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von Baer's laws (embryology)

November 11, 2023

This article is about a theory in embryology. For a theory in geology, also sometimes called "Baer's law", see Baer-Babinet law.

In developmental biology, von Baer's laws of embryology (or laws of development) are four rules proposed by Karl Ernst von Baer to explain the observed pattern of embryonic development in different species.[1]

Embryology theories of Ernst Haeckel (following Meckel) and Karl Ernst von Baer compared. Von Baer denied any recapitulation of whole adult forms, though individual structures might be recapitulated.

von Baer formulated the laws in his book On the Developmental History of Animals (German: Über Entwickelungsgeschichte der Thiere), published in 1828, while working at the University of Königsberg. He specifically intended to rebut Johann Friedrich Meckel's 1808 recapitulation theory. According to that theory, embryos pass through successive stages that represent the adult forms of less complex organisms in the course of development, and that ultimately reflects scala naturae (the great chain of being).[2] von Baer believed that such linear development is impossible. He posited that instead of linear progression, embryos started from one or a few basic forms that are similar in different animals, and then developed in a branching pattern into increasingly different organisms. Defending his ideas, he was also opposed to Charles Darwin's 1859 theory of common ancestry and descent with modification, and particularly to Ernst Haeckel's revised recapitulation theory with its slogan "ontogeny recapitulates phylogeny".[3][4] Darwin was however broadly supportive of von Baer's view of the relationship between embryology and evolution.

The laws edit

Von Baer described his laws in his book Über Entwickelungsgeschichte der Thiere. Beobachtung und Reflexion published in 1828.[5] They are a series of statements generally summarised into four points, as translated by Thomas Henry Huxley in his Scientific Memoirs:[6]

  1. The more general characters of a large group appear earlier in the embryo than the more special characters.
  2. From the most general forms the less general are developed, and so on, until finally the most special arises.
  3. Every embryo of a given animal form, instead of passing through the other forms, rather becomes separated from them.
  4. The embryo of a higher form never resembles any other form, but only its embryo.

Description edit

Von Baer discovered the blastula (the early hollow ball stage of an embryo) and the development of the notochord (the stiffening rod along the back of all chordates, that forms after the blastula and gastrula stages). From his observations of these stages in different vertebrates, he realised that Johann Friedrich Meckel's recapitulation theory must be wrong. For example, he noticed that the yolk sac is found in birds, but not in frogs. According to the recapitulation theory, such structures should invariably be present in frogs because they were assumed to be at a lower level in the evolutionary tree. Von Baer concluded that while structures like the notochord are recapitulated during embryogenesis, whole organisms are not.[7] He asserted that (as translated):

The embryo successively adds the organs that characterize the animal classes in the ascending scale. When the human embryo, for instance, is but a simple vesicle, it is an infusorian; when it has gained a liver, it is a mussel; with the appearance of the osseous system, it enters the class of fishes; and so forth, until it becomes a mammal and then a human being.[8]

In terms of taxonomic hierarchy, according to von Baer, characters in the embryo are formed in top-to-bottom sequence, first from those of the largest and oldest taxon, the phylum, then in turn class, order, family, genus, and finally species.[7]

Reception edit

The laws received a mixed appreciation. While they were criticised in detail, they formed the foundation of modern embryology.[1]

Charles Darwin edit

The most important supporter of von Baer's laws was Charles Darwin. Darwin came across von Baer's laws from the work of Johannes Peter Müller in 1842, and realised that it was a support for his own theory of descent with modification.[9] Darwin was a critique of the recapitulation theory and agreed with von Baer that an adult animal is not reflected by an embryo of another animal, and only embryos of different animals appear similar.[10] He wrote in his Origin of Species (first edition, 1859):

[The] adult [animal] differs from its embryo, owing to variations supervening at a not early age, and being inherited at a corresponding age. This process, whilst it leaves the embryo almost unaltered, continually adds, in the course of successive generations, more and more difference to the adult. Thus the embryo comes to be left as a sort of picture, preserved by nature, of the ancient and less modified condition of each animal. This view may be true, and yet it may never be capable of full proof.[11]

Darwin also said:

It has already been casually remarked that certain organs in the individual, which when mature become widely different and serve for different purposes, are in the embryo exactly alike. The embryos, also, of distinct animals within the same class are often strikingly similar: a better proof of this cannot be given, than a circumstance mentioned by Agassiz, namely, that having forgotten to ticket the embryo of some vertebrate animal, he cannot now tell whether it be that of a mammal, bird, or reptile.[12]

Darwin's attribution to Louis Agassiz was a mistake,[13] and was corrected in the third edition as von Baer.[14] He further explained in the later editions of Origin of Species (from third to sixth editions), and wrote:

It might be thought that the amount of change which the various parts and organs [of vertebrates] undergo in their development from the embryo to maturity would suffice as a standard of comparison; but there are cases, as with certain parasitic crustaceans, in which several parts of the structure become less perfect, so that the mature animal cannot be called higher than its larva. Von Baer's standard seems the most widely applicable and the best, namely, the amount of differentiation of the different parts (in the adult state, as I should be inclined to add) and their specialisation for different functions.[15][16]

Even so, von Baer was a vociferous anti-Darwinist, although he believed in the common ancestry of species.[17] Devoting much of his scholarly effort to criticising natural selection, his criticism culminated with his last work Über Darwins Lehre ("On Darwin's Doctrine"), published in the year of his death in 1876.[18]

Later biologists edit

The British zoologist Adam Sedgwick studied the developing embryos of dogfish and chicken, and in 1894 noted a series of differences, such as the green yolk in the dogfish and yellow yolk in the chicken, absence of embryonic rim in chick embryos, absence of blastopore in dogfish, and differences in the gill slits and gill clefts. He concluded:

There is no stage of development in which the unaided eye would fail to distinguish between them with ease... A blind man could distinguish between them.[19]

Modern biologists still debate the validity of the laws. In one line of argument, it is said that although every detail of von Baer's law may not work, the basic assumption that early developmental stages of animals are highly conserved is a biological fact.[20] But an opposition says that there are conserved genetic conditions in embryos, but not the genetic events that govern the development.[21] One example on the problem of von Baer's law is the formation of notochord before heart. This is due to the fact that heart is present in many invertebrates, which never have notochord.[22]

See also edit

References edit

  1. ^ a b Abzhanov, Arhat (2013). "von Baer's law for the ages: lost and found principles of developmental evolution". Trends in Genetics. 29 (12): 712–722. doi:10.1016/j.tig.2013.09.004. PMID 24120296. S2CID 9158143.
  2. ^ Opitz, John M.; Schultka, Rüdiger; Göbbel, Luminita (2006). "Meckel on developmental pathology". American Journal of Medical Genetics Part A. 140A (2): 115–128. doi:10.1002/ajmg.a.31043. PMID 16353245. S2CID 30513424.
  3. ^ Garstang, Walter (1922). "The Theory of Recapitulation: A Critical Re-statement of the Biogenetic Law". Journal of the Linnean Society of London, Zoology. 35 (232): 81–101. doi:10.1111/j.1096-3642.1922.tb00464.x.
  4. ^ Løvtrup, Søren (1978). "On von Baerian and Haeckelian Recapitulation". Systematic Zoology. 27 (3): 348–352. doi:10.2307/2412887. JSTOR 2412887.
  5. ^ Baer, Karl Ernst von (1828). Über Entwickelungsgeschichte der Thiere. Beobachtung und Reflexion. Königsberg: Bei den Gebrüdern Bornträger. doi:10.5962/bhl.title.6303.
  6. ^ Huxley, Thomas Henry (1853). Henfrey, Arthur (ed.). Scientific memoirs, selected from the transactions of foreign academies of science, and from foreign journals. Natural history. Taylor and Francis. doi:10.5962/bhl.title.28029.
  7. ^ a b Matthen, Mohan; Stephens, Christopher (2007). Philosophy of Biology. Amsterdam: Elsevier. pp. 444–445. ISBN 978-0-080-47124-2.
  8. ^ Ospovat, D. (1976). "The influence of Karl Ernst von Baer's embryology, 1828–1859: A reappraisal in light of Richard Owen's and William B. Carpenter's "Palaeontological application of 'von Baer's law'"". Journal of the History of Biology. 9 (1): 1–28. doi:10.1007/BF00129171. PMID 11615631. S2CID 40800347.
  9. ^ Gilbert, Scott F. (2000). Developmental Biology. Sinauer Associates. pp. Online. ISBN 978-0878932436.
  10. ^ Barnes, M. Elizabeth (2014). "Karl Ernst von Baer's Laws of Embryology". The Embryo Project Encyclopedia. Retrieved 2020-10-04.
  11. ^ Darwin, Charles (1859). On the Origin of Species. London: John Murray. p. 338.
  12. ^ Darwin, Charles (1859). On the Origin of Species. London: John Murray. pp. 438–439.
  13. ^ Rogers, James Allen (1973). "The Reception of Darwin's Origin of Species by Russian Scientists". Isis. 64 (4): 484–503. doi:10.1086/351177. JSTOR 229645. PMID 4593473. S2CID 36129302.
  14. ^ Darwin, Charles (1861). The Origin of Species (3 ed.). London: John Murray. pp. 470–471.
  15. ^ Darwin, Charles (1861). On the Origin of Species. John Murray. p. 133.
  16. ^ Darwin, Charles (1872). The Origin of Species (6 ed.). London: John Murray. p. 97.
  17. ^ Dagg, Joachim L.; Derry, J. F. (2020). "Charles Darwin did not mislead Joseph Hooker in their 1881 Correspondence about Leopold von Buch and Karl Ernst von Baer". Annals of Science. 77 (3): 349–365. doi:10.1080/00033790.2020.1790659. PMID 32755351. S2CID 221016353.
  18. ^ Vucinich, Alexander (1988). Darwin in Russian Thought. Berkeley: University of California Press. p. 93. ISBN 978-0-52-006283-2.
  19. ^ Sedgwick, Adam (1894). "Memoirs: On the Law of Development commonly known as von Baer's Law; and on the Significance of Ancestral Rudiments in Embryonic Development". Journal of Cell Science. s2-36 (141): 35–52. doi:10.1242/jcs.s2-36.141.35.
  20. ^ Garfield, David A.; Wray, Gregory A. (2009). "Comparative embryology without a microscope: using genomic approaches to understand the evolution of development". Journal of Biology. 8 (7): 65. doi:10.1186/jbiol161. PMC 2736668. PMID 19664180.
  21. ^ Kalinka, Alex T.; Tomancak, Pavel (2012). "The evolution of early animal embryos: conservation or divergence?". Trends in Ecology & Evolution. 27 (7): 385–393. doi:10.1016/j.tree.2012.03.007. ISSN 1872-8383. PMID 22520868.
  22. ^ Løvtrup, Søren (1987). "Phylogenesis, ontogenesis and evolution". Italian Journal of Zoology. 54 (3): 199–208. doi:10.1080/11250008709355584.

November 11, 2023
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This article is about a theory in embryology For a theory in geology also sometimes called Baer s law see Baer Babinet law In developmental biology von Baer s laws of embryology or laws of development are four rules proposed by Karl Ernst von Baer to explain the observed pattern of embryonic development in different species 1 Embryology theories of Ernst Haeckel following Meckel and Karl Ernst von Baer compared Von Baer denied any recapitulation of whole adult forms though individual structures might be recapitulated von Baer formulated the laws in his book On the Developmental History of Animals German Uber Entwickelungsgeschichte der Thiere published in 1828 while working at the University of Konigsberg He specifically intended to rebut Johann Friedrich Meckel s 1808 recapitulation theory According to that theory embryos pass through successive stages that represent the adult forms of less complex organisms in the course of development and that ultimately reflects scala naturae the great chain of being 2 von Baer believed that such linear development is impossible He posited that instead of linear progression embryos started from one or a few basic forms that are similar in different animals and then developed in a branching pattern into increasingly different organisms Defending his ideas he was also opposed to Charles Darwin s 1859 theory of common ancestry and descent with modification and particularly to Ernst Haeckel s revised recapitulation theory with its slogan ontogeny recapitulates phylogeny 3 4 Darwin was however broadly supportive of von Baer s view of the relationship between embryology and evolution Contents 1 The laws 2 Description 3 Reception 3 1 Charles Darwin 3 2 Later biologists 4 See also 5 ReferencesThe laws editVon Baer described his laws in his book Uber Entwickelungsgeschichte der Thiere Beobachtung und Reflexion published in 1828 5 They are a series of statements generally summarised into four points as translated by Thomas Henry Huxley in his Scientific Memoirs 6 The more general characters of a large group appear earlier in the embryo than the more special characters From the most general forms the less general are developed and so on until finally the most special arises Every embryo of a given animal form instead of passing through the other forms rather becomes separated from them The embryo of a higher form never resembles any other form but only its embryo Description editVon Baer discovered the blastula the early hollow ball stage of an embryo and the development of the notochord the stiffening rod along the back of all chordates that forms after the blastula and gastrula stages From his observations of these stages in different vertebrates he realised that Johann Friedrich Meckel s recapitulation theory must be wrong For example he noticed that the yolk sac is found in birds but not in frogs According to the recapitulation theory such structures should invariably be present in frogs because they were assumed to be at a lower level in the evolutionary tree Von Baer concluded that while structures like the notochord are recapitulated during embryogenesis whole organisms are not 7 He asserted that as translated The embryo successively adds the organs that characterize the animal classes in the ascending scale When the human embryo for instance is but a simple vesicle it is an infusorian when it has gained a liver it is a mussel with the appearance of the osseous system it enters the class of fishes and so forth until it becomes a mammal and then a human being 8 In terms of taxonomic hierarchy according to von Baer characters in the embryo are formed in top to bottom sequence first from those of the largest and oldest taxon the phylum then in turn class order family genus and finally species 7 Reception editThe laws received a mixed appreciation While they were criticised in detail they formed the foundation of modern embryology 1 Charles Darwin edit The most important supporter of von Baer s laws was Charles Darwin Darwin came across von Baer s laws from the work of Johannes Peter Muller in 1842 and realised that it was a support for his own theory of descent with modification 9 Darwin was a critique of the recapitulation theory and agreed with von Baer that an adult animal is not reflected by an embryo of another animal and only embryos of different animals appear similar 10 He wrote in his Origin of Species first edition 1859 The adult animal differs from its embryo owing to variations supervening at a not early age and being inherited at a corresponding age This process whilst it leaves the embryo almost unaltered continually adds in the course of successive generations more and more difference to the adult Thus the embryo comes to be left as a sort of picture preserved by nature of the ancient and less modified condition of each animal This view may be true and yet it may never be capable of full proof 11 Darwin also said It has already been casually remarked that certain organs in the individual which when mature become widely different and serve for different purposes are in the embryo exactly alike The embryos also of distinct animals within the same class are often strikingly similar a better proof of this cannot be given than a circumstance mentioned by Agassiz namely that having forgotten to ticket the embryo of some vertebrate animal he cannot now tell whether it be that of a mammal bird or reptile 12 Darwin s attribution to Louis Agassiz was a mistake 13 and was corrected in the third edition as von Baer 14 He further explained in the later editions of Origin of Species from third to sixth editions and wrote It might be thought that the amount of change which the various parts and organs of vertebrates undergo in their development from the embryo to maturity would suffice as a standard of comparison but there are cases as with certain parasitic crustaceans in which several parts of the structure become less perfect so that the mature animal cannot be called higher than its larva Von Baer s standard seems the most widely applicable and the best namely the amount of differentiation of the different parts in the adult state as I should be inclined to add and their specialisation for different functions 15 16 Even so von Baer was a vociferous anti Darwinist although he believed in the common ancestry of species 17 Devoting much of his scholarly effort to criticising natural selection his criticism culminated with his last work Uber Darwins Lehre On Darwin s Doctrine published in the year of his death in 1876 18 Later biologists edit The British zoologist Adam Sedgwick studied the developing embryos of dogfish and chicken and in 1894 noted a series of differences such as the green yolk in the dogfish and yellow yolk in the chicken absence of embryonic rim in chick embryos absence of blastopore in dogfish and differences in the gill slits and gill clefts He concluded There is no stage of development in which the unaided eye would fail to distinguish between them with ease A blind man could distinguish between them 19 Modern biologists still debate the validity of the laws In one line of argument it is said that although every detail of von Baer s law may not work the basic assumption that early developmental stages of animals are highly conserved is a biological fact 20 But an opposition says that there are conserved genetic conditions in embryos but not the genetic events that govern the development 21 One example on the problem of von Baer s law is the formation of notochord before heart This is due to the fact that heart is present in many invertebrates which never have notochord 22 See also editEvolutionary developmental biologyReferences edit a b Abzhanov Arhat 2013 von Baer s law for the ages lost and found principles of developmental evolution Trends in Genetics 29 12 712 722 doi 10 1016 j tig 2013 09 004 PMID 24120296 S2CID 9158143 Opitz John M Schultka Rudiger Gobbel Luminita 2006 Meckel on developmental pathology American Journal of Medical Genetics Part A 140A 2 115 128 doi 10 1002 ajmg a 31043 PMID 16353245 S2CID 30513424 Garstang Walter 1922 The Theory of Recapitulation A Critical Re statement of the Biogenetic Law Journal of the Linnean Society of London Zoology 35 232 81 101 doi 10 1111 j 1096 3642 1922 tb00464 x Lovtrup Soren 1978 On von Baerian and Haeckelian Recapitulation Systematic Zoology 27 3 348 352 doi 10 2307 2412887 JSTOR 2412887 Baer Karl Ernst von 1828 Uber Entwickelungsgeschichte der Thiere Beobachtung und Reflexion Konigsberg Bei den Gebrudern Borntrager doi 10 5962 bhl title 6303 Huxley Thomas Henry 1853 Henfrey Arthur ed Scientific memoirs selected from the transactions of foreign academies of science and from foreign journals Natural history Taylor and Francis doi 10 5962 bhl title 28029 a b Matthen Mohan Stephens Christopher 2007 Philosophy of Biology Amsterdam Elsevier pp 444 445 ISBN 978 0 080 47124 2 Ospovat D 1976 The influence of Karl Ernst von Baer s embryology 1828 1859 A reappraisal in light of Richard Owen s and William B Carpenter s Palaeontological application of von Baer s law Journal of the History of Biology 9 1 1 28 doi 10 1007 BF00129171 PMID 11615631 S2CID 40800347 Gilbert Scott F 2000 Developmental Biology Sinauer Associates pp Online ISBN 978 0878932436 Barnes M Elizabeth 2014 Karl Ernst von Baer s Laws of Embryology The Embryo Project Encyclopedia Retrieved 2020 10 04 Darwin Charles 1859 On the Origin of Species London John Murray p 338 Darwin Charles 1859 On the Origin of Species London John Murray pp 438 439 Rogers James Allen 1973 The Reception of Darwin s Origin of Species by Russian Scientists Isis 64 4 484 503 doi 10 1086 351177 JSTOR 229645 PMID 4593473 S2CID 36129302 Darwin Charles 1861 The Origin of Species 3 ed London John Murray pp 470 471 Darwin Charles 1861 On the Origin of Species John Murray p 133 Darwin Charles 1872 The Origin of Species 6 ed London John Murray p 97 Dagg Joachim L Derry J F 2020 Charles Darwin did not mislead Joseph Hooker in their 1881 Correspondence about Leopold von Buch and Karl Ernst von Baer Annals of Science 77 3 349 365 doi 10 1080 00033790 2020 1790659 PMID 32755351 S2CID 221016353 Vucinich Alexander 1988 Darwin in Russian Thought Berkeley University of California Press p 93 ISBN 978 0 52 006283 2 Sedgwick Adam 1894 Memoirs On the Law of Development commonly known as von Baer s Law and on the Significance of Ancestral Rudiments in Embryonic Development Journal of Cell Science s2 36 141 35 52 doi 10 1242 jcs s2 36 141 35 Garfield David A Wray Gregory A 2009 Comparative embryology without a microscope using genomic approaches to understand the evolution of development Journal of Biology 8 7 65 doi 10 1186 jbiol161 PMC 2736668 PMID 19664180 Kalinka Alex T Tomancak Pavel 2012 The evolution of early animal embryos conservation or divergence Trends in Ecology amp Evolution 27 7 385 393 doi 10 1016 j tree 2012 03 007 ISSN 1872 8383 PMID 22520868 Lovtrup Soren 1987 Phylogenesis ontogenesis and evolution Italian Journal of Zoology 54 3 199 208 doi 10 1080 11250008709355584 Retrieved from https en wikipedia org w index php title Von Baer 27s laws embryology amp oldid 1170206711, wikipedia, wiki, book, books, library,

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