Reproduction

Reproduction or procreation or breeding is the biological process by which new individual organisms offspring are produced from their parent or parents There are two forms of reproduction asexual and sexual Production of new individuals along a leaf margin of the miracle leaf plant Kalanchoe pinnata The small plant in front is about 1 cm 0 4 in tall The concept of individual is obviously stretched by this asexual reproductive process In asexual reproduction an organism can reproduce without the involvement of another organism Asexual reproduction is not limited to single celled organisms The cloning of an organism is a form of asexual reproduction By asexual reproduction an organism creates a genetically similar or identical copy of itself The evolution of sexual reproduction is a major puzzle for biologists The two fold cost of sexual reproduction is that only 50 of organisms reproduce and organisms only pass on 50 of their genes Sexual reproduction typically requires the sexual interaction of two specialized reproductive cells called gametes which contain half the number of chromosomes of normal cells and are created by meiosis with typically a male fertilizing a female of the same species to create a fertilized zygote This produces offspring organisms whose genetic characteristics are derived from those of the two parental organisms AsexualAsexual reproduction is a process by which organisms create genetically similar or identical copies of themselves without the contribution of genetic material from another organism Bacteria divide asexually via binary fission viruses take control of host cells to produce more viruses Hydras invertebrates of the order Hydroidea and yeasts are able to reproduce by budding These organisms often do not possess different sexes and they are capable of splitting themselves into two or more copies of themselves Most plants have the ability to reproduce asexually and the ant species Mycocepurus smithii is thought to reproduce entirely by asexual means Some species that are capable of reproducing asexually like hydra yeast See Mating of yeasts and jellyfish may also reproduce sexually For instance most plants are capable of vegetative reproduction reproduction without seeds or spores but can also reproduce sexually Likewise bacteria may exchange genetic information by conjugation Other ways of asexual reproduction include parthenogenesis fragmentation and spore formation that involves only mitosis Parthenogenesis is the growth and development of embryo or seed without fertilization Parthenogenesis occurs naturally in some species including lower plants where it is called apomixis invertebrates e g water fleas aphids some bees and parasitic wasps and vertebrates e g some reptiles some fish and very rarely domestic birds SexualThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed August 2021 Learn how and when to remove this message Hoverflies mate in midair flightBirds reptiles and mammals reproduce by internal fertilization Male mammals ejaculate semen through the penis into the vagina during copulation Sexual reproduction is a biological process that creates a new organism by combining the genetic material of two organisms in a process that starts with meiosis a specialized type of cell division Each of two parent organisms contributes half of the offspring s genetic makeup by creating haploid gametes Most organisms form two different types of gametes In these anisogamous species the two sexes are referred to as male producing sperm or microspores and female producing ova or megaspores In isogamous species the gametes are similar or identical in form isogametes but may have separable properties and then may be given other different names see isogamy Because both gametes look alike they generally cannot be classified as male or female For example in the green alga Chlamydomonas reinhardtii there are so called plus and minus gametes A few types of organisms such as many fungi and the ciliate Paramecium aurelia have more than two sexes called mating types Most animals including humans and plants reproduce sexually Sexually reproducing organisms have different sets of genes for every trait called alleles Offspring inherit one allele for each trait from each parent Thus offspring have a combination of the parents genes It is believed that the masking of deleterious alleles favors the evolution of a dominant diploid phase in organisms that alternate between haploid and diploid phases where recombination occurs freely Bryophytes reproduce sexually but the larger and commonly seen organisms are haploid and produce gametes The gametes fuse to form a zygote which develops into a sporangium which in turn produces haploid spores The diploid stage is relatively small and short lived compared to the haploid stage i e haploid dominance The advantage of diploidy heterosis only exists in the diploid life generation Bryophytes retain sexual reproduction despite the fact that the haploid stage does not benefit from heterosis This may be an indication that the sexual reproduction has advantages other than heterosis such as genetic recombination between members of the species allowing the expression of a wider range of traits and thus making the population more able to survive environmental variation Allogamy Allogamy is the fertilization of flowers through cross pollination this occurs when a flower s ovum is fertilized by spermatozoa from the pollen of a different plant s flower Pollen may be transferred through pollen vectors or abiotic carriers such as wind Fertilization begins when the pollen is brought to a female gamete through the pollen tube Allogamy is also known as cross fertilization in contrast to autogamy or geitonogamy which are methods of self fertilization Autogamy Self fertilization also known as autogamy occurs in hermaphroditic organisms where the two gametes fused in fertilization come from the same individual e g many vascular plants some foraminiferans some ciliates The term autogamy is sometimes substituted for autogamous pollination not necessarily leading to successful fertilization and describes self pollination within the same flower distinguished from geitonogamous pollination transfer of pollen to a different flower on the same flowering plant or within a single monoecious gymnosperm plant Mitosis and meiosis Mitosis and meiosis are types of cell division Mitosis occurs in somatic cells while meiosis occurs in gametes Mitosis The resultant number of cells in mitosis is twice the number of original cells The number of chromosomes in the offspring cells is the same as that of the parent cell Meiosis The resultant number of cells is four times the number of original cells This results in cells with half the number of chromosomes present in the parent cell A diploid cell duplicates itself then undergoes two divisions tetraploid to diploid to haploid in the process forming four haploid cells This process occurs in two phases meiosis I and meiosis II Gametogenesis Animals including mammals produce gametes sperm and egg by means of meiosis in gonads testicles in males and ovaries in females Sperm are produced by spermatogenesis and eggs are produced by oogenesis During gametogenesis in mammals numerous genes encoding proteins that participate in DNA repair mechanisms exhibit enhanced or specialized expression Male germ cells produced in the testes of animals are capable of special DNA repair processes that function during meiosis to repair DNA damages and to maintain the integrity of the genomes that are to be passed on to progeny Such DNA repair processes include homologous recombinational repair as well as non homologous end joining Oocytes located in the primordial follicle of the ovary are in a non growing prophase arrested state but are able to undergo highly efficient homologous recombinational repair of DNA damages including double strand breaks These repair processes allow the integrity of the genome to be maintained and offspring health to be protected Same sexThis section possibly contains original research Please improve it by verifying the claims made and adding inline citations Statements consisting only of original research should be removed April 2021 Learn how and when to remove this message Scientific research is currently investigating the possibility of same sex procreation which would produce offspring with equal genetic contributions from either two females or two males The obvious approaches subject to a growing amount of activity are female sperm and male eggs In 2004 by altering the function of a few genes involved with imprinting other Japanese scientists combined two mouse eggs to produce daughter mice and in 2018 Chinese scientists created 29 female mice from two female mice mothers but were unable to produce viable offspring from two father mice Researches noted that there is little chance these techniques would be applied to humans in the near future StrategiesThere are a wide range of reproductive strategies employed by different species Some animals such as the human and northern gannet do not reach sexual maturity for many years after birth and even then produce few offspring Others reproduce quickly but under normal circumstances most offspring do not survive to adulthood For example a rabbit mature after 8 months can produce 10 30 offspring per year and a fruit fly mature after 10 14 days can produce up to 900 offspring per year These two main strategies are known as K selection few offspring and r selection many offspring Which strategy is favoured by evolution depends on a variety of circumstances Animals with few offspring can devote more resources to the nurturing and protection of each individual offspring thus reducing the need for many offspring On the other hand animals with many offspring may devote fewer resources to each individual offspring for these types of animals it is common for many offspring to die soon after birth but enough individuals typically survive to maintain the population Some organisms such as honey bees and fruit flies retain sperm in a process called sperm storage thereby increasing the duration of their fertility Other types Polycyclic animals reproduce intermittently throughout their lives Semelparous organisms reproduce only once in their lifetime such as annual plants including all grain crops and certain species of salmon spider bamboo and century plant Often they die shortly after reproduction This is often associated with r strategists Iteroparous organisms produce offspring in successive e g annual or seasonal cycles such as perennial plants Iteroparous animals survive over multiple seasons or periodic condition changes This is more associated with K strategists Asexual vs sexual reproductionIllustration of the twofold cost of sexual reproduction If each organism were to contribute to the same number of offspring two a the population remains the same size each generation where the b asexual population doubles in size each generation Organisms that reproduce through asexual reproduction tend to grow in number exponentially However because they rely on mutation for variations in their DNA all members of the species have similar vulnerabilities Organisms that reproduce sexually yield a smaller number of offspring but the large amount of variation in their genes makes them less susceptible to disease Many organisms can reproduce sexually as well as asexually Aphids slime molds sea anemones some species of starfish by fragmentation and many plants are examples When environmental factors are favorable asexual reproduction is employed to exploit suitable conditions for survival such as an abundant food supply adequate shelter favorable climate disease optimum pH or a proper mix of other lifestyle requirements Populations of these organisms increase exponentially via asexual reproductive strategies to take full advantage of the rich supply resources When food sources have been depleted the climate becomes hostile or individual survival is jeopardized by some other adverse change in living conditions these organisms switch to sexual forms of reproduction Sexual reproduction ensures a mixing of the gene pool of the species The variations found in offspring of sexual reproduction allow some individuals to be better suited for survival and provide a mechanism for selective adaptation to occur The meiosis stage of the sexual cycle also allows especially effective repair of DNA damages see Meiosis In addition sexual reproduction usually results in the formation of a life stage that is able to endure the conditions that threaten the offspring of an asexual parent Thus seeds spores eggs pupae cysts or other over wintering stages of sexual reproduction ensure the survival during unfavorable times and the organism can wait out adverse situations until a swing back to suitability occurs Life withoutThe existence of life without reproduction is the subject of some speculation The biological study of how the origin of life produced reproducing organisms from non reproducing elements is called abiogenesis Whether or not there were several independent abiogenetic events biologists believe that the last universal ancestor to all present life on Earth lived about 3 5 billion years ago Scientists have speculated about the possibility of creating life non reproductively in the laboratory Several scientists have succeeded in producing simple viruses from entirely non living materials However viruses are often regarded as not alive Being nothing more than a bit of RNA or DNA in a protein capsule they have no metabolism and can only replicate with the assistance of a hijacked cell s metabolic machinery The production of a truly living organism e g a simple bacterium with no ancestors would be a much more complex task but may well be possible to some degree according to current biological knowledge A synthetic genome has been transferred into an existing bacterium where it replaced the native DNA resulting in the artificial production of a new M mycoides organism There is some debate within the scientific community over whether this cell can be considered completely synthetic on the grounds that the chemically synthesized genome was an almost 1 1 copy of a naturally occurring genome and the recipient cell was a naturally occurring bacterium The Craig Venter Institute maintains the term synthetic bacterial cell but they also clarify we do not consider this to be creating life from scratch but rather we are creating new life out of already existing life using synthetic DNA Venter plans to patent his experimental cells stating that they are pretty clearly human inventions Its creators suggests that building synthetic life would allow researchers to learn about life by building it rather than by tearing it apart They also propose to stretch the boundaries between life and machines until the two overlap to yield truly programmable organisms Researchers involved stated that the creation of true synthetic biochemical life is relatively close in reach with current technology and cheap compared to the effort needed to place man on the Moon Lottery principleSexual reproduction has many drawbacks since it requires far more energy than asexual reproduction and diverts the organisms from other pursuits and there is some argument about why so many species use it George C Williams used lottery tickets as an analogy in one explanation for the widespread use of sexual reproduction He argued that asexual reproduction which produces little or no genetic variety in offspring was like buying many tickets that all have the same number limiting the chance of winning that is producing surviving offspring Sexual reproduction he argued was like purchasing fewer tickets but with a greater variety of numbers and therefore a greater chance of success The point of this analogy is that since asexual reproduction does not produce genetic variations there is little ability to quickly adapt to a changing environment The lottery principle is less accepted these days because of evidence that asexual reproduction is more prevalent in unstable environments the opposite of what it predicts See alsoBreeding season Masting Mating system Modes of reproduction Plant reproduction Reproductive systemNotesRidley M 2004 Evolution 3rd edition Blackwell Publishing p 314 John Maynard Smith The Evolution of Sex 1978 Halliday Tim R Adler Kraig eds 1986 Reptiles amp Amphibians Torstar Books p 101 ISBN 978 0 920269 81 7 Eilperin Juliet 2007 05 23 Female Sharks Can Reproduce Alone Researchers Find The Washington Post ISSN 0190 8286 Archived from the original on 2018 04 28 Retrieved 2023 03 27 Savage Thomas F September 12 2005 A Guide to the Recognition of Parthenogenesis in Incubated Turkey Eggs Oregon State University Archived from the original on November 15 2006 Retrieved 2006 10 11 Libbie Henrietta Hyman 15 September 1992 Hyman s Comparative Vertebrate Anatomy University of Chicago Press pp 583 ISBN 978 0 226 87013 7 Birkhead Tim 2000 Promiscuity An Evolutionary History of Sperm Competition Harvard University Press ISBN 978 0 674 00666 9 Griswold M D Hunt P A 2013 01 01 Meiosis in Maloy Stanley Hughes Kelly eds Brenner s Encyclopedia of Genetics Second Edition San Diego Academic Press pp 338 341 ISBN 978 0 08 096156 9 archived from the original on 2021 04 20 retrieved 2020 10 05 Kumar R Meena M Swapnil P 2019 Anisogamy In Vonk J Shackelford T eds Anisogamy Encyclopedia of Animal Cognition and Behavior Cham Springer International Publishing pp 1 5 doi 10 1007 978 3 319 47829 6 340 1 ISBN 978 3 319 47829 6 Lehtonen Jussi Kokko Hanna Parker Geoff A 2016 10 19 What do isogamous organisms teach us about sex and the two sexes 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Tatiana s Sex Advice to All Creation Definitive Guide to the Evolutionary Biology of Sex ISBN 978 0 09 928375 1 Richard E Michod and Bruce E Levin editors 1987 The Evolution of Sex An Examination of Current Ideas Sinauer Associates Inc Publishers Sunderland MA ISBN 978 0 87893 459 1 Michod R E 1994 Eros and Evolution A natural philosophy of sex Addison Wesley Publishing Company Reading MA ISBN 978 0 201 44232 8External linksWikimedia Commons has media related to Reproduction Asexual Reproduction Archived 2018 01 22 at the Wayback Machine Journal of Biology of Reproduction Journal of Andrology Archived 2005 11 07 at the Wayback Machine Reproduction Encyclopaedia Britannica 11th ed 1911 Replication and Reproduction Stanford Encyclopedia of Philosophy