossil Science published 20 October 2011 334 6057 796 799 Bibcode 2011Sci 334 796N doi 10 1126 science 1209926 PMID 22021670 S2CID 206535984 Cavin Lionel Guinot Guillaume 13 August 2014 Coelacanths as almost living fossils Museum d Histoire Naturelle Report Perspective Article Geneve Switzerland Departement de Geologie et Paleontologie doi 10 3389 fevo 2014 00049 Dawson MR Marivaux L Li CK Beard KC Metais G 10 March 2006 Laonastes and the Lazarus effect in recent mammals Science 311 5766 1456 1458 Bibcode 2006Sci 311 1456D doi 10 1126 science 1124187 PMID 16527978 S2CID 25506765 Let s make living fossils extinct a b Yadav P R 1 January 2009 Understanding Palaeontology Discovery Publishing House pp 4 ff ISBN 978 81 8356 477 9 a b Montresor M Janofske D Willems H 1997 The cyst theca relationship in Calciodinellum operosum emend Peridiniales Dinophyceae and a new approach for the study of calcareous cysts Journal of Phycology 33 1 122 131 doi 10 1111 j 0022 3646 1997 00122 x S2CID 84169394 a b Gu H Kirsch M Zinssmeister C Sohner S Meier K J S Liu T Gottschling M 2013 Waking the dead Morphological and molecular characterization of extant 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rspb 2005 3326 PMC 1560065 PMID 16537124 Gittenberger E 1991 What about non adaptive radiation Biological Journal of the Linnean Society 43 4 263 272 doi 10 1111 j 1095 8312 1991 tb00598 x Estes Suzanne Arnold Stevan 2007 Resolving the paradox of stasis Models with stabilizing selection explain evolutionary divergence on all timescales The American Naturalist 169 2 227 244 doi 10 1086 510633 PMID 17211806 S2CID 18734233 The Falsity of Living Fossils The Scientist Magazine The Scientist Retrieved 2015 12 03 Diversification in Ancient Tadpole Shrimps Challenges the Term Living Fossil Science Daily accessed 2 April 2013 The Falsity of Living Fossils The Scientist accessed 2 April 2013 Kin Adrian Blazejowski Blazej 2014 10 02 The Horseshoe Crab of the Genus Limulus Living Fossil or Stabilomorph PLOS ONE 9 10 e108036 Bibcode 2014PLoSO 9j8036K doi 10 1371 journal pone 0108036 ISSN 1932 6203 PMC 4183490 PMID 25275563 Friedman M Coates MI Anderson P Coates Anderson 2007 First discovery of a primitive coelacanth fin fills a major gap in the evolution of lobed fins and limbs Evolution amp Development 9 4 329 37 doi 10 1111 j 1525 142X 2007 00169 x PMID 17651357 S2CID 23069133 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Friedman M Coates MI Coates 2006 A newly recognized fossil coelacanth highlights the early morphological diversification of the clade Proc R Soc B 273 1583 245 250 doi 10 1098 rspb 2005 3316 PMC 1560029 PMID 16555794 Casane D Laurenti P Laurenti Feb 2013 Why Coelacanths are not Living fossils a Review of Molecular and Morphological Data BioEssays 35 4 332 8 doi 10 1002 bies 201200145 PMID 23382020 S2CID 2751255 Naville M Chalopin D Casane D Laurenti P Volff J N Chalopin Casane Laurenti Volffn July August 2015 The coelacanth Can a living fossil have active transposable elements in its genome Mobile Genetic Elements 5 4 55 9 doi 10 1080 2159256X 2015 1052184 PMC 4588170 PMID 26442185 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link On the Origin of Species 1859 p 107 The University of Chicago Medical Center Scientists find lamprey a living fossil Uchospitals edu 2006 10 26 Retrieved 2012 05 16 a b Herrera Flores Jorge A Stubbs Thomas L Benton Michael J 2017 Macroevolutionary patterns in Rhynchocephalia is the tuatara Sphenodon punctatus a living fossil Palaeontology 60 3 319 328 doi 10 1111 pala 12284 Vaux Felix Morgan Richards Mary Daly Elizabeth E Trewick Steven A 2019 Tuatara and a new morphometric dataset for Rhynchocephalia Comments on Herrera Flores et al Palaeontology 62 2 321 334 doi 10 1111 pala 12402 S2CID 134902015 Herrera Flores Jorge A Stubbs Thomas L Benton Michael J 2019 Reply to comments on Macroevolutionary patterns in Rhynchocephalia is the tuatara Sphenodon punctatus a living fossil PDF Palaeontology 62 2 335 338 doi 10 1111 pala 12404 hdl 1983 846d212a 6eb6 494e 855f e0684bede158 S2CID 133726749 Bomfleur B McLoughlin S Vajda V March 2014 Fossilized nuclei and chromosomes reveal 180 million years of genomic stasis in royal ferns Science 343 6177 1376 7 Bibcode 2014Sci 343 1376B doi 10 1126 science 1249884 PMID 24653037 S2CID 38248823 Kazlev M Alan 2002 Palaeos website Archived from the original on 2006 01 05 Retrieved July 22 2008 cyanobacteria ircamera as arizona edu Archived from the original on 2019 05 03 Retrieved 2019 04 27 Hagino K Young J R Bown P R Godrijan J Kulhanek D Kogane K Horiguchi T 2015 Re discovery of a living fossil coccolithophore from the coastal waters of Japan and Croatia Marine Micropaleontology 116 1 28 37 Bibcode 2015MarMP 116 28H doi 10 1016 j marmicro 2015 01 002 Chambers T C Drinnan A N McLoughlin S 1998 Some morphological features of Wollemi Pine Wollemia nobilis Araucariaceae and their comparison to Cretaceous plant fossils International Journal of Plant Sciences 159 160 171 doi 10 1086 297534 S2CID 84425685 McLoughlin S Vajda V Vajda 2005 Ancient wollemi pines resurgent American Scientist 93 6 540 547 doi 10 1511 2005 56 981 Robinson T Yang F Harrison W 2002 Chromosome painting refines the history of genome evolution in hares and rabbits order Lagomorpha Cytogenetic and Genome Research 96 1 4 223 227 doi 10 1159 000063034 PMID 12438803 S2CID 19327437 Why is the okapi called a living fossil The Milwaukee Journal 24 June 1954 Red panda National Zoo Washington DC Smithsonian Institution 22 April 2016 Retrieved 4 May 2017 Red pandas are considered by many to be living fossils They have no close living relatives and their nearest fossil ancestors Parailurus lived 3 4 million years ago Fordyce R E Marx F G 2013 The pygmy right whale Caperea marginata The last of the cetotheres Proceedings of the Royal Society B Biological Sciences 280 1753 1 6 doi 10 1098 rspb 2012 2645 PMC 3574355 PMID 23256199 Extinct whale found Odd looking pygmy whale traced back 2 million years Christian Science Monitor 23 April 2012 Retrieved 19 December 2012 Switek Brian 21 March 2011 The pelican s beak Success and evolutionary stasis Wired repost Wired Science Vol 152 pp 15 20 doi 10 1007 s10336 010 0537 5 Retrieved 10 June 2013 Morelle Rebecca 4 June 2013 Rediscovered hula painted frog is a living fossil BBC News Retrieved 4 June 2013 External links Edit Look up living fossil in Wiktionary the free dictionary MyTriops introduces Triops as living fossils Retrieved from https en wikipedia org w index php title Living fossil amp oldid 1133707218, wikipedia, wiki, book, books, library,

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