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Cambrian explosion
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{{pp-move-vandalism |small=yes}}{{CEXNAV}}The Cambrian explosion or Cambrian radiationBOOK, Zhuravlev, Andrey, Riding, Robert, The Ecology of the Cambrian Radiation, 2000, Columbia University Press, 978-0-231-10613-9,weblink The Cambrian radiation was the explosive evolution of marine life that started 550,000,000 years ago. It ranks as one of the most important episodes in Earth history. This key event in the history of life on our planet changed the marine biosphere and its sedimentary environment forever, requiring a complex interplay of wide-ranging biologic and nonbiologic processes., was an event approximately {{Ma |541}} in the Cambrian period when most major animal phyla appeared in the fossil record.JOURNAL, Maloof, A. C., Porter, S. M., Moore, J. L., Dudas, F. O., Bowring, S. A., Higgins, J. A., Fike, D. A., Eddy, M. P., The earliest Cambrian record of animals and ocean geochemical change, Geological Society of America Bulletin, 2010, 122, 11–12, 1731–1774, 10.1130/B30346.1,weblink 2010GSAB..122.1731M, WEB, New Timeline for Appearances of Skeletal Animals in Fossil Record Developed by UCSB Researchers,weblink The Regents of the University of California, 1 September 2014, 10 November 2010, It lasted for about 20JOURNAL, Valentine, JW, Jablonski, D, Erwin, DH, Fossils, molecules and embryos: new perspectives on the Cambrian explosion, Development, 1999, 126, 5, 851–9, 9927587,weblink JOURNAL, Budd, Graham, At the origin of animals: the revolutionary cambrian fossil record, Current Genomics, 2013, 14, 6, 344–354, 10.2174/13892029113149990011, 24396267, 3861885, –25JOURNAL, Erwin, D. H., Laflamme, M., Tweedt, S. M., Sperling, E. A., Pisani, D., Peterson, K. J., 2011, The Cambrian conundrum: early divergence and later ecological success in the early history of animals, Science, 334, 6059, 1091–1097, 10.1126/science.1206375, 22116879, 2011Sci...334.1091E, JOURNAL, Kouchinsky, A., Bengtson, S., Runnegar, B. N., Skovsted, C. B., Steiner, M., Vendrasco, M. J., 2012, Chronology of early Cambrian biomineralization, Geological Magazine, 149, 2, 221–251, 10.1017/s0016756811000720, 2012GeoM..149..221K, million years. It resulted in the divergence of most modern metazoan phyla.JOURNAL, Conway Morris, S., Simon Conway Morris, The Cambrian "explosion" of metazoans and molecular biology: would Darwin be satisfied?, The International Journal of Developmental Biology, 2003, 47, 7–8, 505–15, 14756326,weblink The event was accompanied by major diversification of other organisms.{{refn |group=note |This included at least animals, phytoplankton and calcimicrobes.}}Before the Cambrian explosion,At 610 million years ago, Aspidella disks appeared, but it is not clear that these represented complex life forms. most organisms were simple, composed of individual cells occasionally organized into colonies. Over the following 70 to 80 million years, the rate of diversification accelerated, and the variety of life began to resemble that of today.JOURNAL, Bambach, R.K., Bush, A.M., Erwin, D.H., 2007, Autecology and the filling of Ecospace: Key metazoan radiations!, Palæontology, 50, 1, 1–22, 10.1111/j.1475-4983.2006.00611.x, Almost all present animal phyla appeared during this period.JOURNAL, Budd, G.E., The Cambrian Fossil Record and the Origin of the Phyla, Integrative and Comparative Biology, 43, 1, 157–165, 10.1093/icb/43.1.157,weblink 2003, 21680420, {{Cambrian explosion graphical timeline}}

History and significance

{{Life timeline}}The seemingly rapid appearance of fossils in the "Primordial Strata" was noted by William Buckland in the 1840s,BOOK, Buckland, W., William Buckland, 1841, Geology and Mineralogy Considered with Reference to Natural Theology, Lea & Blanchard, 978-1-147-86894-4, and in his 1859 book On the Origin of Species, Charles Darwin discussed the then inexplicable lack of earlier fossils as one of the main difficulties for his theory of descent with slow modification through natural selection.BOOK, On the Origin of Species by Natural Selection, Darwin, C, Charles Darwin, 1859, 202, 306–308, Murray, London, 978-1-60206-144-6, 176630493, The long-running puzzlement about the appearance of the Cambrian fauna, seemingly abruptly, without precursor, centers on three key points: whether there really was a mass diversification of complex organisms over a relatively short period of time during the early Cambrian; what might have caused such rapid change; and what it would imply about the origin of animal life. Interpretation is difficult due to a limited supply of evidence, based mainly on an incomplete fossil record and chemical signatures remaining in Cambrian rocks.The first discovered Cambrian fossils were trilobites, described by Edward Lhuyd, the curator of Oxford Museum, in 1698.BOOK, Liñán, E., Gonzalo, R, Rábano, I., Gozalo, R., García-Bellido, D., Advances in Trilobite Research, 2008, Instituto Geológico y Minero de España, Madrid, 978-84-7840-759-0, 240, Cryptopalaeontology: Magical descriptions of trilobites about two thousand years before scientific references, Although their evolutionary importance was not known, on the basis of their old age, William Buckland (1784–1856) realised that a dramatic step-change in the fossil record had occurred around the base of what we now call the Cambrian. Nineteenth-century geologists such as Adam Sedgwick and Roderick Murchison used the fossils for dating rock strata, specifically for establishing the Cambrian and Silurian periods.JOURNAL, Bell, Mark, Fossil Focus: Trilobites, Palaeontology Online, 2013, 3, 5, 1–9,weblink By 1859, leading geologists including Roderick Murchison, were convinced that what was then called the lowest Silurian stratum showed the origin of life on Earth, though others, including Charles Lyell, differed. In On the Origin of Species, Charles Darwin considered this sudden appearance of a solitary group of trilobites, with no apparent antecedents, and absence of other fossils, to be "undoubtedly of the gravest nature" among the difficulties in his theory of natural selection. He reasoned that earlier seas had swarmed with living creatures, but that their fossils had not been found due to the imperfections of the fossil record. In the sixth edition of his book, he stressed his problem further as:BOOK, Darwin, Charles R., The origin of Species by Means of Natural Selection, 1876, 286, 6, American paleontologist Charles Walcott, who studied the Burgess Shale fauna, proposed that an interval of time, the "Lipalian", was not represented in the fossil record or did not preserve fossils, and that the ancestors of the Cambrian animals evolved during this time.JOURNAL, Charles Doolittle Walcott, Cambrian Geology and Paleontology, Smithsonian Miscellaneous Collections, 57, 14, Walcott, C.D., 1914, Earlier fossil evidence has since been found. The earliest claim is that the history of life on earth goes back {{Ma|3850|million years}}:JOURNAL, Heinrich D. Holland, Evidence for life on earth more than 3850 million years ago, Science, Holland, Heinrich D, January 3, 1997, 10.1126/science.275.5296.38, 275, 11536783, 5296, 38–9, Rocks of that age at Warrawoona, Australia, were claimed to contain fossil stromatolites, stubby pillars formed by colonies of microorganisms. Fossils (Grypania) of more complex eukaryotic cells, from which all animals, plants, and fungi are built, have been found in rocks from {{Ma|1400}}, in China and Montana. Rocks dating from {{Ma|580|543}} contain fossils of the Ediacara biota, organisms so large that they are likely multicelled, but very unlike any modern organism. In 1948, Preston Cloud argued that a period of "eruptive" evolution occurred in the Early Cambrian,JOURNAL, Cloud, P.E., 1948, Some problems and patterns of evolution exemplified by fossil invertebrates, Evolution, 2, 4, 322–350, 10.2307/2405523, 18122310, 2405523, but as recently as the 1970s, no sign was seen of how the 'relatively' modern-looking organisms of the Middle and Late Cambrian arose.File:Opabinia BW2.jpg|thumb|right|OpabiniaOpabiniaThe intense modern interest in this "Cambrian explosion" was sparked by the work of Harry B. Whittington and colleagues, who, in the 1970s, reanalysed many fossils from the Burgess Shale and concluded that several were as complex as, but different from, any living animals.Whittington, H. B. (1979). Early arthropods, their appendages and relationships. In M. R. House (Ed.), The origin of major invertebrate groups (pp. 253–268). The Systematics Association Special Volume, 12. London: Academic Press.BOOK, The Burgess Shale, Whittington, H.B., Harry B. Whittington, Geological Survey of Canada, 1985, Yale University Press, 978-0-660-11901-4, 15630217, The most common organism, Marrella, was clearly an arthropod, but not a member of any known arthropod class. Organisms such as the five-eyed Opabinia and spiny slug-like Wiwaxia were so different from anything else known that Whittington's team assumed they must represent different phyla, seemingly unrelated to anything known today. Stephen Jay Gould's popular 1989 account of this work, Wonderful Life,BOOK, Wonderful Life: The Burgess Shale and the Nature of History
authorlink=Stephen Jay Gould publisher=W. W. Norton & Company oclc=185746546, brought the matter into the public eye and raised questions about what the explosion represented. While differing significantly in details, both Whittington and Gould proposed that all modern animal phyla had appeared almost simultaneously in a rather short span of geological period. This view led to the modernization of Darwin's tree of life and the theory of punctuated equilibrium, which Eldredge and Gould developed in the early 1970s and which views evolution as long intervals of near-stasis "punctuated" by short periods of rapid change.ENCYCLOPEDIA, Early skeletal fossilseditor1=Lipps, J.H. title=Neoproterozoic-Cambrian Biological Revolutions, 2004, The Paleontological Society Papers, 10, 67–78,weblink Other analyses, some more recent and some dating back to the 1970s, argue that complex animals similar to modern types evolved well before the start of the Cambrian.

Dating the Cambrian

Radiometric dates for much of the Cambrian, obtained by analysis of radioactive elements contained within rocks, have only recently become available, and for only a few regions.Relative dating (A was before B) is often assumed sufficient for studying processes of evolution, but this, too, has been difficult, because of the problems involved in matching up rocks of the same age across different continents.e.g. JOURNAL, Gehling, James, Jensen, Sören, Droser, Mary
first4 = Paul first5 = Guy journal = Geological Magazine issue = 2date=March 2001weblink> doi = 10.1017/S001675680100509X, 2001GeoM..138..213G, Therefore, dates or descriptions of sequences of events should be regarded with some caution until better data becomes available.

Body fossils

Fossils of organisms' bodies are usually the most informative type of evidence. Fossilization is a rare event, and most fossils are destroyed by erosion or metamorphism before they can be observed. Hence, the fossil record is very incomplete, increasingly so as earlier times are considered. Despite this, they are often adequate to illustrate the broader patterns of life's history.JOURNAL, Benton MJ, Wills MA, Hitchin R, Quality of the fossil record through time, Nature, 403, 6769, 534–7, 2000, 10676959, 10.1038/35000558, 2000Natur.403..534B,
Non-technical summary
Also, biases exist in the fossil record: different environments are more favourable to the preservation of different types of organism or parts of organisms.JOURNAL, Butterfield, N.J., 2003, Exceptional Fossil Preservation and the Cambrian Explosion, Integrative and Comparative Biology, 43, 1, 166–177, 10.1093/icb/43.1.166,weblink 2008-06-28, 21680421, Further, only the parts of organisms that were already mineralised are usually preserved, such as the shells of molluscs. Since most animal species are soft-bodied, they decay before they can become fossilised. As a result, although 30-plus phyla of living animals are known, two-thirds have never been found as fossils.BOOK, Cowen, R., History of Life, Blackwell Science, 978-1-4051-1756-2, 2002,
File:Marrella (fossil).png|thumb| This Marrella specimen illustrates how clear and detailed the fossils from the Burgess Shale LagerstätteLagerstätteThe Cambrian fossil record includes an unusually high number of lagerstätten, which preserve soft tissues. These allow paleontologists to examine the internal anatomy of animals, which in other sediments are only represented by shells, spines, claws, etc. â€“ if they are preserved at all. The most significant Cambrian lagerstätten are the early Cambrian Maotianshan shale beds of Chengjiang (Yunnan, China) and Sirius Passet (Greenland);MORRIS, S.C. > YEAR = 1979
JOURNAL = ANNUAL REVIEW OF ECOLOGY AND SYSTEMATICS ISSUE = 1, 327–349, 10.1146/annurev.es.10.110179.001551, the middle Cambrian Burgess Shale (British Columbia, Canada);JOURNAL, Yochelson, E.L., 1996, Discovery, Collection, and Description of the Middle Cambrian Burgess Shale Biota by Charles Doolittle Walcott, Proceedings of the American Philosophical Society issue = 4, 469–545, 987289, 2017-01-11, and the late Cambrian Orsten (Sweden) fossil beds.While lagerstätten preserve far more than the conventional fossil record, they are far from complete. Because lagerstätten are restricted to a narrow range of environments (where soft-bodied organisms can be preserved very quickly, e.g. by mudslides), most animals are probably not represented; further, the exceptional conditions that create lagerstätten probably do not represent normal living conditions. In addition, the known Cambrian lagerstätten are rare and difficult to date, while Precambrian lagerstätten have yet to be studied in detail.The sparseness of the fossil record means that organisms usually exist long before they are found in the fossil record â€“ this is known as the Signor–Lipps effect.BOOK, Signor, P.W., Lipps, J.H., Sampling bias, gradual extinction patterns and catastrophes in the fossil record, Silver, L.T., Schulz, P.H., Geological implications of impacts of large asteroids and comets on the earth, A 84–25651 10–42, 291–296, Geological Society of America, 1982,weblink 978-0813721903,

Trace fossils

File:CambrianRusophycus.jpg|thumb|Rusophycus and other trace fossils from the Gog Group, Middle Cambrian, Lake Louise, Alberta, Canada]]Trace fossils consist mainly of tracks and burrows, but also include coprolites (fossil feces) and marks left by feeding.HTTP://WWW.UCMP.BERKELEY.EDU/FAQ.PHP#PALEO > ACCESS-DATE= 2008-09-18
PUBLISHER=UNIVERSITY OF CALIFORNIA MUSEUM OF PALEONTOLOGY, Trace fossils are particularly significant because they represent a data source that is not limited to animals with easily fossilized hard parts, and reflects organisms' behaviour. Also, many traces date from significantly earlier than the body fossils of animals that are thought to have been capable of making them.e.g. SEILACHER, A. > YEAR = 1994, How valid is Cruziana Stratigraphy? volume = 83 pages = 752–758weblink > access-date= 2007-09-09 doi=10.1007/BF00251073, 1994GeoRu..83..752S, While exact assignment of trace fossils to their makers is generally impossible, traces may, for example, provide the earliest physical evidence of the appearance of moderately complex animals (comparable to earthworms).FEDONKIN, M.A. >AUTHOR2=GEHLING, J.G. AUTHOR4=NARBONNE, G.M. TITLE=THE RISE OF ANIMALS: EVOLUTION AND DIVERSIFICATION OF THE KINGDOM ANIMALIA YEAR=2007 PAGES=213–216,weblink 2008-11-14,

Geochemical observations

Several chemical markers indicate a drastic change in the environment around the start of the Cambrian. The markers are consistent with a mass extinction,JOURNAL, Amthor, J.E.
author3=Schroder, S.author5=Ramezani, J.author7=Matter, A., 2003, Extinction of Cloudina and Namacalathus at the Precambrian-Cambrian boundary in Oman, Geology, 31, 5, 431–434, 10.1130/0091-7613(2003)0312.0.CO;2, 0091-7613, 2003Geo....31..431A, or with a massive warming resulting from the release of methane ice.Such changes may reflect a cause of the Cambrian explosion, although they may also have resulted from an increased level of biological activity â€“ a possible result of the explosion. Despite these uncertainties, the geochemical evidence helps by making scientists focus on theories that are consistent with at least one of the likely environmental changes.

Phylogenetic techniques

Cladistics is a technique for working out the "family tree" of a set of organisms. It works by the logic that, if groups B and C have more similarities to each other than either has to group A, then B and C are more closely related to each other than either is to A. Characteristics that are compared may be anatomical, such as the presence of a notochord, or molecular, by comparing sequences of DNA or protein. The result of a successful analysis is a hierarchy of clades â€“ groups whose members are believed to share a common ancestor. The cladistic technique is sometimes problematic, as some features, such as wings or camera eyes, evolved more than once, convergently â€“ this must be taken into account in analyses.From the relationships, it may be possible to constrain the date that lineages first appeared. For instance, if fossils of B or C date to X million years ago and the calculated "family tree" says A was an ancestor of B and C, then A must have evolved more than X million years ago.It is also possible to estimate how long ago two living clades diverged â€“ i.e. about how long ago their last common ancestor must have lived  â€“ by assuming that DNA mutations accumulate at a constant rate. These "molecular clocks", however, are fallible, and provide only a very approximate timing: they are not sufficiently precise and reliable for estimating when the groups that feature in the Cambrian explosion first evolved,HUG, L.A. >AUTHOR2=ROGER, A.J., The Impact of Fossils and Taxon Sampling on Ancient Molecular Dating Analyses
date=August 2007 issue=8, 889–1897, 10.1093/molbev/msm115, 17556757, 0737-4038,weblink Free full text, and estimates produced by different techniques vary by a factor of two.10.1073/PNAS.0503660102 > PMID = 15983372 AUTHOR2=BUTTERFIELD, N.J. VOLUME = 102, 27 year = 2005, Origin of the Eumetazoa: Testing ecological predictions of molecular clocks against the Proterozoic fossil record bibcode=2005PNAS..102.9547P, However, the clocks can give an indication of branching rate, and when combined with the constraints of the fossil record, recent clocks suggest a sustained period of diversification through the Ediacaran and Cambrian.JOURNAL, Peterson, Kevin J., April 2008, 10.1098/rstb.2007.2233, The Ediacaran emergence of bilaterians: congruence between the genetic and the geological fossil records, Philosophical Transactions of the Royal Society B: Biological Sciences, 363, 1435–1443, 18192191, 1496, 0962-8436,weblink Free full text, Cotton, JA, Gehling, JG, Pisani, D, 2614224,

Explanation of key scientific terms

File:Crown n Stem Groups 01.svg|thumb|upright=1.2|{{=}} Lines of descent}}}}
black{{=}} Basal node}}white{{=}} Crown node}}#8080ff{{=}} Total group}}#faada7{{=}} Crown group}}#fdefa4{{=}} Stem group}}}}{{div col end}}

Phylum

A phylum is the highest level in the Linnaean system for classifying organisms. Phyla can be thought of as groupings of animals based on general body plan.BOOK, Valentine
year = 2004 publisher = University Of Chicago Press isbn = 978-0-226-84548-7, 7, "Classifications of organisms in hierarchical systems were in use by the 17th and 18th centuries. Usually, organisms were grouped according to their morphological similarities as perceived by those early workers, and those groups were then grouped according to their similarities, and so on, to form a hierarchy." Despite the seemingly different external appearances of organisms, they are classified into phyla based on their internal and developmental organizations.BOOK, Parker, Andrew, 2003, In the blink of an eye: How vision kick-started the big bang of evolution, Free Press, Sydney, 978-0-7432-5733-6, 1–4, "Evolutionary biologists often make sense of the conflicting diversity of form â€“ not always does a relationship between internal and external parts. Early in the history of the subject, it became obvious that internal organisations were generally more important to the higher classification of animals than are external shapes. The internal organisation puts general restrictions on how an animal can exchange gases, obtain nutrients, and reproduce." For example, despite their obvious differences, spiders and barnacles both belong to the phylum Arthropoda, but earthworms and tapeworms, although similar in shape, belong to different phyla. As chemical and genetic testing becomes more accurate, previously hypothesised phyla are often entirely reworked.A phylum is not a fundamental division of nature, such as the difference between electrons and protons. It is simply a very high-level grouping in a classification system created to describe all currently living organisms. This system is imperfect, even for modern animals: different books quote different numbers of phyla, mainly because they disagree about the classification of a huge number of worm-like species. As it is based on living organisms, it accommodates extinct organisms poorly, if at all.BOOK, Jefferies, R.P.S., 1979, The origin of chordates â€“ a methodological essay, House, M.R., The origin of major invertebrate groups, 443–477, Academic Press, London, summarised in JOURNAL, Budd, G.E., The Cambrian Fossil Record and the Origin of the Phyla, Integrative and Comparative Biology, 43, 1, 157–165, 10.1093/icb/43.1.157,weblink 2003, 21680420,

Stem group

The concept of stem groups was introduced to cover evolutionary "aunts" and "cousins" of living groups, and have been hypothesized based on this scientific theory. A crown group is a group of closely related living animals plus their last common ancestor plus all its descendants. A stem group is a set of offshoots from the lineage at a point earlier than the last common ancestor of the crown group; it is a relative concept, for example tardigrades are living animals that form a crown group in their own right, but Budd (1996) regarded them as also being a stem group relative to the arthropods.JOURNAL, Craske, A.J., Jefferies, R.P.S., 1989, A new mitrate from the Upper Ordovician of Norway, and a new approach to subdividing a plesion, Palaeontology, 32, 69–99,weblink 2010-12-25,weblink" title="web.archive.org/web/20110824010939weblink">weblink 2011-08-24, yes, BUDD, G.E. > YEAR=1996, The morphology of Opabinia regalis and the reconstruction of the arthropod stem-group
volume=29 pages=1–14, 10.1111/j.1502-3931.1996.tb01831.x, {{clear}}{{coelomate basic}}

Triploblastic

The term Triploblastic means consisting of three layers, which are formed in the embryo, quite early in the animal's development from a single-celled egg to a larva or juvenile form. The innermost layer forms the digestive tract (gut); the outermost forms skin; and the middle one forms muscles and all the internal organs except the digestive system. Most types of living animal are triploblastic â€“ the best-known exceptions are Porifera (sponges) and Cnidaria (jellyfish, sea anemones, etc.).

Bilaterian

The bilaterians are animals that have right and left sides at some point in their life histories. This implies that they have top and bottom surfaces and, importantly, distinct front and back ends. All known bilaterian animals are triploblastic, and all known triploblastic animals are bilaterian. Living echinoderms (sea stars, sea urchins, sea cucumbers, etc.) 'look' radially symmetrical (like wheels) rather than bilaterian, but their larvae exhibit bilateral symmetry and some of the earliest echinoderms may have been bilaterally symmetrical.JOURNAL, Paired gill slits in a fossil with a calcite skeleton, Nature, 6891, 841–844, June 2002, 10.1038/nature00805,weblink Dominguez, P., Jacobson, A.G., Jefferies, R.P.S., 417, 12075349, 0028-0836, 2002Natur.417..841D, Porifera and Cnidaria are radially symmetrical, not bilaterian, and not triploblastic.

Coelomate

The term Coelomate means having a body cavity (coelom) containing the internal organs. Most of the phyla featured in the debate about the Cambrian explosion{{Clarify|date=January 2019}} are coelomates: arthropods, annelid worms, molluscs, echinoderms, and chordates â€“ the noncoelomate priapulids are an important exception. All known coelomate animals are triploblastic bilaterians, but some triploblastic bilaterian animals do not have a coelom â€“ for example flatworms, whose organs are surrounded by unspecialized tissues.

Precambrian life

Phylogenetic analysis has been used to support the view that during the Cambrian explosion, metazoans (multi-celled animals) evolved monophyletically from a single common ancestor: flagellated colonial protists similar to modern choanoflagellates.{{citation needed|date=October 2018}}

Evidence of animals around 1 billion years ago

For further information, see Acritarch and Stromatolite
File:CambrianStromatolites.jpg|right|thumb|Stromatolites (Pika Formation, Middle Cambrian) near Helen Lake, Banff National ParkBanff National ParkFile:Stromatolites in Sharkbay.jpg|right|thumb|Modern stromatolites in Hamelin Pool Marine Nature ReserveHamelin Pool Marine Nature ReserveChanges in the abundance and diversity of some types of fossil have been interpreted as evidence for "attacks" by animals or other organisms. Stromatolites, stubby pillars built by colonies of microorganisms, are a major constituent of the fossil record from about {{Ma|2700}}, but their abundance and diversity declined steeply after about {{Ma|1250}}. This decline has been attributed to disruption by grazing and burrowing animals.JOURNAL
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Fossils of the Doushantuo formation

The layers of the Doushantuo formation from around {{Ma|580|million year old}}JOURNAL
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Burrows

File:Ediacaran trace fossil.jpg|thumb|An Ediacaran trace fossil, made when an organism burrowed below a microbial matmicrobial matThe traces of organisms moving on and directly underneath the microbial mats that covered the Ediacaran sea floor are preserved from the Ediacaran period, about {{Ma|565}}.{{Refn|group=note|Older marks found in billion-year-old rocksJOURNAL, Animals More Than 1 Billion Years Ago: Trace Fossil Evidence from India, Science, 282, 80–83, 1998,weblink 10.1126/science.282.5386.80, 2007-08-20
author2=Bose, P.K., Pflüger, F., abstract, 9756480, 5386, 1998Sci...282...80S,
have since been recognised as nonbiogenic.JOURNAL, Jensen, S., The Proterozoic and Earliest Cambrian Trace Fossil Record; Patterns, Problems and Perspectives, Integrative and Comparative Biology, 43, 1, 219–228,weblink 10.1093/icb/43.1.219, 2003, abstract, 21680425
, }} They were probably made by organisms resembling earthworms in shape, size, and how they moved. The burrow-makers have never been found preserved, but, because they would need a head and a tail, the burrowers probably had bilateral symmetry â€“ which would in all probability make them bilaterian animals.BOOK, Fedonkin, M.A., 1992, Vendian faunas and the early evolution of Metazoa, Origin and early evolution of the Metazoa, New York, Springer
editor2=Signor, P. W., 87–129,weblink 978-0-306-44067-0, 2007-03-08, 231467647, They fed above the sediment surface, but were forced to burrow to avoid predators.{{The Rise and Fall of the Ediacaran Biota|Dzik, J|The Verdun Syndrome: simultaneous origin of protective armour and infaunal shelters at the Precambrian–Cambrian transition|405|414|30}}Around the start of the Cambrian (about {{Ma|542}}), many new types of traces first appear, including well-known vertical burrows such as Diplocraterion and Skolithos, and traces normally attributed to arthropods, such as Cruziana and Rusophycus. The vertical burrows indicate that worm-like animals acquired new behaviours, and possibly new physical capabilities. Some Cambrian trace fossils indicate that their makers possessed hard exoskeletons, although they were not necessarily mineralised.Burrows provide firm evidence of complex organisms; they are also much more readily preserved than body fossils, to the extent that the absence of trace fossils has been used to imply the genuine absence of large, motile, bottom-dwelling organisms.{{Citation needed|reason=try Budd|date=June 2008}} They provide a further line of evidence to show that the Cambrian explosion represents a real diversification, and is not a preservational artefact.This new habit changed the seafloor's geochemistry, and led to decreased oxygen in the ocean and increased CO2-levels in the seas and the atmosphere, resulting in global warming for tens of millions years, and could be responsible for mass extinctions.Early Global Warming Was Unexpectedly Caused by a Burst of Tiny Life Forms - Inverse But as burrowing became established, it allowed an explosion of its own, for as burrowers disturbed the sea floor, they aerated it, mixing oxygen into the toxic muds. This made the bottom sediments more hospitable, and allowed a wider range of organisms to inhabit them â€“ creating new niches and the scope for higher diversity.JOURNAL, Seilacher, Adolf, Luis A. Buatoisb, M. Gabriela Mángano, 2005-10-07, Trace fossils in the Ediacaran–Cambrian transition: Behavioral diversification, ecological turnover and environmental shift, Palaeogeography, Palaeoclimatology, Palaeoecology, 227, 4, 323–356, 10.1016/j.palaeo.2005.06.003,

Ediacaran organisms

File:DickinsoniaCostata.jpg|thumb|right|Dickinsonia costata, an Ediacaran organism of unknown affinity, with a quilted appearance]]At the start of the Ediacaran period, much of the acritarch fauna, which had remained relatively unchanged for hundreds of millions of years, became extinct, to be replaced with a range of new, larger species, which would prove far more ephemeral. This radiation, the first in the fossil record, is followed soon after by an array of unfamiliar, large, fossils dubbed the Ediacara biota,JOURNAL, The Avalon Explosion: Evolution of Ediacara Morphospace
volume=319pages=81–84, 10.1126/science.1150279,weblinkauthor2=Dong, L. author4=Kowalewski, M. type=abstract, 18174439 DOI = 10.1666/0094-8373(2004)0302.0.CO;2 PAGES = 203–221 JOURNAL = PALEOBIOLOGY ISSUE = 2, Most of this "Ediacara biota" were at least a few centimeters long, significantly larger than any earlier fossils. The organisms form three distinct assemblages, increasing in size and complexity as time progressed.JOURNAL, Erwin, D.H., The origin of bodyplansdate=June 1999 issue=3 doi=10.1093/icb/39.3.617 format=free full text, Many of these organisms were quite unlike anything that appeared before or since, resembling discs, mud-filled bags, or quilted mattresses â€“ one palæontologist proposed that the strangest organisms should be classified as a separate kingdom, Vendozoa.JOURNAL, Seilacher, A., 1992, Vendobionta and Psammocorallia: lost constructions of Precambrian evolution, Journal of the Geological Society, London, 149, 4, 607–613,weblink 10.1144/gsjgs.149.4.0607, 2007-06-21, abstract, 1992JGSoc.149..607S, File:Kimberella blue.jpg|thumb|right|Fossil of KimberellaKimberellaAt least some may have been early forms of the phyla at the heart of the "Cambrian explosion" debate,{{Clarify|date=January 2019}} having been interpreted as early molluscs (Kimberella),FEDONKIN > FIRST1 = M. A. FIRST2 = B. M., The late Precambrian fossil Kimberella is a mollusc-like bilaterian organism, Nature, 388, 868–871, November 1997,weblink 10.1038/42242, 1997Natur.388..868F, abstract, 6645, 0372-9311, JOURNAL, Martin, M.W.author3=Bowring, S.A. author5=Fedonkin, M.A., Kirschvink, J.L., 2000-05-05, Age of Neoproterozoic Bilaterian Body and Trace Fossils, White Sea, Russia: Implications for Metazoan Evolution, Science, 288, 5467, 841–845, 10.1126/science.288.5467.841,weblink 2007-05-10, abstract, 10797002Arkarua);MOOI, R. TITLE=EVOLUTION WITHIN A BIZARRE PHYLUM: HOMOLOGIES OF THE FIRST ECHINODERMS VOLUME=38 YEAR=1999,weblink doi=10.1093/icb/38.6.965, and arthropods (Spriggina,MCMENAMIN, M.A.S > TITLE =SPRIGGINA IS A TRILOBITOID ECDYSOZOAN VOLUME =35 PAGE =105 URL=HTTP://GSA.CONFEX.COM/GSA/2003AM/FINALPROGRAM/ABSTRACT_62056.HTM, abstract, Parvancorina).JOURNAL, J. P., Gon, S. M., Gehling, J. G., Babcock, L. E., Zhao, Y. L., Zhang, X. L., Hu, S. X., Yuan, J. L., Yu, M. Y., Peng, J., A Parvancorina-like arthropod from the Cambrian of South China, Historical Biology, 18, 1, Lin, 33–45, 2006, 10.1080/08912960500508689, Still, debate exists about the classification of these specimens, mainly because the diagnostic features that allow taxonomists to classify more recent organisms, such as similarities to living organisms, are generally absent in the ediacarans.JOURNAL, Butterfield, N.J., December 2006, Hooking some stem-group "worms": fossil lophotrochozoans in the Burgess Shale, BioEssays, 28, 12, 1161–6, 10.1002/bies.20507, 17120226, 0265-9247, However, there seems little doubt that Kimberella was at least a triploblastic bilaterian animal. These organisms are central to the debate about how abrupt the Cambrian explosion was.{{cn|date=January 2019}} If some were early members of the animal phyla seen today, the "explosion" looks a lot less sudden than if all these organisms represent an unrelated "experiment", and were replaced by the animal kingdom fairly soon thereafter (40M years is "soon" by evolutionary and geological standards).

Beck Spring Dolomite

Paul Knauth, a geologist at Arizona State University, maintains that photosynthesizing organisms such as algae may have grown over a 750- to 800-million-year-old formation in Death Valley known as the Beck Spring Dolomite. In the early 1990s, samples from this 1,000-foot thick layer of dolomite revealed that the region housed flourishing mats of photosynthesizing, unicellular life forms which antedated the Cambrian explosion.Microfossils have been unearthed from holes riddling the otherwise barren surface of the dolomite. These geochemical and microfossil findings support the idea that during the Precambrian period, complex life evolved both in the oceans and on land. Knauth contends that animals may well have had their origins in freshwater lakes and streams, and not in the oceans.Some 30 years later, a number of studies have documented an abundance of geochemical and microfossil evidence showing that life covered the continents as far back as 2.2 billion years ago. Many paleobiologists now accept the idea that simple life forms existed on land during the Precambrian, but are opposed to the more radical idea that multicellular life thrived on land more than 600 million years ago."Scientific American" April 2014

Ediacaran–Early Cambrian skeletonisation

The first Ediacaran and lowest Cambrian (Nemakit-Daldynian) skeletal fossils represent tubes and problematic sponge spicules.JOURNAL, Li, C., Chen, J. Y., Hua, T. E., 10.1126/science.279.5352.879, Precambrian Sponges with Cellular Structures, Science, 279, 5352, 879–882, 1998, 9452391, 1998Sci...279..879L, The oldest sponge spicules are monaxon siliceous, aged around {{ma|580}}, known from the Doushantou Formation in China and from deposits of the same age in Mongolia, although the interpretation of these fossils as spicules has been challenged.JOURNAL, Yin, L., Xiao, S., Yuan, X., 10.1007/BF02900561, New observations on spiculelike structures from Doushantuo phosphorites at Weng'an, Guizhou Province, Chinese Science Bulletin, 46, 21, 1828–1832, 2001, 2001ChSBu..46.1828Y, In the late Ediacaran-lowest Cambrian, numerous tube dwellings of enigmatic organisms appeared. It was organic-walled tubes (e.g. Saarina) and chitinous tubes of the sabelliditids (e.g. Sokoloviina, Sabellidites, Paleolina)JOURNAL, Gnilovskaya, M. B., New saarinids from the Vendian of the Russian Platform, Dokl. Ross. Akad. Nauk, 1996, 348, 89–93, JOURNAL, Fedonkin, M. A., Paleontological Research, 7, 1, 9–41, The origin of the Metazoa in the light of the Proterozoic fossil record, 2003,weblink 2009-11-16, 10.2517/prpsj.7.9, yes,weblink" title="web.archive.org/web/20090226122725weblink">weblink 2009-02-26, that prospered up to the beginning of the Tommotian. The mineralized tubes of Cloudina, Namacalathus, Sinotubulites, and a dozen more of the other organisms from carbonate rocks formed near the end of the Ediacaran period from {{ma|549|542}}, as well as the triradially symmetrical mineralized tubes of anabaritids (e.g. Anabarites, Cambrotubulus) from uppermost Ediacaran and lower Cambrian.JOURNAL, Andrey Yu. Zhuravlev, September 2009, First finds of problematic Ediacaran fossil Gaojiashania in Siberia and its origin, Geological Magazine, 146, 5, 775–780,weblink 10.1017/S0016756809990185, etal, 2009GeoM..146..775Z, Ediacaran mineralized tubes are often found in carbonates of the stromatolite reefs and thrombolites,JOURNAL, Hofmann, H.J., Mountjoy, E.W., 2001, Namacalathus-Cloudina assemblage in Neoproterozoic Miette Group (Byng Formation), British Columbia: Canada's oldest shelly fossils, Geology, 29, 12, 1091–1094, 10.1130/0091-7613(2001)0292.0.CO;2,weblink 0091-7613, 2001Geo....29.1091H, JOURNAL, Grotzinger, J.P., Watters, W.A., Knoll, A.H., 2000, Calcified metazoans in thrombolite-stromatolite reefs of the terminal Proterozoic Nama Group, Namibia, Paleobiology, 26, 3, 334–359,weblink 10.1666/0094-8373(2000)0262.0.CO;2, 0094-8373, i.e. they could live in an environment adverse to the majority of animals.Although they are as hard to classify as most other Ediacaran organisms, they are important in two other ways. First, they are the earliest known calcifying organisms (organisms that built shells from calcium carbonate).JOURNAL, Hua, H., Chen, Z., Yuan, X., Zhang, L., Xiao, S., 2005, Skeletogenesis and asexual reproduction in the earliest biomineralizing animal Cloudina, Geology, 33, 4, 277–280, 10.1130/G21198.1,weblink 2007-04-24, 2005Geo....33..277H, WEB, Miller, A.J., 2004, A Revised Morphology of Cloudina with Ecological and Phylogenetic Implications,weblink 2007-04-24, Secondly, these tubes are a device to rise over a substrate and competitors for effective feeding and, to a lesser degree, they serve as armor for protection against predators and adverse conditions of environment. Some Cloudina fossils show small holes in shells. The holes possibly are evidence of boring by predators sufficiently advanced to penetrate shells.JOURNAL, Hua, H., Pratt, B.R., Zhang, L.U.Y.I., 2003, PALAIOS, Borings in Cloudina Shells: Complex Predator-Prey Dynamics in the Terminal Neoproterozoic, 10.1669/0883-1351(2003)0182.0.CO;2, 18, 454–459, 0883-1351, 4–5, 2003Palai..18..454H, A possible "evolutionary arms race" between predators and prey is one of the hypotheses that attempt to explain the Cambrian explosion.In the lowest Cambrian, the stromatolites were decimated. This allowed animals to begin colonization of warm-water pools with carbonate sedimentation. At first, it was anabaritids and Protohertzina (the fossilized grasping spines of chaetognaths) fossils. Such mineral skeletons as shells, sclerites, thorns, and plates appeared in uppermost Nemakit-Daldynian; they were the earliest species of halkierids, gastropods, hyoliths and other rare organisms. The beginning of the Tommotian has historically been understood to mark an explosive increase of the number and variety of fossils of molluscs, hyoliths, and sponges, along with a rich complex of skeletal elements of unknown animals, the first archaeocyathids, brachiopods, tommotiids, and others.JOURNAL, 10.1016/j.palaeo.2007.03.046, Steiner, M., Li, G., Qian, Y., Zhu, M., Erdtmann, B. D., Neoproterozoic to Early Cambrian small shelly fossil assemblages and a revised biostratigraphic correlation of the Yangtze Platform (China), Palaeogeography, Palaeoclimatology, Palaeoecology, 254, 1–2, 67–99, 2007, JOURNAL, 2008, To the problem of stage subdivision of the Lower Cambrian, Stratigraphy and Geological Correlation, 16, 1, 1–19, 10.1007/s11506-008-1001-3,weblink 2008SGC....16....1R, vanc, etal, Rozanov, A. Yu, Khomentovsky, V. V.
first3 = Yu. Ya.first4 = G. A.first5 = A. I.first6 = V. A.first7 = T. V.first8 = Yu. E.first9 = P. Yu.first10 = I. V.first11 = N. A., V. V. KHOMENTOVSKY >AUTHOR2=G. A. KARLOVA TITLE = THE TOMMOTIAN STAGE BASE AS THE CAMBRIAN LOWER BOUNDARY IN SIBERIA VOLUME = 13 PAGES = 21–34 YEAR = 2002 JOURNAL = STRATIGRAPHY AND GEOLOGICAL CORRELATION ISSUE = 3 URL = HTTP://ELIBRARY.RU/ITEM.ASP?ID=11900587, Also Soft-bodied organism extant phyla such as Ctenophora>comb jellies, scalidophorans, entoproctans, Phoronid and lobopodians had armored forms.A vanished history of skeletonization in Cambrian comb jellies - Science Advances This sudden increase is partially an artefact of missing strata at the Tommotian type section, and most of this fauna in fact began to diversify in a series of pulses through the Nemakit-Daldynian and into the Tommotian.MALOOF LAST2 = PORTER LAST3 = MOORE LAST4 = DUDAS LAST5 = BOWRING LAST6 = HIGGINS LAST7 = FIKE LAST8 = EDDY TITLE = THE EARLIEST CAMBRIAN RECORD OF ANIMALS AND OCEAN GEOCHEMICAL CHANGE VOLUME = 122 PAGES = 1731–1774 DOI = 10.1130/B30346.1, 2010GSAB..122.1731M, Some animals may already have had sclerites, thorns, and plates in the Ediacaran (e.g. Kimberella had hard sclerites, probably of carbonate), but thin carbonate skeletons cannot be fossilized in siliciclastic deposits.JOURNAL, Ivantsov, A. Y., A New Reconstruction of Kimberella, a Problematic Vendian Metazoan, Paleontological Journal, 43, 6, 601–611,weblink 10.1134/S003103010906001X, 2009, Older (~750 Ma) fossils indicate that mineralization long preceded the Cambrian, probably defending small photosynthetic algae from single-celled eukaryotic predators.JOURNAL, 10.1130/focus062011.1, Porter, S., The rise of predators, Geology, 39, 6, 607–608, 2011, 2011Geo....39..607P, JOURNAL, Cohen, P. A., Schopf, J. W., Butterfield, N. J., Kudryavtsev, A. B., MacDonald, F. A., Phosphate biomineralization in mid-Neoproterozoic protists, 10.1130/G31833.1, Geology, 2011, 2011Geo....39..539C, 39, 6, 539–542,

Cambrian life

Trace fossils

Trace fossils (burrows, etc.) are a reliable indicator of what life was around, and indicate a diversification of life around the start of the Cambrian, with the freshwater realm colonized by animals almost as quickly as the oceans.JOURNAL, Kennedy, M. J., Droser, M. L., Early Cambrian metazoans in fluvial environments, evidence of the non-marine Cambrian radiation, 10.1130/G32002.1, Geology, 39, 6, 583–586, 2011, 2011Geo....39..583K,

Small shelly fauna

Fossils known as "small shelly fauna" have been found in many parts on the world, and date from just before the Cambrian to about 10 million years after the start of the Cambrian (the Nemakit-Daldynian and Tommotian ages; see timeline). These are a very mixed collection of fossils: spines, sclerites (armor plates), tubes, archeocyathids (sponge-like animals), and small shells very like those of brachiopods and snail-like molluscs â€“ but all tiny, mostly 1 to 2 mm long.JOURNAL, Matthews, S.C., Missarzhevsky, V.V., 1975-06-01, Small shelly fossils of late Precambrian and early Cambrian age: a review of recent work, Journal of the Geological Society, 131, 3, 289–303, 10.1144/gsjgs.131.3.0289, 1975JGSoc.131..289M, While small, these fossils are far more common than complete fossils of the organisms that produced them; crucially, they cover the window from the start of the Cambrian to the first lagerstätten: a period of time otherwise lacking in fossils. Hence, they supplement the conventional fossil record and allow the fossil ranges of many groups to be extended.

Early Cambrian trilobites and echinoderms

File:Olenoides serratus oblique with antennas.jpg|thumb|A fossilized trilobite, an ancient type of (arthropod]]: This specimen, from the Burgess Shale, preserves "soft parts" â€“ the antennae and legs. )The earliest trilobite fossils are about 530 million years old, but the class was already quite diverse and worldwide, suggesting they had been around for quite some time.JOURNAL, Lieberman, BS, Testing the Darwinian Legacy of the Cambrian Radiation Using Trilobite Phylogeny and Biogeography, Journal of Paleontology, 73, 2
url=http://jpaleontol.geoscienceworld.org/cgi/content/abstract/73/2/176, abstract, 176, The fossil record of trilobites began with the appearance of trilobites with mineral exoskeletons – not from the time of their origin.The earliest generally accepted echinoderm fossils appeared a little bit later, in the Late Atdabanian; unlike modern echinoderms, these early Cambrian echinoderms were not all radially symmetrical.DORNBOS, S.Q. >AUTHOR2=BOTTJER, D.J., Evolutionary paleoecology of the earliest echinoderms: Helicoplacoids and the Cambrian substrate revolution, Geology, 28, 9, 839–842, 2000,weblink 10.1130/0091-7613(2000)282.0.CO;2, 0091-7613, 2000Geo....28..839D, These provide firm data points for the "end" of the explosion, or at least indications that the crown groups of modern phyla were represented.

Burgess Shale type faunas

The Burgess Shale and similar lagerstätten preserve the soft parts of organisms, which provide a wealth of data to aid in the classification of enigmatic fossils. It often preserved complete specimens of organisms only otherwise known from dispersed parts, such as loose scales or isolated mouthparts. Further, the majority of organisms and taxa in these horizons are entirely soft-bodied, hence absent from the rest of the fossil record.JOURNAL, Exceptional Fossil Preservation and the Cambrian Explosion, 2003, Integrative and Comparative Biology, 43, 1, 166–177, 10.1093/icb/43.1.166, Butterfield, Nicholas J., 21680421, Since a large part of the ecosystem is preserved, the ecology of the community can also be tentatively reconstructed.{{Verify source|Caron 2006 needs incorporating â€“ see talk page|date=July 2008}}However, the assemblages may represent a "museum": a deep-water ecosystem that is evolutionarily "behind" the rapidly diversifying fauna of shallower waters.JOURNAL, Conway Morris, Simon, 2008, A Redescription of a Rare Chordate, Metaspriggina Walcotti Simonetta and Insom, from the Burgess Shale (Middle Cambrian), British Columbia, Canada, Journal of Paleontology, 82, 424–430, 10.1666/06-130.1, 2, Because the lagerstätten provide a mode and quality of preservation that is virtually absent outside of the Cambrian, many organisms appear completely different from anything known from the conventional fossil record. This led early workers in the field to attempt to shoehorn the organisms into extant phyla; the shortcomings of this approach led later workers to erect a multitude of new phyla to accommodate all the oddballs. It has since been realised that most oddballs diverged from lineages before they established the phyla known today{{Clarify|date=August 2008}} â€“ slightly different designs, which were fated to perish rather than flourish into phyla, as their cousin lineages did.The preservational mode is rare in the preceding Ediacaran period, but those assemblages known show no trace of animal life â€“ perhaps implying a genuine absence of macroscopic metazoans.JOURNAL, A Reassessment of the Neoproterozoic Miaohe Carbonaceous Biota in South China, 2002, Journal of Paleontology, 76, 345–374, 10.1666/0022-3360(2002)0762.0.CO;2, Xiao, Shuhai, Steiner, M, Knoll, A. H, Knoll, Andrew H., 0022-3360, 2,

Early Cambrian crustaceans

{{Details|Orsten}}Crustaceans, one of the four great modern groups of arthropods, are very rare throughout the Cambrian. Convincing crustaceans were once thought to be common in Burgess Shale-type biotas, but none of these individuals can be shown to fall into the crown group of "true crustaceans".JOURNAL,weblink 10.1038/nature06724, Nature, April 2008, Sophisticated particle-feeding in a large Early Cambrian crustacean, 452, 7189, 2008-06-11, 18337723, 0028-0836, Harvey, T.H, Butterfield, N.J, 2008Natur.452..868H, 868–71, The Cambrian record of crown-group crustaceans comes from microfossils. The Swedish Orsten horizons contain later Cambrian crustaceans, but only organisms smaller than 2 mm are preserved. This restricts the data set to juveniles and miniaturised adults.A more informative data source is the organic microfossils of the Mount Cap formation, Mackenzie Mountains, Canada. This late Early Cambrian assemblage ({{Ma|510|515}}) consists of microscopic fragments of arthropods' cuticle, which is left behind when the rock is dissolved with hydrofluoric acid. The diversity of this assemblage is similar to that of modern crustacean faunas. Analysis of fragments of feeding machinery found in the formation shows that it was adapted to feed in a very precise and refined fashion. This contrasts with most other early Cambrian arthropods, which fed messily by shovelling anything they could get their feeding appendages on into their mouths. This sophisticated and specialised feeding machinery belonged to a large (about 30 cm){{PalAss2007|title=The ecology and phylogeny of Cambrian pancrustaceans|author=Harvey, T.P.H.}} organism, and would have provided great potential for diversification; specialised feeding apparatus allows a number of different approaches to feeding and development, and creates a number of different approaches to avoid being eaten.

Early Ordovician radiation

After an extinction at the Cambrian–Ordovician boundary, another radiation occurred, which established the taxa that would dominate the Palaeozoic.During this radiation, the total number of orders doubled, and families tripled,JOURNAL, 2003, The Ordovician Radiation: A Follow-up to the Cambrian Explosion?, Integrative and Comparative Biology, 43, 1, 178–184, 10.1093/icb/43.1.178, Droser, Mary L, Finnegan, Seth, 21680422, increasing marine diversity to levels typical of the Palaeozoic,JOURNAL, Marshall, C. R., Explaining the Cambrian "Explosion" of Animals, Annu. Rev. Earth Planet. Sci., 34, 355–384, 10.1146/annurev.earth.33.031504.103001, 2006, abstract, 2006AREPS..34..355M, and disparity to levels approximately equivalent to today's.

Stages

The event lasted for about the next 20JOURNAL, Budd, Graham, At the origin of animals: the revolutionary cambrian fossil record, Current Genomics, 2013, 14, 6, 344–354, 10.2174/13892029113149990011, 24396267, 3861885, –25JOURNAL, Erwin, D. H., Laflamme, M., Tweedt, S. M., Sperling, E. A., Pisani, D., Peterson, K. J., 2011, The Cambrian conundrum: early divergence and later ecological success in the early history of animals, Science, 334, 6059, 1091–1097, 10.1126/science.1206375, 22116879, 2011Sci...334.1091E, JOURNAL, Kouchinsky, A., Bengtson, S., Runnegar, B. N., Skovsted, C. B., Steiner, M., Vendrasco, M. J., 2012, Chronology of early Cambrian biomineralization, Geological Magazine, 149, 2, 221–251, 10.1017/s0016756811000720, 2012GeoM..149..221K, million years. Different authors break the explosion down into stages in different ways.Ed Landing recognizes three stages: Stage 1, spanning the Ediacaran-Cambrian boundary, corresponds to a diversification of biomineralizing animals and of deep and complex burrows; Stage 2, corresponding to the radiation of molluscs and stem-group Brachiopods (hyoliths and tommotiids), which apparently arose in intertidal waters; and Stage 3, seeing the Atdabanian diversification of trilobites in deeper waters, but little change in the intertidal realm.JOURNAL, Landing, E., Kouchinsky, A. V., 2016, Correlation of the Cambrian Evolutionary Radiation: geochronology, evolutionary stasis of earliest Cambrian (Terreneuvian) small shelly fossil (SSF) taxa, and chronostratigraphic significance, Geol. Mag., 153, 4, 750–756, 10.1017/s0016756815001089, 2016GeoM..153..750L, Graham Budd synthesises various schemes to produce a compatible view of the SSF record of the Cambrian explosion, divided slightly differently into four intervals: a "Tube world", lasting from {{Ma|550|536}}, spanning the Ediacaran-Cambrian boundary, dominated by Cloudina, Namacalathus and pseudoconodont-type elements; a "Sclerite world", seeing the rise of halkieriids, tommotiids, and hyoliths, lasting to the end of the Fortunian (c. 525 Ma); a brachiopod world, perhaps corresponding to the as yet unratified Cambrian Stage 2; and Trilobite World, kicking off in Stage 3.JOURNAL, Budd, G.E., Jackson, I.S.C., 2016, Ecological innovations in the Cambrian and the origins of the crown group phyla, Phil. Trans. R. Soc. B, 371, 1685, 20150287, 10.1098/rstb.2015.0287, 26598735, 4685591, Complementary to the shelly fossil record, trace fossils can be divided into five subdivisions: "Flat world" (late Ediacaran), with traces restricted to the sediment surface; Protreozoic III (after Jensen), with increasing complexity; pedum world, initiated at the base of the Cambrian with the base of the T.pedum zone (see discussion at Cambrian#Dating the Cambrian); Rusophycus world, spanning {{Ma|536|521}} and thus corresponding exactly to the periods of Sclerite World and Brachiopod World under the SSF paradigm; and Cruziana world, with an obvious correspondence to Trilobite World.

Validity

There is strong evidence for species of Cnidaria and Porifera existing in the EdiacaranJOURNAL, Xiao, Shuhai, Yuan, Xunlai, Knoll, Andrew H., 2000-12-05, Eumetazoan fossils in terminal Proterozoic phosphorites?, Proceedings of the National Academy of Sciences of the United States of America, 97, 25, 13684–13689, 10.1073/pnas.250491697, 17636, 11095754, 2000PNAS...9713684X, and possible members of Porifera even before that during the Cryogenian.JOURNAL, Yin, Zongjun, Zhu, Maoyan, Davidson, Eric H., Bottjer, David J., Zhao, Fangchen, Tafforeau, Paul, 2015-03-24, Sponge grade body fossil with cellular resolution dating 60 Myr before the Cambrian, Proceedings of the National Academy of Sciences of the United States of America, 112, 12, E1453–E1460, 10.1073/pnas.1414577112, 0027-8424, 4378401, 25775601, 2015PNAS..112E1453Y, Bryozoans don't appear in the fossil record until after the Cambrian, in the Lower Ordovician.JOURNAL, 10.1666/13-029, Reinterpretation of the Cambrian 'bryozoan' Pywackia as an octocoral, 2013, Taylor, P.D., Berning, B., Wilson, M.A., Journal of Paleontology, 87, 6, 984–990, The fossil record as Darwin knew it seemed to suggest that the major metazoan groups appeared in a few million years of the early to mid-Cambrian, and even in the 1980s, this still appeared to be the case.However, evidence of Precambrian Metazoa is gradually accumulating. If the Ediacaran Kimberella was a mollusc-like protostome (one of the two main groups of coelomates), the protostome and deuterostome lineages must have split significantly before {{Ma |550}} (deuterostomes are the other main group of coelomates). Even if it is not a protostome, it is widely accepted as a bilaterian. Since fossils of rather modern-looking cnidarians (jellyfish-like organisms) have been found in the Doushantuo lagerstätte, the cnidarian and bilaterian lineages must have diverged well over {{Ma |580}}.JOURNAL, The last common bilaterian ancestor, Erwin, D.H., Davidson, E.H., Development, 129, 3021–3032, July 1, 2002,weblink 2008-07-10, 12070079, 13, Trace fossils and predatory borings in Cloudina shells provide further evidence of Ediacaran animals.JOURNAL, 17 July 1992, Predatorial Borings in Late Precambrian Mineralized Exoskeletons, Science, 257, 5068, 10.1126/science.257.5068.367, Bengtson, S., Zhao, Y., 17832833, 367–9, 1992Sci...257..367B, Some fossils from the Doushantuo formation have been interpreted as embryos and one (Vernanimalcula) as a bilaterian coelomate, although these interpretations are not universally accepted.JOURNAL, 2004, Response to Comment on "Small Bilaterian Fossils from 40 to 55 Million Years Before the Cambrian", 10.1126/science.1102328, Chen, J.Y., Oliveri, P., Davidson, E., Bottjer, D.J., Science, 306, 1291, 5700, Earlier still, predatory pressure has acted on stromatolites and acritarchs since around {{ma |1250}}.Some say that the evolutionary change was accelerated by an order of magnitude,{{refn |group=note |As defined in terms of the extinction and origination rate of species.}} but the presence of Precambrian animals somewhat dampens the "bang" of the explosion; not only was the appearance of animals gradual, but their evolutionary radiation ("diversification") may also not have been as rapid as once thought. Indeed, statistical analysis shows that the Cambrian explosion was no faster than any of the other radiations in animals' history.{{Refn |group=note |The analysis considered the bioprovinciality of trilobite lineages, as well as their evolutionary rate.JOURNAL, Lieberman, B., 2003, Taking the Pulse of the Cambrian Radiation, Integrative and Comparative Biology, 43, 1, 229–237, 10.1093/icb/43.1.229,weblink 21680426, }} However, it does seem that some innovations linked to the explosion â€“ such as resistant armour â€“ only evolved once in the animal lineage; this makes a lengthy Precambrian animal lineage harder to defend.JOURNAL, Wray, Wedeen, 10.1046/j.1525-142x.2000.00077.x, 2000, 340–347, Kostriken, Desalle, 11256378, Lindberg, Gates, Staton, 6, 2, R., R., C. J., C. G., Jacobs, J. L., Evolution & Development, Molluscan engrailed expression, serial organization, and shell evolution, D. R., R. D., D. K., Further, the conventional view that all the phyla arose in the Cambrian is flawed; while the phyla may have diversified in this time period, representatives of the crown groups of many phyla do not appear until much later in the Phanerozoic.JOURNAL, Budd, G. E., Jensen, S., 2000, A critical reappraisal of the fossil record of the bilaterian phyla, 75, 2, 253–95, Biological Reviews of the Cambridge Philosophical Society, 10.1111/j.1469-185X.1999.tb00046.x, 10881389, Further, the mineralised phyla that form the basis of the fossil record may not be representative of other phyla, since most mineralised phyla originated in a benthic setting. The fossil record is consistent with a Cambrian explosion that was limited to the benthos, with pelagic phyla evolving much later.Ecological complexity among marine animals increased in the Cambrian, as well later in the Ordovician. However, recent research has overthrown the once-popular idea that disparity was exceptionally high throughout the Cambrian, before subsequently decreasing.JOURNAL, Erwin, D.H., 2007, 10.1111/j.1475-4983.2006.00614.x, Disparity: Morphological Pattern And Developmental Context, Palaeontology, 50, 1, 57–73, In fact, disparity remains relatively low throughout the Cambrian, with modern levels of disparity only attained after the early Ordovician radiation.The diversity of many Cambrian assemblages is similar to today's,JOURNAL, 10.1666/0094-8373(2003)0292.0.CO;2, 2003, 29, 349–368, Morphological diversity of Carboniferous arthropods and insights on disparity patterns through the Phanerozoic, Stockmeyer Lofgren, Andrea, Paleobiology, Plotnick, Roy E., Wagner, Peter J., 0094-8373, 3, and at a high (class/phylum) level, diversity is thought by some to have risen relatively smoothly through the Cambrian, stabilizing somewhat in the Ordovician.JOURNAL, Erwin, D. H., 10.1016/j.ydbio.2011.01.020, Evolutionary uniformitarianism, Developmental Biology, 2011, 21276788, 357, 1, 27–34, This interpretation, however, glosses over the astonishing and fundamental pattern of basal polytomy and phylogenetic telescoping at or near the Cambrian boundary, as seen in most major animal lineages.JOURNAL, 2011, Mounce, R. C. P., Wills, M. A., Phylogenetic position of Diania challenged, Nature, 476, E1, 10.1038/nature10266, E1; discussion E3–4, 2011Natur.476E...1M, 21833044,weblink Thus Harry Blackmore Whittington's questions regarding the abrupt nature of the Cambrian explosion remain, and have yet to be satisfactorily answered.JOURNAL, 2010, McMenamin, M., Harry Blackmore Whittington 1916–2010, Geoscientist, 20, 11, 5,weblink 2011-08-12,weblink" title="archive.is/20120803053420weblink">weblink 2012-08-03, yes,

The Cambrian explosion as survivorship bias

Budd and MannJOURNAL, Budd, G. E., Mann, R. P., History is written by the victors: the effect of the push of the past on the fossil record, Evolution, 2018, 72, 11, 2276–229, 10.1111/evo.13593, 30257040,weblink suggested that the Cambrian explosion was the result of a type of survivorship bias called the "Push of the past". As groups at their origin tend to go extinct, it follows that any long-lived group would have experienced an unusually rapid rate of diversification early on, creating the illusion of a general speed-up in diversification rates. However, rates of diversification could remain at background levels and still generate this sort of effect in the surviving lineages.

Possible causes

Despite the evidence that moderately complex animals (triploblastic bilaterians) existed before and possibly long before the start of the Cambrian, it seems that the pace of evolution was exceptionally fast in the early Cambrian. Possible explanations for this fall into three broad categories: environmental, developmental, and ecological changes. Any explanation must explain both the timing and magnitude of the explosion.

Changes in the environment

Increase in oxygen levels

Earth's earliest atmosphere contained no free oxygen (O2); the oxygen that animals breathe today, both in the air and dissolved in water, is the product of billions of years of photosynthesis. Cyanobacteria were the first organisms to evolve the ability to photosynthesize, introducing a steady supply of oxygen into the environment.JOURNAL, Schirrmeister, B.E., deVos, J.M, Antonelli, A., Bagherri, H.C., Evolution of multicellularity coincided with increased diversification of cyanobacteria and the Great Oxidation Event, PNAS, 2013, 110, 5, 1791–1796, 10.1073/pnas.1209927110, 2013PNAS..110.1791S, 23319632, 3562814, Initially, oxygen levels did not increase substantially in the atmosphere.JOURNAL, Canfield, D.E., Poulton, S.W., Narbonne, G.M., Late-Neoproterozoic Deep-Ocean Oxygenation and the Rise of Animal Life, Science, 2007, 315, 10.1126/science.1135013, 17158290, 5808, 92–5, 2007Sci...315...92C, The oxygen quickly reacted with iron and other minerals in the surrounding rock and ocean water. Once a saturation point was reached for the reactions in rock and water, oxygen was able to exist as a gas in its diatomic form. Oxygen levels in the atmosphere increased substantially afterward.JOURNAL, Bekker, A., Holland, H.D., Wang, P.I., Rumble, III, D., Stein, H.J., Hannah, J.L., Coetzee, L.L., Beukes, H.J., Dating the rise of atmospheric oxygen, Nature, 2003, 427, 6970, 117–120, 10.1038/nature02260, 14712267, 2004Natur.427..117B, As a general trend, the concentration of oxygen in the atmosphere has risen gradually over about the last 2.5 billion years.Oxygen levels seem to have a positive correlation with diversity in eukaryotes well before the Cambrian period.JOURNAL, Parfrey, L.W., Lahr, D.J.G., Knoll, A.H., Katz, L.A., Estimating the timing of early eukaryotic diversification with multigene molecular clocks, PNAS, 2011, 108, 33, 13624–13629, 10.1073/pnas.1110633108, 21810989, 3158185, 2011PNAS..10813624P, The last common ancestor of all extant eukaryotes is thought to have lived around 1.8 billion years ago. Around 800 million years ago, there was a notable increase in the complexity and number of eukaryotes species in the fossil record. Before the spike in diversity, eukaryotes are thought to have lived in highly sulfuric environments. Sulfide interferes with mitochondrial function in aerobic organisms, limiting the amount of oxygen that could be used to drive metabolism. Oceanic sulfide levels decreased around 800 million years ago, which supports the importance of oxygen in eukaryotic diversity.The shortage of oxygen might well have prevented the rise of large, complex animals. The amount of oxygen an animal can absorb is largely determined by the area of its oxygen-absorbing surfaces (lungs and gills in the most complex animals; the skin in less complex ones); but, the amount needed is determined by its volume, which grows faster than the oxygen-absorbing area if an animal's size increases equally in all directions. An increase in the concentration of oxygen in air or water would increase the size to which an organism could grow without its tissues becoming starved of oxygen. However, members of the Ediacara biota reached metres in length tens of millions of years before the Cambrian explosion.e.g. JOURNAL, Knoll, A.H., Carroll, S.B., 1999-06-25, Early Animal Evolution: Emerging Views from Comparative Biology and Geology, Science, 284, 5423, 10.1126/science.284.5423.2129, 10381872, 2129–37, Other metabolic functions may have been inhibited by lack of oxygen, for example the construction of tissue such as collagen, required for the construction of complex structures,JOURNAL, Towe, K.M., 1970-04-01, Oxygen-Collagen Priority and the Early Metazoan Fossil Record, Proceedings of the National Academy of Sciences, 65, 4, 781–788, 10.1073/pnas.65.4.781,weblink abstract, 5266150, 282983, 1970PNAS...65..781T, or to form molecules for the construction of a hard exoskeleton.JOURNAL, 10.1089/ast.2005.5.415, Astrobiology, 5, 3, 415–438, June 2005, Why O2 Is Required by Complex Life on Habitable Planets and the Concept of Planetary "Oxygenation Time", 15941384, 1531-1074, Catling, D.C, Glein, C.R, Zahnle, K.J, McKay, C.P, 2005AsBio...5..415C, However, animals are not affected when similar oceanographic conditions occur in the Phanerozoic; there is no convincing correlation between oxygen levels and evolution, so oxygen may have been no more a prerequisite to complex life than liquid water or primary productivity.BUTTERFIELD > FIRST1 = N. J., Oxygen, animals and oceanic ventilation: An alternative view, 10.1111/j.1472-4669.2009.00188.x, Geobiology, 7, 1, 1–7, 2009, 19200141,

Ozone formation

The amount of ozone (O3) required to shield Earth from biologically lethal UV radiation, wavelengths from 200 to 300 nanometers (nm), is believed to have been in existence around the Cambrian explosion.WEB, Keese, Bob, Ozone,weblink www.albany.edu, University at Albany, 22 November 2014, The presence of the ozone layer may have enabled the development of complex life and life on land, as opposed to life being restricted to the water.

Snowball Earth

In the late Neoproterozoic (extending into the early Ediacaran period), the Earth suffered massive glaciations in which most of its surface was covered by ice. This may have caused a mass extinction, creating a genetic bottleneck; the resulting diversification may have given rise to the Ediacara biota, which appears soon after the last "Snowball Earth" episode.JOURNAL, A Neoproterozoic Snowball Earth, Science, 28 August 1998, 281, 5381, 1342–1346, 10.1126/science.281.5381.1342,weblink
author2=Kaufman, A.J. author4=Schrag, D.P. type=abstract, 9721097, 1998Sci...281.1342H, However, the snowball episodes occurred a long time before the start of the Cambrian, and it is hard to see how so much diversity could have been caused by even a series of bottlenecks; the cold periods may even have delayed the evolution of large size organisms.

Increase in the calcium concentration of the Cambrian seawater

Newer research suggests that volcanically active midocean ridges caused a massive and sudden surge of the calcium concentration in the oceans, making it possible for marine organisms to build skeletons and hard body parts.Novel Evolutionary Theory For The Explosion Of LifeAlternatively a high influx of ions could have been provided by the widespread erosion that produced Powell's Great Unconformity.JOURNAL, Peters, S. E., Gaines, R. R., 10.1038/nature10969, Formation of the 'Great Unconformity' as a trigger for the Cambrian explosion, Nature, 484, 7394, 363–366, 2012, 22517163, 2012Natur.484..363P, An increase of calcium may also have been caused by erosion of the Transgondwanan Supermountain that existed at the time the explosion. The roots of the mountain are preserved in present-day East Africa as an orogen.JOURNAL
, Squire, R. J.
, Campbell, I. H.
, Allen, C. M.
, Wilson, C. J.
, Did the Transgondwanan Supermountain trigger the explosive radiation of animals on Earth?
, 2006, Earth and Planetary Science Letters, 250, 1, 116–133
,weblink 11 September 2017
, 10.1016/j.epsl.2006.07.032, 2006E&PSL.250..116S,

Developmental explanations

{{further|Evolutionary developmental biology}}A range of theories are based on the concept that minor modifications to animals' development as they grow from embryo to adult may have been able to cause very large changes in the final adult form. The Hox genes, for example, control which organs individual regions of an embryo will develop into. For instance, if a certain Hox gene is expressed, a region will develop into a limb; if a different Hox gene is expressed in that region (a minor change), it could develop into an eye instead (a phenotypically major change).Such a system allows a large range of disparity to appear from a limited set of genes, but such theories linking this with the explosion struggle to explain why the origin of such a development system should by itself lead to increased diversity or disparity. Evidence of Precambrian metazoans combines with molecular dataJOURNAL, de Rosa, R., Grenier, J.K., Andreeva, T., Cook, C.E., Adoutte, A., Akam, M., Carroll, S.B., Balavoine, G., June 1999, 10.1038/21631, Nature, 399, Hox genes in brachiopods and priapulids and protostome evolution, 10391241, 6738, 0028-0836, 772–6, 1999Natur.399..772D, to show that much of the genetic architecture that could feasibly have played a role in the explosion was already well established by the Cambrian.This apparent paradox is addressed in a theory that focuses on the physics of development. It is proposed that the emergence of simple multicellular forms provided a changed context and spatial scale in which novel physical processes and effects were mobilized by the products of genes that had previously evolved to serve unicellular functions. Morphological complexity (layers, segments, lumens, appendages) arose, in this view, by self-organization.JOURNAL, Newman, S.A., Bhat, R., April 2008, 10.1088/1478-3975/5/1/015008, Physical Biology, 5, 0150580, Dynamical patterning modules: physico-genetic determinants of morphological development and evolution, 18403826, 1, 1478-3967, 2008PhBio...5a5008N, Horizontal gene transfer has also been identified as a possible factor in the rapid acquisition of the biochemical capability of biomineralization among organisms during this period, based on evidence that the gene for a critical protein in the process was originally transferred from a bacterium into sponges.JOURNAL, Jackson, Daniel J., Macis, Luciana, Reitner, Joachim, Wörheide, Gert, A horizontal gene transfer supported the evolution of an early metazoan biomineralization strategy, BMC Evolutionary Biology, 12 August 2011, 11, 238, 10.1186/1471-2148-11-238,weblink 10 September 2014, 21838889, 3163562,

Ecological explanations

These focus on the interactions between different types of organism. Some of these hypotheses deal with changes in the food chain; some suggest arms races between predators and prey, and others focus on the more general mechanisms of coevolution. Such theories are well suited to explaining why there was a rapid increase in both disparity and diversity, but they must explain why the "explosion" happened when it did.

End-Ediacaran mass extinction

Evidence for such an extinction includes the disappearance from the fossil record of the Ediacara biota and shelly fossils such as Cloudina, and the accompanying perturbation in the {{d13c|link}} record.Mass extinctions are often followed by adaptive radiations as existing clades expand to occupy the ecospace emptied by the extinction. However, once the dust had settled, overall disparity and diversity returned to the pre-extinction level in each of the Phanerozoic extinctions.

Evolution of eyes

Andrew Parker has proposed that predator-prey relationships changed dramatically after eyesight evolved. Prior to that time, hunting and evading were both close-range affairs â€“ smell, vibration, and touch were the only senses used. When predators could see their prey from a distance, new defensive strategies were needed. Armor, spines, and similar defenses may also have evolved in response to vision. He further observed that, where animals lose vision in unlighted environments such as caves, diversity of animal forms tends to decrease.BOOK, Parker, Andrew, In the Blink of an Eye, Perseus Books, Cambridge, Massachusetts, 2003, 978-0-7382-0607-3, 52074044, Nevertheless, many scientists doubt that vision could have caused the explosion. Eyes may well have evolved long before the start of the Cambrian.JOURNAL, McCall, 2006, 10.1016/j.earscirev.2005.08.004, The Vendian (Ediacaran) in the geological record: Enigmas in geology's prelude to the Cambrian explosion, Earth-Science Reviews, 77, 1, 1–229, 2006ESRv...77....1M, It is also difficult to understand why the evolution of eyesight would have caused an explosion, since other senses, such as smell and pressure detection, can detect things at a greater distance in the sea than sight can; but the appearance of these other senses apparently did not cause an evolutionary explosion.

Arms races between predators and prey

The ability to avoid or recover from predation often makes the difference between life and death, and is therefore one of the strongest components of natural selection. The pressure to adapt is stronger on the prey than on the predator: if the predator fails to win a contest, it loses a meal; if the prey is the loser, it loses its life.JOURNAL, Arms races between and within species, 205, 1161, 489–511, September 21, 1979, 77442, Dawkins, R., Krebs, R.J., 10.1098/rspb.1979.0081
Proceedings of the Royal Society B> pmid=42057, 1979RSPSB.205..489D, But, there is evidence that predation was rife long before the start of the Cambrian, for example in the increasingly spiny forms of acritarchs, the holes drilled in Cloudina shells, and traces of burrowing to avoid predators. Hence, it is unlikely that the appearance of predation was the trigger for the Cambrian "explosion", although it may well have exhibited a strong influence on the body forms that the "explosion" produced. However, the intensity of predation does appear to have increased dramatically during the CambrianJOURNAL, 1988, McMenamin, M. A. S., Palaeocological feedback and the Vendian-Cambrian transition, Trends in Ecology and Evolution, 3, 205–208, 10.1016/0169-5347(88)90008-0, 21227202, 8, as new predatory "tactics" (such as shell-crushing) emerged.JOURNAL, Zhang, Z., Holmer, L. E., Robson, S. P., Hu, S., Wang, X., Wang, H., First record of repaired durophagous shell damages in Early Cambrian lingulate brachiopods with preserved pedicles, 10.1016/j.palaeo.2011.01.010, Palaeogeography, Palaeoclimatology, Palaeoecology, 302, 3–4, 206–212, 2011, This rise of predation during the Cambrian was confirmed by the temporal pattern of the median predator ratio at the scale of genus, in fossil communities covering the Cambrian and Ordovician periods, but this pattern is not correlated to diversification rate.JOURNAL, López-Villalta, Julián Simón, 2016, Testing the Predation-Diversification Hypothesis for the Cambrian—Ordovician Radiation, Paleontological Research, 20, 4, 312–321, 10.2517/2016PR022, 1342-8144, This lack of correlation between predator ratio and diversification over the Cambrian and Ordovician suggests that predators did not trigger the large evolutionary radiation of animals during this interval. Thus the role of predators as triggerers of diversification may have been limited to the very beginning of the "Cambrian explosion".

Increase in size and diversity of planktonic animals

Geochemical evidence strongly indicates that the total mass of plankton has been similar to modern levels since early in the Proterozoic. Before the start of the Cambrian, their corpses and droppings were too small to fall quickly towards the seabed, since their drag was about the same as their weight. This meant they were destroyed by scavengers or by chemical processes before they reached the sea floor.BOOK, Butterfield, N.J., 2001, Ecology and evolution of Cambrian plankton, The Ecology of the Cambrian Radiation. Columbia University Press, New York, 200–216, 978-0-231-10613-9,weblink 2007-08-19, Mesozooplankton are plankton of a larger size. Early Cambrian specimens filtered microscopic plankton from the seawater. These larger organisms would have produced droppings and corpses that were large enough to fall fairly quickly. This provided a new supply of energy and nutrients to the mid-levels and bottoms of the seas, which opened up a huge range of new possible ways of life. If any of these remains sank uneaten to the sea floor they could be buried; this would have taken some carbon out of circulation, resulting in an increase in the concentration of breathable oxygen in the seas (carbon readily combines with oxygen).The initial herbivorous mesozooplankton were probably larvae of benthic (seafloor) animals. A larval stage was probably an evolutionary innovation driven by the increasing level of predation at the seafloor during the Ediacaran period.BOOK, Butterfield, N.J., 2001, Ecology and evolution of Cambrian plankton, The Ecology of the Cambrian Radiation, Columbia University Press, New York, 200–216,weblink
access-date= 2007-08-19, 978-0-231-10613-9, JOURNAL, Tempo and mode of early animal evolution: inferences from rocks, Hox, and molecular clocks, Paleobiology volume=31, 2 (Supplement), 36–55, 10.1666/0094-8373(2005)031[0036:TAMOEA]2.0.CO;2,weblinkauthor2=McPeek, M.A. last-author-amp=yes, abstract, 0094-8373, Metazoans have an amazing ability to increase diversity through coevolution. This means that an organism's traits can lead to traits evolving in other organisms; a number of responses are possible, and a different species can potentially emerge from each one. As a simple example, the evolution of predation may have caused one organism to develop a defence, while another developed motion to flee. This would cause the predator lineage to split into two species: one that was good at chasing prey, and another that was good at breaking through defences. Actual coevolution is somewhat more subtle, but, in this fashion, great diversity can arise: three quarters of living species are animals, and most of the rest have formed by coevolution with animals.

Ecosystem engineering

Evolving organisms inevitably change the environment they evolve in. The Devonian colonization of land had planet-wide consequences for sediment cycling and ocean nutrients, and was likely linked to the Devonian mass extinction. A similar process may have occurred on smaller scales in the oceans, with, for example, the sponges filtering particles from the water and depositing them in the mud in a more digestible form; or burrowing organisms making previously unavailable resources available for other organisms.JOURNAL, Erwin, D. H., Tweedt, S., 10.1007/s10682-011-9505-7, Ecological drivers of the Ediacaran-Cambrian diversification of Metazoa, Evolutionary Ecology, 26, 2, 417–433, 2011,

Complexity threshold

The explosion may not have been a significant evolutionary event. It may represent a threshold being crossed: for example a threshold in genetic complexity that allowed a vast range of morphological forms to be employed.JOURNAL, Adaptive walks in a gene network model of morphogenesis: insights into the Cambrian explosion, 2003, Int. J. Dev. Biol., 47, 7, 685–693, 14756344
author2=Fernández, P. last-author-amp=yes, 2003q.bio....11013S, q-bio/0311013, This genetic threshold may have a correlation to the amount of oxygen available to organisms. Using oxygen for metabolism produces much more energy than anaerobic processes. Organisms that use more oxygen have the opportunity to produce more complex proteins, providing a template for further evolution. These proteins translate into larger, more complex structures that allow organisms better to adapt to their environments.JOURNAL, Sperling, E.A., Frieder, C.A., Raman, A.V., Girguis, P.R., Levin, L.A., Knoll, A.H., Oxygen, ecology, and the Cambrian radiation of animals, PNAS, 2013, 110, 33, 13446–13451, 10.1073/pnas.1312778110, 23898193, 2013PNAS..11013446S, 3746845, With the help of oxygen, genes that code for these proteins could contribute to the expression of complex traits more efficiently. Access to a wider range of structures and functions would allow organisms to evolve in different directions, increasing the number of niches that could be inhabited. Furthermore, organisms had the opportunity to become more specialized in their own niches.

Uniqueness of the explosion

The "Cambrian explosion" can be viewed as two waves of metazoan expansion into empty niches: first, a coevolutionary rise in diversity as animals explored niches on the Ediacaran sea floor, followed by a second expansion in the early Cambrian as they became established in the water column.JOURNAL, Butterfield, N. J., 2007, Macroevolution and macroecology through deep time, Palaeontology, 50, 1, 41–55, 10.1111/j.1475-4983.2006.00613.x, The rate of diversification seen in the Cambrian phase of the explosion is unparalleled among marine animals: it affected all metazoan clades of which Cambrian fossils have been found. Later radiations, such as those of fish in the Silurian and Devonian periods, involved fewer taxa, mainly with very similar body plans. Although the recovery from the Permian-Triassic extinction started with about as few animal species as the Cambrian explosion, the recovery produced far fewer significantly new types of animals.JOURNAL, Erwin, D.H., Valentine, J.W., Sepkoski, J.J., November 1987, A Comparative Study of Diversification Events: The Early Paleozoic Versus the Mesozoic, Evolution, 41, 6, 1177–1186, 10.2307/2409086, 11542112, 2409086, Whatever triggered the early Cambrian diversification opened up an exceptionally wide range of previously unavailable ecological niches. When these were all occupied, limited space existed for such wide-ranging diversifications to occur again, because strong competition existed in all niches and (wikt:incumbent|incumbent)s usually had the advantage. If a wide range of empty niches had continued, clades would be able to continue diversifying and become disparate enough for us to recognise them as different phyla; when niches are filled, lineages will continue to resemble one another long after they diverge, as limited opportunity exists for them to change their life-styles and forms.JOURNAL, Why No New Phyla after the Cambrian? Genome and Ecospace Hypotheses Revisited, Valentine, J.W., PALAIOS, 2, April 1995, 190–194, 10.2307/3515182, 10, abstract, 3515182, 1995Palai..10..190V, There were two similar explosions in the evolution of land plants: after a cryptic history beginning about {{Ma|450}}, land plants underwent a uniquely rapid adaptive radiation during the Devonian period, about {{Ma|400}}. Furthermore, Angiosperms (flowering plants) originated and rapidly diversified during the Cretaceous period.

See also

Notes

Footnotes

Citations

{{reflist|30em}}

Further reading

  • JOURNAL, 2000, A critical reappraisal of the fossil record of the bilaterian phyla, Biological Reviews, 75, 253–295, Budd, G. E., Jensen, J., 10.1111/j.1469-185X.1999.tb00046.x, 10881389, 2,
  • Collins, Allen G. "Metazoa: Fossil record". Retrieved Dec. 14, 2005.
  • {{crucibleofcreation}}
  • JOURNAL, Conway Morris, S., June 2006, Darwin's dilemma: the realities of the Cambrian 'explosion', Philosophical Transactions of the Royal Society B: Biological Sciences, 361, 1470, 1069–1083, 10.1098/rstb.2006.1846, 16754615, 0962-8436, 1578734, An enjoyable account.
  • BOOK, Wonderful Life: The Burgess Shale and the Nature of History, Gould, S.J., Stephen Jay Gould, 1989, W.W. Norton & Company, Wonderful Life (book),
  • JOURNAL, Kennedy, M., M. Droser, L. Mayer., D. Pevear, D. Mrofka, yes, 2006, 10.1126/science.311.5766.1341c, Science, 311, 5766, 1341, Clay and Atmospheric Oxygen,
  • JOURNAL, Knoll, A.H., Carroll, S.B., 1999-06-25, Early Animal Evolution: Emerging Views from Comparative Biology and Geology, Science, 284, 5423, 10.1126/science.284.5423.2129, 10381872, 2129–37
,
  • JOURNAL, Markov, Alexander V., Korotayev, Andrey V., 2007, Phanerozoic marine biodiversity follows a hyperbolic trend,weblink Palaeoworld, 16, 4, 311–318, 10.1016/j.palwor.2007.01.002,
  • JOURNAL, Montenari, M., Leppig, U., The Acritarcha: their classification morphology, ultrastructure and palaeoecological/palaeogeographical distribution, Paläontologische Zeitschrift, 2003, 77, 173–194, 10.1007/bf03004567, Acritarch,
  • JOURNAL, Wang, D. Y.-C., S. Kumar, S. B. Hedges, January 1999, Divergence time estimates for the early history of animal phyla and the origin of plants, animals and fungi, Proceedings of the Royal Society B, 266, 163–71, 10.1098/rspb.1999.0617, 1415, 10097391, 0962-8452, 1689654,
  • JOURNAL, Xiao, S., Y. Zhang, A. Knoll, yes, January 1998, Three-dimensional preservation of algae and animal embryos in a Neoproterozoic phosphorite, Nature, 391, 553–58, 10.1038/35318, 1998Natur.391..553X, 1, 0090-9556,
Timeline References:
  • JOURNAL, Age of Neoproterozoic Bilaterian Body and Trace Fossils, White Sea, Russia: Implications for Metazoan Evolution, Science, 2000, 288, 841–845, 10.1126/science.288.5467.841, 10797002, Martin, M.W, Grazhdankin, D.V, Bowring, S.A, Evans, D.A.D, Fedonkin, M.A, Kirschvink, J.L, 5467, Mikhail A. Fedonkin, 2000Sci...288..841M,

External links

  • weblink" title="web.archive.org/web/20120213225957weblink">The Cambrian "explosion" of metazoans and molecular biology: would Darwin be satisfied?
  • weblink" title="web.archive.org/web/20080407005007weblink">On embryos and ancestors by Stephen Jay Gould
  • JOURNAL,weblink The Cambrian "explosion": Slow-fuse or megatonnage?, 10.1073/pnas.97.9.4426, 97, 9, Proceedings of the National Academy of Sciences, 4426–4429, 10781036, 34314, April 2000, Conway Morris, S., 2000PNAS...97.4426C,
  • The Cambrian Explosion â€“ In Our Time, BBC Radio 4 broadcast, 17 February 2005
  • WEB,weblink Burgess Shale, Virtual Museum of Canada, 2011, , exhaustive details about the Burgess Shale, its fossils, and its significance for the Cambrian explosion
  • Utah's Cambrian life â€“ new (2008) website with good images of a range of Burgess-shale-type and other Cambrian fossils
  • Smithsonian National Museum


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