Ontogenetic

Ontogeny also ontogenesis is the origination and development of an organism both physical and psychological e g moral development usually from the time of fertilization of the egg to adult The term can also be used to refer to the study of the entirety of an organism s lifespan The initial stages of human embryogenesisParts of a human embryo Ontogeny is the developmental history of an organism within its own lifetime as distinct from phylogeny which refers to the evolutionary history of a species Another way to think of ontogeny is that it is the process of an organism going through all of the developmental stages over its lifetime The developmental history includes all the developmental events that occur during the existence of an organism beginning with the changes in the egg at the time of fertilization and events from the time of birth or hatching and afterward i e growth remolding of body shape development of secondary sexual characteristics etc While developmental i e ontogenetic processes can influence subsequent evolutionary e g phylogenetic processes see evolutionary developmental biology and recapitulation theory individual organisms develop ontogeny while species evolve phylogeny Ontogeny embryology and developmental biology are closely related studies and those terms are sometimes used interchangeably Aspects of ontogeny are morphogenesis the development of form and shape of an organism tissue growth and cellular differentiation The term ontogeny has also been used in cell biology to describe the development of various cell types within an organism Ontogeny is an important field of study in many disciplines including developmental biology cell biology genetics developmental psychology developmental cognitive neuroscience and developmental psychobiology Ontogeny is used in anthropology as the process through which each of us embodies the history of our own making EtymologyThe word ontogeny comes from the Greek on meaning a being individual and existence and from the suffix geny from the Greek geniea meaning genesis origin and mode of production HistoryThe term ontogeny was coined by Ernst Haeckel a German zoologist and evolutionist in the 1860s Haeckel born in Germany on February 16 1834 was also a strong supporter of Darwinism Haeckel suggested that ontogeny briefly and sometimes incompletely recapitulated or repeated phylogeny in his 1866 book Generelle Morphologie der Organismen General Morphology of Organisms Even though his book was widely read the scientific community was not very convinced or interested in his ideas so he turned to producing more publications to get more attention In 1866 Haeckel and others imagined development as producing new structures after earlier additions to the developing organism have been established He proposed that individual development followed developmental stages of previous generations and that the future generations would add something new to this process and that there was a causal parallelism between an animal s ontogeny and phylogeny In addition Haeckel suggested a biogenetic law that ontogeny recapitulates phylogeny based on the idea that the successive and progressive origin of new species was based on the same laws as the successive and progressive origin of new embryonic structures According to Haeckel development produced novelties and natural selection would eliminate species that had become outdated or obsolete Though his view of development and evolution wasn t justifiable future embryologists tweaked and collaborated with Haeckel s proposals and showed how new morphological structures can occur by the hereditary modification of embryonic development Marine biologist Walter Garstang reversed Haeckel s relationship between ontogeny and phylogeny stating that ontogeny creates phylogeny not recapitulates it A seminal 1963 paper by Nikolaas Tinbergen named ontogeny as one of the four primary questions of biology along with Julian Huxley s three others causation survival value and evolution Tinbergen emphasized that the change of behavioral machinery during development was distinct from the change in behavior during development We can conclude that the thrush itself i e its behavioral machinery has changed only if the behavior change occurred while the environment was held constant When we turn from description to causal analysis and ask in what way the observed change in behavior machinery has been brought about the natural first step is to try and distinguish between environmental influences and those within the animal In ontogeny the conclusion that a certain change is internally controlled is innate is reached by elimination Tinbergen was concerned that the elimination of environmental factors is difficult to establish and the use of the word innate is often misleading Developmental stagesDevelopment of an organism happens through fertilization cleavage blastulation gastrulation organogenesis and metamorphosis into an adult Each species of animal has a slightly different journey through these stages since some stages might be shorter or longer when compared to other species and where the offspring develops is different for each animal type e g in a hard egg shell uterus soft egg shell on a plant leaf etc Fertilization In humans the process of fetal development starts after sperm fertilizes an egg and they fuse together kickstarting embryonic development The fusion of egg and sperm into a zygote changes the surrounding membrane to not allow any more sperm to penetrate the egg so multiple fertilizations can be prevented Fusion of a zygote also activates the egg so it can begin undergoing cell division Each animal species might not have specifically a sperm and an egg but two gametes that contain half of the species typical genetic material and the membranes of these gametes fuse to start creating an offspring Cleavage Not long after successful fertilization by sperm the zygote undergoes many mitotic divisions which are also non sexual cell divisions Cleavage is the process of cell division so the starting zygote becomes a collection of identical cells which is a morula and contains cells called blastomeres Cleavage prepares the zygote to become an embryo which is from 2 weeks to 8 weeks after conception fertilization in humans Process of zygote to gastrula in developmentBlastulation After the zygote has become an embryo it continues dividing into a hollow sphere of cells which is a blastula These outer cells form a single epithelial layer the blastoderm that essentially encases the fluid filled inside that is the blastocoel The figure to the right shows the basic process that is modified in different species Blastulation differs slightly in different species but in mammals the eight cell stage embryo forms into a slightly different type of blastula called a blastocyst Other species such as sea stars frogs chicks and mice have all the same structures in this stage yet the orientation of these features differs plus these species have additional types of cells in this stage Blastula to gastrula more detailedGastrulation After blastulation the single layered blastula expands and reorganizes into multiple layers a gastrula seen in the figure to the right Reptiles birds and mammals are triploblastic organisms meaning the gastrula comprises three germ layers the endoderm inner layer mesoderm middle layer and ectoderm outer layer As seen in the figure below each germ layer will become multi potent stem cells that can become a specific tissue depending on the germ layer and is what happens in humans This differentiation of germ layers differs slightly because not all of the organs and tissues below are in all organisms but corresponding body systems can be substituted in place of these Organogenesis In the figure below human germ cells are able to differentiate into the specific organs and tissues they become later on in life Germ cells are able to migrate to their final locations to rearrange themselves and some organs are made of two germ layers one for the outside the other for the inside The endoderm cells become the internal linings of organisms such as the stomach colon small intestine liver and pancreas of the digestive system and the lungs The mesoderm gives rise to other tissues not formed by the ectoderm such as the heart muscles bones blood dermis of the skin bone marrow and the urogenital system This germ layer is more specific for species as it is the distinguishing layer of the three that can identify evolutionarily higher life forms e g bilateral organisms like humans from lower life forms with radial symmetry Lastly the ectoderm is the outer layer of cells that become the epidermis and hair while being the precursor to the mammary glands central nervous system and the peripheral nervous systems Germ layers and what tissues they become in humansErnst Haeckel Anthropogenie The figure above shows how the development of a pig cow rabbit and human offspring are similar when compared to one another This figure shows how the germ layers can become different organs and tissues in evolutionarily higher life forms and how these species essentially develop very similarly Additionally it shows how multiple species develop in a parallel manner but branch off to develop more specific features for the organism such as hooves a tail or ears Primary neurulation detailedNeurulation In developing vertebrate offspring a neural tube is formed through either primary or secondary neurulation Some species develop their spine and nervous system using both primary and secondary neurulation while others use only primary or secondary neurulation In human fetal development primary neurulation occurs during weeks 3 and 4 of gestation to develop the brain and spinal cord Then during weeks 5 and 6 of gestation secondary neurulation forms the lower sacral and coccygeal cord Primary Neurulation The diagram to the right illustrates primary neurulation which is the process of cells surrounding the neural plate interacting with neural plate cells to proliferate converge and pinch off to form a hollow tube above the notochord and mesoderm This process is discontinuous and can start at different points along the cranial caudal axis necessary for it to close After the neural crest closes the neural crest cells and ectoderm cells separate and the ectoderm becomes the epidermis surrounding this complex The neural crest cells differentiate to become components of most of the peripheral nervous system in animals Next the notochord degenerates to become only the nucleus pulposus of the intervertebral discs and the mesoderm cells differentiate to become the somites and skeletal muscle later on Also during this stage the neural crest cells become the spinal ganglions which function as the brain in organisms like earthworms and arthropods In more advanced organisms like amphibians birds and mammals the spinal ganglions consists of a cluster of nerve bodies positioned along the spinal cord at the dorsal and ventral roots of a spinal nerve which is a pair of nerves that correspond to a vertebra of the spine Secondary Neurulation In secondary neurulation caudal and sacral regions of the spine are formed after primary neurulation is finished This process initiates once primary neurulation is finished and the posterior neuropore closes so the tail bud can proliferate and condense then create a cavity and fuse with the central canal of the neural tube Secondary neurulation occurs in the small region starting at the spinal tail bud up to the posterior neuropore which is the open neural folds near the tail region that don t close through primary neurulation As canalization progresses over the next few weeks neurons and ependymal cells cells that create cerebral spinal fluid differentiate to become the tail end of the spinal cord Next the closed neural tube contains neuroepithelial cells that immediately divide after closure and a second type of cell forms the neuroblast Neuroblast cells form the mantle layer which later becomes the gray matter which then gives rise to a marginal layer that becomes the white matter of the spinal cord Secondary neurulation is seen in the neural tube of the lumbar and tail vertebrae of frogs and chicks and in both instances this process is like a continuation of gastrulation Acraea zetes caterpillar to pupae to butterfly metamorphosis by Nick HobgoodLarval and juvenile phases In most species the young organism that is just born or hatched is not sexually mature yet and in most animals this young organism looks quite different than the adult form This young organism is the larva and is the intermediate form before metamorphosing into an adult A well known example of a larval form of an animal is the caterpillar of butterflies and moths Caterpillars keep growing and feeding in order for enough energy during the pupal stage when necessary body parts for metamorphosis are grown The juvenile phase is different in plants and animals but in plants juvenility is an early phase of plant growth in which plants can t flower In animals the juvenile stage is most commonly found in social mammals such as wild dogs monkeys apes lions wolves and more In humans puberty marks the end of this stage and adolescence follows Some species begin puberty and reproduction before the juvenile stage is over such as in female non human primates The larval and pupal stages can be seen in the figure to the right Metamorphosis The process of an organism s body undergoing structural and physical changes after birth or hatching to become suitable for its adult environment is metamorphosis For example amphibian tadpoles have a maturation of liver enzymes hemoglobin and eye pigments in addition to their nervous digestive and reproductive systems being remodeled In all species molting and juvenile hormones appear to regulate these changes The figure to the right shows the stages of life in butterflies and their metamorphosis transforms the caterpillar into a butterfly Adulthood Adulthood is the stage of when physical and intellectual maturity have been achieved and this differs between species In humans adulthood is thought to be around 20 or 21 years old and is the longest stage of life but in all species it ends with death In dogs small breeds e g Yorkshire Terrier Chihuahua Cocker Spaniel etc physically mature faster than large breeds e g Saint Bernard Great Dane Golden Retriever etc so adulthood is reached anywhere from 12 to 24 months or 1 to 2 years In contrast many insect species have long larval stages and the adult stage is only for reproduction The silkworm moths don t have mouthparts and don t feed so they have to consume enough food during the larval stage for energy to survive and mate Senescence Senescence is when cells stop dividing but don t die but these cells can build up and cause problems in the body These cells can release substances that cause inflammation and can damage healthy nearby cells Senescence can be induced by un repaired DNA damage e g from radiation old age etc or other cellular stress and also is the state of being old Ontogenetic allometry Most organisms undergo allometric changes in shape as they grow and mature while others engage in metamorphosis Even reptiles non avian sauropsids e g crocodilians turtles snakes and lizards in which the offspring are often viewed as miniature adults show a variety of ontogenetic changes in morphology and physiology See alsoDevelopmental biology Ernst Haeckel Genetics Recapitulation theory the idea that ontogeny recapitulates phylogeny Embryology Organogenesis Ontogeny psychoanalysis Phylogenetics Phylogeny psychoanalysis Apoptosis Evo devo evolutionary developmental biology Cellular differentiation Cell biology Nikolaas Tinbergen Metamorphosis Morphology Physiology Eco evo devo ecological evolutionary developmental biology Darwinism Fertilization Cleavage Blastulation Gastrulation Germ layers Neurulation Spinal cord Metamorphosis Larva Adulthood SenescenceNotes and referencesTomasello Michael 27 September 2018 The Normative Turn in Early Moral Development Human Development 61 4 5 248 263 doi 10 1159 000492802 ontogeny biology Britannica www britannica com Retrieved 18 February 2022 Gould S J 1977 Ontogeny and Phylogeny Cambridge Massachusetts The Belknap Press of Harvard University Press Thiery Jean Paul 1 December 2003 Epithelial mesenchymal transitions in development and pathologies Current Opinion in Cell Biology 15 6 740 746 doi 10 1016 j ceb 2003 10 006 PMID 14644200 Toren Christina 2002 Comparison and ontogeny In Fox Richard G Gingrich Andre eds Anthropology by Comparison p 187 doi 10 4324 9780203463901 ISBN 978 0 203 46390 1 ontogeny Etymology origin and meaning of ontogeny by etymonline www etymonline com Retrieved 5 March 2022 Robinson Gloria 12 February 2022 Ernst Haeckel German embryologist Britannica Encyclopedia Britannica Retrieved 9 March 2022 Gilbert Scott F Epel David 2015 Ecological Developmental Biology 2nd ed Sinauer pp 170 171 ISBN 978 1 60535 344 9 Barnes M 3 May 2014 Ernst Haeckel s Biogenetic Law 1866 The Embryo Project Encyclopedia embryo asu edu Retrieved 7 April 2022 Gilbert Scott F Epel David 2015 Ecological Developmental Biology 2nd ed Sinauer Associates Inc p 357 ISBN 978 1 60535 344 9 Niko Tinbergen 1963 On aims and methods of ethology PDF Zeitschrift fur Tierpsychologie 20 4 410 433 doi 10 1111 j 1439 0310 1963 tb01161 x See page 411 Foundations of animal behavior classic papers with commentaries Lynne D Houck Lee C Drickamer Animal Behavior Society Chicago 1996 ISBN 0 226 35456 3 OCLC 34321442 a href wiki Template Cite book title Template Cite book cite book a CS1 maint location missing publisher link CS1 maint others link Animal Life Cycles Growth and Development of Organisms Diagram K 2 www exploringnature org Retrieved 9 April 2022 fertilization Steps Process amp Facts Britannica www britannica com Retrieved 8 April 2022 Muhr Jeremy Arbor Tafline C Ackerman Kristin M 2024 Embryology Gastrulation StatPearls StatPearls Publishing PMID 32119281 Gilbert Scott F 2000 An Introduction to Early Developmental Processes Developmental Biology 6th ed Sinauer Associates blastula biology Britannica www britannica com Retrieved 8 April 2022 Blastulation Cleavage and Early Development Principles of Development Continuity and Evolution of Animal Life biocyclopedia com Retrieved 8 April 2022 Leptin Maria 1 March 2005 Gastrulation Movements the Logic and the Nuts and Bolts Developmental Cell 8 3 305 320 doi 10 1016 j devcel 2005 02 007 ISSN 1534 5807 PMID 15737927 Gilbert Scott F 2000 The Circle of Life The Stages of Animal Development Developmental Biology 6th ed Sinauer Associates germ layer Definition Primary Layers amp Embryonic Development Britannica www britannica com Retrieved 8 April 2022 Gilbert Scott F 2000 Formation of the Neural Tube Developmental Biology 6th ed Sinauer Associates Muller Fabiola O Rahilly Ronan 2004 Embryonic Development of the Central Nervous System The Human Nervous System pp 22 48 doi 10 1016 B978 012547626 3 50003 X ISBN 978 0 12 547626 3 ganglion physiology Britannica www britannica com Retrieved 9 April 2022 spinal nerve Definition Function Diagram Number amp Facts Britannica www britannica com Retrieved 9 April 2022 Ependymal Cells medcell med yale edu Retrieved 10 April 2022 larva Definition Forms amp Facts Britannica www britannica com Retrieved 25 April 2022 Butterfly Life Cycle ansp org 14 September 2020 Retrieved 26 April 2022 Sgamma T 2017 Juvenility Encyclopedia of Applied Plant Sciences pp 437 441 doi 10 1016 B978 0 12 394807 6 00105 2 ISBN 978 0 12 394808 3 Juvenile Stage Center for Academic Research and Training in Anthropogeny CARTA carta anthropogeny org Retrieved 25 April 2022 metamorphosis biology Britannica www britannica com Retrieved 26 April 2022 Gilbert Scott F 2000 Metamorphosis The Hormonal Reactivation of Development Developmental Biology 6th ed Sinauer Associates adulthood Britannica www britannica com Retrieved 28 April 2022 Reisen Jan 22 October 2021 How Long Does Puppyhood Last American Kennel Club Retrieved 28 April 2022 senescence NCI s Dictionary of Cancer Terms National Cancer Institute 2 February 2011 Retrieved 28 April 2022 Borrego Soto Gissela Ortiz Lopez Rocio Rojas Martinez Augusto 2015 Ionizing radiation induced DNA injury and damage detection in patients with breast cancer Genetics and Molecular Biology 38 4 420 432 doi 10 1590 S1415 475738420150019 PMC 4763322 PMID 26692152 Narita M March 2007 Cellular senescence and chromatin organisation British Journal of Cancer 96 5 686 691 doi 10 1038 sj bjc 6603636 PMC 2360064 PMID 17311013 Definition of SENESCENCE www merriam webster com Retrieved 28 April 2022 Pough F H 1978 Ontogenetic changes in endurance in water snakes Natrix sipedon Physiological correlates and ecological consequences Copeia 1978 1 69 75 doi 10 2307 1443823 JSTOR 1443823 Garland Theodore November 1985 Ontogenetic and individual variation in size shape and speed in the Australian agamid lizard Amphibolurus nuchalis Journal of Zoology 207 3 425 439 doi 10 1111 j 1469 7998 1985 tb04941 x Garland T Jr Else P L 1987 Seasonal sexual and individual variation in endurance and activity metabolism in lizards American Journal of Physiology Regulatory Integrative and Comparative Physiology 252 3 R439 R449 doi 10 1152 ajpregu 1987 252 3 r439 PMID 3826408 External linksMedia related to Morphogenesis at Wikimedia Commons The dictionary definition of ontogeny at Wiktionary Portal Biology