Sex is the biological trait that determines whether a sexually reproducing organism produces male or femalegametes.[1][2][3][4][5] During sexual reproduction, a male and a female gamete fuse to form a zygote, which develops into an offspring that inherits traits from each parent. By convention, organisms that produce smaller, more mobile gametes (spermatozoa, sperm) are called male, while organisms that produce larger, non-mobile gametes (ova, often called egg cells) are called female.[6] An organism that produces both types of gamete is hermaphrodite.[3][7]
The male and female of a species may be physically alike (sexual monomorphism) or have physical differences (sexual dimorphism). In sexually dimorphic species, including most birds and mammals, the sex of an individual is usually identified through observation of that individual's sexual characteristics. Sexual selection or mate choice can accelerate the evolution of differences between the sexes.
The terms male and female typically do not apply in sexually undifferentiated species in which the individuals are isomorphic (look the same) and the gametes are isogamous (indistinguishable in size and shape), such as the green algaUlva lactuca. Some kinds of functional differences between individuals, such as in fungi,[10] may be referred to as mating types.[11]
The life cycle of a sexually reproducing species cycles through haploid and diploid stages
Sexual reproduction, in which two individuals produce an offspring that possesses a selection of the genetic traits of each parent, is exclusive to eukaryotes. Genetic traits are encoded in the deoxyribonucleic acid (DNA) of chromosomes. The eukaryote cell has a set of paired homologous chromosomes, one from each parent, and this double-chromosome stage is called "diploid". During sexual reproduction, a diploid organism produces specialized haploid sex cells called gametes via meiosis,[12] each of which has a single set of chromosomes. Meiosis involves a stage of genetic recombination via chromosomal crossover, in which regions of DNA are exchanged between matched pairs of chromosomes, to form new chromosomes, each with a new combination of the genes of the parents. Then the chromosomes are separated into single sets in the gametes. When gametes fuse during fertilization, the resulting zygote has half of the genetic material of the mother and half of the father.[13] The combination of chromosomal crossover and fertilization, bringing the two single sets of chromosomes together to make a new diploid zygote, results in a new organism that contains a different set of the genetic traits of each parent.
In animals, the haploid stage only occurs in the gametes, the sex cells that fuse to form a zygote that develops directly into a new diploid organism. In a plant species, the diploid organism produces a type of haploid spore by meiosis that is capable of undergoing repeated cell division to produce a multicellular haploid organism. In either case, the gametes may be externally similar (isogamy) as in the green alga Ulva or may be different in size and other aspects (anisogamy).[14] The size difference is greatest in oogamy, a type of anisogamy in which a small, motile gamete combines with a much larger, non-motile gamete.[15]
In anisogamic organisms, by convention, the larger gamete (called an ovum, or egg cell) is considered female, while the smaller gamete (called a spermatozoon, or sperm cell) is considered male. An individual that produces large gametes is female, and one that produces small gametes is male.[16] An individual that produces both types of gamete is a hermaphrodite. In some species, a hermaphrodite can self-fertilize and produce an offspring on its own.
Most sexually reproducing animals spend their lives as diploid, with the haploid stage reduced to single-cell gametes.[17] The gametes of animals have male and female forms—spermatozoa and egg cells, respectively. These gametes combine to form embryos which develop into new organisms.
The male gamete, a spermatozoon (produced in vertebrates within the testes), is a small cell containing a single long flagellum which propels it.[18] Spermatozoa are extremely reduced cells, lacking many cellular components that would be necessary for embryonic development. They are specialized for motility, seeking out an egg cell and fusing with it in a process called fertilization.
Female gametes are egg cells. In vertebrates, they are produced within the ovaries. They are large, immobile cells that contain the nutrients and cellular components necessary for a developing embryo.[19] Egg cells are often associated with other cells which support the development of the embryo, forming an egg. In mammals, the fertilized embryo instead develops within the female, receiving nutrition directly from its mother.
Animals are usually mobile and seek out a partner of the opposite sex for mating. Animals which live in the water can mate using external fertilization, where the eggs and sperm are released into and combine within the surrounding water.[20] Most animals that live outside of water, however, use internal fertilization, transferring sperm directly into the female to prevent the gametes from drying up.
In most birds, both excretion and reproduction are done through a single posterior opening, called the cloaca—male and female birds touch cloaca to transfer sperm, a process called "cloacal kissing".[21] In many other terrestrial animals, males use specialized sex organs to assist the transport of sperm—these male sex organs are called intromittent organs. In humans and other mammals, this male organ is known as the penis, which enters the female reproductive tract (called the vagina) to achieve insemination—a process called sexual intercourse. The penis contains a tube through which semen (a fluid containing sperm) travels. In female mammals, the vagina connects with the uterus, an organ which directly supports the development of a fertilized embryo within (a process called gestation).
Because of their motility, animal sexual behavior can involve coercive sex. Traumatic insemination, for example, is used by some insect species to inseminate females through a wound in the abdominal cavity—a process detrimental to the female's health.
Flowers contain the sexual organs of flowering plants. They are usually hermaphrodite, containing both male and female parts.
Like animals, land plants have specialized male and female gametes.[22][23] In seed plants, male gametes are produced by reduced male gametophytes that are contained within pollen which have hard coats that protect the male gamete forming cells during transport from the anthers to the stigma. The female gametes of seed plants are contained within ovules. Once fertilized, these form seeds which, like eggs, contain the nutrients necessary for the initial development of the embryonic plant.
Female (left) and male (right) cones contain the sex organs of pines and other conifers.
The flowers of flowering plants contain their sexual organs. Most flowering plants are hermaphroditic, with both male and female parts in the same flower or on the same plant in single sex flowers, about 5% of plant species have individual plants that are one sex or the other.[24] The female parts, in the center of a hermaphroditic or female flower, are the pistils, each unit consisting of a carpel, a style and a stigma. Two or more of these reproductive units may be merged to form a single compound pistil, the fused carpels forming an ovary. Within the carpels are ovules which develop into seeds after fertilization. The male parts of the flower are the stamens: these consist of long filaments arranged between the pistil and the petals that produce pollen in anthers at their tips. When a pollen grain lands upon the stigma on top of a carpel's style, it germinates to produce a pollen tube that grows down through the tissues of the style into the carpel, where it delivers male gamete nuclei to fertilize an ovule that eventually develops into a seed.
Some hermaphroditic plants are self-fertile, but plants have evolved multiple different self-incompatibility mechanisms to avoid self-fertilization, involving sequential hermaphroditism, molecular recognition systems and morphological mechanisms such as heterostyly.[25]: 73, 74
In pines and other conifers, the sex organs are produced within cones that have male and female forms. Male cones are smaller than female ones and produce pollen, which is transported by wind to land in female cones. The larger and longer-lived female cones are typically more durable, and contain ovules within them that develop into seeds after fertilization.
Because seed plants are immobile, they depend upon passive methods for transporting pollen grains to other plants. Many, including conifers and grasses, produce lightweight pollen which is carried by wind to neighboring plants. Some flowering plants have heavier, sticky pollen that is specialized for transportation by insects or larger animals such as hummingbirds and bats, which may be attracted to flowers containing rewards of nectar and pollen. These animals transport the pollen as they move to other flowers, which also contain female reproductive organs, resulting in pollination.
Mushrooms are produced as part of fungal sexual reproduction.
Most species of fungus can reproduce sexually and have life cycles with both haploid and diploid phases. These species of fungus are typically isogamous, i.e. lacking male and female specialization. One haploid fungus grows into contact with another, and then they fuse their cells. In some cases, the fusion is asymmetric, and the cell which donates only a nucleus (and no accompanying cellular material) could arguably be considered male.[26] Fungi may also have more complex allelic mating systems, with other sexes not accurately described as male, female, or hermaphroditic.[27]
Some fungi, including baker's yeast, have mating types that determine compatibility. Yeasts with the same mating types will not fuse with each other to form diploid cells, only with yeast carrying another mating type.[28]
A sexual system is a distribution of male and female functions across organisms in a species.[29]
Animals
Approximately 95% of animal species have separate male and female individuals, and are said to be gonochoric. About 5% of animal species are hermaphroditic.[29] This low percentage is partially attributable to the very large number of insect species, in which hermaphroditism is absent.[30] About 99% of vertebrates are gonochoric, and the remaining 1% that are hermaphroditic are almost all fishes.[31]
Plants
The majority of plants are bisexual,[32]: 212 either hermaphrodite (with both stamens and pistil in the same flower) or monoecious.[33][34] In dioecious species male and female sexes are on separate plants.[35] About 5% of flowering plants are dioecious, resulting from as many as 5000 independent origins.[36] Dioecy is common in gymnosperms, in which about 65% of species are dioecious, but most conifers are monoecious.[37]
Different forms of anisogamy: A) anisogamy of motile cells, B) oogamy (egg cell and sperm cell), C) anisogamy of non-motile cells (egg cell and spermatia).
Different forms of isogamy: A) isogamy of motile cells, B) isogamy of non-motile cells, C) conjugation.
The most basic role of meiosis appears to be conservation of the integrity of the genome that is passed on to progeny by parents.[47][48] The two most fundamental aspects of sexual reproduction, meiotic recombination and outcrossing, are likely maintained respectively by the adaptive advantages of recombinational repair of genomic DNA damage and genetic complementation which masks the expression of deleterious recessive mutations.[49]Genetic variation, often produced as a byproduct of these processes, may provide long-term advantages in those sexual lineages that favor outcrossing.[49]
Sex helps the spread of advantageous traits through recombination. The diagrams compare the evolution of allele frequency in a sexual population (top) and an asexual population (bottom). The vertical axis shows frequency and the horizontal axis shows time. The alleles a/A and b/B occur at random. The advantageous alleles A and B, arising independently, can be rapidly combined by sexual reproduction into the most advantageous combination AB. Asexual reproduction takes longer to achieve this combination because it can only produce AB if A arises in an individual which already has B or vice versa.
The biological cause of an organism developing into one sex or the other is called sex determination. The cause may be genetic, environmental, haplodiploidy, or multiple factors.[30] Within animals and other organisms that have genetic sex-determination systems, the determining factor may be the presence of a sex chromosome. In plants that are sexually dimorphic, such as Ginkgo biloba,[25]: 203 the liverwort Marchantia polymorpha or the dioecious species in the flowering plant genus Silene, sex may also be determined by sex chromosomes.[50] Non-genetic systems may use environmental cues, such as the temperature during early development in crocodiles, to determine the sex of the offspring.[51]
Sex determination is often distinct from sex differentiation. Sex determination is the designation for the development stage towards either male or female while sex differentiation is the pathway towards the development of the phenotype.[52]
Humans and most other mammals have an XY sex-determination system: the Y chromosome carries factors responsible for triggering male development, making XY sex determination mostly based on the presence or absence of the Y chromosome. It is the male gamete that determines the sex of the offspring.[53] In this system XX mammals typically are female and XY typically are male.[30] However, individuals with XXY or XYY are males, while individuals with X and XXX are females.[9] Unusually, the platypus, a monotreme mammal, has ten sex chromosomes; females have ten X chromosomes, and males have five X chromosomes and five Y chromosomes. Platypus egg cells all have five X chromosomes, whereas sperm cells can either have five X chromosomes or five Y chromosomes.[54]
XY sex determination is found in other organisms, including insects like the common fruit fly,[55] and some plants.[56] In some cases, it is the number of X chromosomes that determines sex rather than the presence of a Y chromosome.[9] In the fruit fly individuals with XY are male and individuals with XX are female; however, individuals with XXY or XXX can also be female, and individuals with X can be males.[57]
ZW sex determination
In birds, which have a ZW sex-determination system, the W chromosome carries factors responsible for female development, and default development is male.[58] In this case, ZZ individuals are male and ZW are female. It is the female gamete that determines the sex of the offspring. This system is used by birds, some fish, and some crustaceans.[9]
The majority of butterflies and moths also have a ZW sex-determination system. Females can have Z, ZZW, and even ZZWW.[59]
In field crickets, for example, insects with a single X chromosome develop as male, while those with two develop as female.[62]
In the nematode Caenorhabditis elegans, most worms are self-fertilizing hermaphrodites with an XX karyotype, but occasional abnormalities in chromosome inheritance can give rise to individuals with only one X chromosome—these XO individuals are fertile males (and half their offspring are male).[63]
ZO sex determination
In the ZO sex-determination system, males have two Z chromosomes whereas females have one. This system is found in several species of moths.[64]
For many species, sex is not determined by inherited traits, but instead by environmental factors such as temperature experienced during development or later in life.[65]
In the fernCeratopteris and other homosporous fern species, the default sex is hermaphrodite, but individuals which grow in soil that has previously supported hermaphrodites are influenced by the pheromoneantheridiogen to develop as male.[50] The bonelliidae larvae can only develop as males when they encounter a female.[30]
Sequential hermaphroditism
Clownfishes are initially male; the largest fish in a group becomes female.
Teleost fishes are the only vertebrate lineage where sequential hermaphroditism occurs. In clownfish, smaller fish are male, and the dominant and largest fish in a group becomes female; when a dominant female is absent, then her partner changes sex from male to female. In many wrasses the opposite is true: the fish are initially female and become male when they reach a certain size.[67]
Sequential hermaphroditism also occurs in plants such as Arisaema triphyllum.
Temperature-dependent sex determination
Crocodiles do not have sex chromosomes.[68] Instead, whether these eggs will produce male or female crocodiles depends on the temperature of the eggs.
In some turtles, for example, males are produced at lower temperatures than females; but Macroclemys females are produced at temperatures lower than 22 °C or above 28 °C, while males are produced in between those temperatures.[69]
Haplodiploidy
Certain insects, such as honey bees and ants, use a haplodiploid sex-determination system.[70] Diploid bees and ants are generally female, and haploid individuals (which develop from unfertilized eggs) are male. This sex-determination system results in highly biased sex ratios, as the sex of offspring is determined by fertilization (arrhenotoky or pseudo-arrhenotoky resulting in males) rather than the assortment of chromosomes during meiosis.[71]
The human sex ratio is of particular interest to anthropologists and demographers. In human societies, sex ratios at birth may be considerably skewed by factors such as the age of mother at birth[76] and by sex-selective abortion and infanticide. Exposure to pesticides and other environmental contaminants may be a significant contributing factor as well.[77] As of 2024, the global sex ratio at birth is estimated at 107 boys to 100 girls (1,000 boys per 934 girls).[78] By old age, the sex ratio reverses, with 81 older men for every 100 older women; across all ages, the global population is nearly balanced, with 101 males for every 100 females.[78]
Anisogamy is the fundamental difference between male and female.[79][80]Richard Dawkins has stated that it is possible to interpret all the differences between the sexes as stemming from this.[81]
In many animals and some plants, individuals of male and female sex differ in size and appearance, a phenomenon called sexual dimorphism.[83] Sexual dimorphism in animals is often associated with sexual selection: the mating competition between individuals of one sex vis-à-vis the opposite sex.[84] Other examples demonstrate that it is the preference of females that drives sexual dimorphism, such as in the case of the stalk-eyed fly.[85]
Sex differences in humans include a generally larger size and more body hair in men, while women have larger breasts, wider hips, and a higher body fat percentage. In other species, there may be differences in coloration or other features, and may be so pronounced that the different sexes may be mistaken for two entirely different taxa.[84]
Females are the larger sex in a majority of animals.[83] For instance, female southern black widow spiders are typically twice as long as the males.[86] This size disparity may be associated with the cost of producing egg cells, which requires more nutrition than producing sperm: larger females are able to produce more eggs.[87][83] In many other cases, the male of a species is larger than the female. Mammal species with extreme sexual size dimorphism, such as elephant seals, tend to have highly polygynous mating systems, presumably due to selection for success in competition with other males.
Sexual dimorphism can be extreme, with males, such as some anglerfish, living parasitically on the female. Some plant species also exhibit dimorphism in which the females are significantly larger than the males, such as in the moss genus Dicranum[88] and the liverwort genus Sphaerocarpos.[89] There is some evidence that, in these genera, the dimorphism may be tied to a sex chromosome,[89][90] or to chemical signaling from females.[91]
In birds, males often have a more colorful appearance and may have features (like the long tail of male peacocks) that would seem to put them at a disadvantage (e.g. bright colors would seem to make a bird more visible to predators). One proposed explanation for this is the handicap principle.[92] This hypothesis argues that, by demonstrating he can survive with such handicaps, the male is advertising his genetic fitness to females—traits that will benefit daughters as well, who will not be encumbered with such handicaps.
The sexes across gonochoric species usually differ in behavior. In most animal species, females invest more in parental care,[93] although in some species, such as some coucals, the males invest more parental care.[94] Females also tend to be more choosy for who they mate with,[95] such as most bird species.[96] Males tend to be more competitive for mating than females.[39]
While in ordinary speech, the terms sex and gender are often used interchangeably, in contemporary academic literature, the terms often have distinct meanings, especially when referring to people.[97][98]Sex generally refers to an organism's biological sex, while gender usually refers to either social roles typically associated with the sex of a person (gender role) or personal identification of one's own gender based on their own personal sense of it (gender identity).[99][100][101][102] Most contemporary social scientists,[103][104][105] behavioral scientists and biologists,[106][107] many legal systems and government bodies and intergovernmental agencies such as the WHO make a distinction between gender and sex.[108][109]
^Stevenson A, Waite M (2011). "Sex". Concise Oxford English Dictionary: Book & CD-ROM Set. OUP Oxford. p. 1302. ISBN978-0-19-960110-3. Retrieved 23 March 2018. Sex: Either of the two main categories (male and female) into which humans and most other living things are divided on the basis of their reproductive functions. The fact of belonging to one of these categories. The group of all members of either sex.
^ abPurves WK, Sadava DE, Orians GH, Heller HC (2000). Life: The Science of Biology. Macmillan. p. 736. ISBN978-0-7167-3873-2. Retrieved 23 March 2018. A single body can function as both male and female. Sexual reproduction requires both male and female haploid gametes. In most species, these gametes are produced by individuals that are either male or female. Species that have male and female members are called dioecious (from the Greek for 'two houses'). In some species, a single individual may possess both female and male reproductive systems. Such species are called monoecious ("one house") or hermaphroditic.
^Kokko H, Jennions M (2012). "Sex differences in parental care". In Royle NJ, Smiseth PT, Kölliker M (eds.). The Evolution of Parental Care. Oxford University Press. p. 103. ISBN978-0-19-969257-6. The answer is that there is an agreement by convention: individuals producing the smaller of the two gamete types – sperm or pollen – are males, and those producing larger gametes – eggs or ovules – are females.
^Avise JC (2011). "Two sexes in one". Hermaphroditism: A Primer on the Biology, Ecology, and Evolution of Dual Sexuality. Columbia University Press. pp. 1–7. ISBN978-0-231-52715-6. Retrieved 18 September 2020.
^Moore D, Robson JD, Trinci AP (2020). 21st Century guidebook to fungi (2 ed.). Cambridge University Press. pp. 211–228. ISBN978-1-108-74568-0.
^Kumar R, Meena M, Swapnil P (2019). "Anisogamy". In Vonk J, Shackelford T (eds.). Encyclopedia of Animal Cognition and Behavior. Cham: Springer International Publishing. pp. 1–5. doi:10.1007/978-3-319-47829-6_340-1. ISBN978-3-319-47829-6. Anisogamy can be defined as a mode of sexual reproduction in which fusing gametes, formed by participating parents, are dissimilar in size.
^Brandeis M (May 2018). "New-age ideas about age-old sex: separating meiosis from mating could solve a century-old conundrum". Biological Reviews of the Cambridge Philosophical Society. 93 (2): 801–810. doi:10.1111/brv.12367. PMID28913952.
^Hörandl E (June 2024). "Apomixis and the paradox of sex in plants". Annals of Botany. 134 (1): 1–18. doi:10.1093/aob/mcae044. PMC 11161571. PMID38497809.
^Yoshimura A (2005). "Karyotypes of two American field crickets: Gryllus rubens and Gryllus sp. (Orthoptera: Gryllidae)". Entomological Science. 8 (3): 219–222. doi:10.1111/j.1479-8298.2005.00118.x. S2CID84908090.
^Janzen FJ, Phillips PC (November 2006). "Exploring the evolution of environmental sex determination, especially in reptiles". Journal of Evolutionary Biology. 19 (6): 1775–1784. doi:10.1111/j.1420-9101.2006.01138.x. PMID17040374.
^González EJ, Martínez-López M, Morales-Garduza MA, García-Morales R, Charruau P, Gallardo-Cruz JA (September 2019). "The sex-determination pattern in crocodilians: A systematic review of three decades of research". The Journal of Animal Ecology. 88 (9): 1417–1427. Bibcode:2019JAnEc..88.1417G. doi:10.1111/1365-2656.13037. PMID31286510.
^Davis DL, Gottlieb MB, Stampnitzky JR (April 1998). "Reduced ratio of male to female births in several industrial countries: a sentinel health indicator?". JAMA. 279 (13): 1018–1023. doi:10.1001/jama.279.13.1018. PMID9533502.
^Whitfield J (June 2004). "Everything you always wanted to know about sexes". PLOS Biology. 2 (6): e183. doi:10.1371/journal.pbio.0020183. PMC423151. PMID15208728. One thing biologists do agree on is that males and females count as different sexes. And they also agree that the main difference between the two is gamete size: males make lots of small gametes—sperm in animals, pollen in plants—and females produce a few big eggs.
^Dawkins R (2016). The Selfish Gene. Oxford University Press. pp. 183–184. ISBN978-0-19-878860-7. However, there is one fundamental feature of the sexes which can be used to label males as males, and females as females, throughout animals and plants. This is that the sex cells or 'gametes' of males are much smaller and more numerous than the gametes of females. This is true whether we are dealing with animals or plants. One group of individuals has large sex cells, and it is convenient to use the word female for them. The other group, which it is convenient to call male, has small sex cells. The difference is especially pronounced in reptiles and in birds, where a single egg cell is big enough and nutritious enough to feed a developing baby for. Even in humans, where the egg is microscopic, it is still many times larger than the sperm. As we shall see, it is possible to interpret all the other differences between the sexes as stemming from this one basic difference.
^Drees BM, Jackman J (1999). "Southern black widow spider". Field Guide to Texas Insects. Houston, Texas: Gulf Publishing Company. Archived from the original on 31 August 2003. Retrieved 8 August 2012 – via Extension Entomology, Insects.tamu.edu, Texas A&M University.
^Stuart-Smith J, Swain R, Stuart-Smith R, Wapstra E (2007). "Is fecundity the ultimate cause of female-biased size dimorphism in a dragon lizard?". Journal of Zoology. 273 (3): 266–272. doi:10.1111/j.1469-7998.2007.00324.x.
^Shaw AJ (2000). "Population ecology, population genetics, and microevolution". In Shaw AJ, Goffinet B (eds.). Bryophyte Biology. Cambridge: Cambridge University Press. pp. 379–380. ISBN978-0-521-66097-6.
^ abSchuster RM (1984). "Comparative Anatomy and Morphology of the Hepaticae". New Manual of Bryology. Vol. 2. Nichinan, Miyazaki, Japan: The Hattori botanical Laboratory. p. 891.
^Crum HA, Anderson LE (1980). Mosses of Eastern North America. Vol. 1. New York: Columbia University Press. p. 196. ISBN978-0-231-04516-2.
^O'Halloran K (2020). Sexual orientation, gender identity and international human rights law: common law perspectives. London. pp. 22–28, 328–329. ISBN978-0-429-44265-0. OCLC1110674742.{{cite book}}: CS1 maint: location missing publisher (link)
Arnqvist G, Rowe L (2005). Sexual conflict. Princeton University Press. ISBN978-0-691-12217-5.
Ellis H (1933). Psychology of Sex. London: W. Heinemann Medical Books. N.B.: One of many books by this pioneering authority on aspects of human sexuality.
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Ne pas confondre avec la république autonome d'Abkhazie, reconnue internationalement. République d'Abkhazie(ab) Аԥсны Аҳәынҭқарра (ru) Республика Абхазия Drapeau de l'Abkhazie Armoiries de l'Abkhazie Hymne Aiaaira Administration Forme de l'État République semi-présidentielle et unitaire Revendiqué par Géorgie (république autonome d'Abkhazie) Reconnu par Russie, Nicaragua, Venezuela, Nauru et Syrie Président Aslan Bjania Premier ministre Alexand…
Edition of USA college basketball tournament 2007 NCAA Division Imen's basketball tournamentSeason2006–07Teams65Finals siteGeorgia DomeAtlanta, GeorgiaChampionsFlorida Gators (2nd title, 3rd title game,4th Final Four)Runner-upOhio State Buckeyes (5th title game,9th Final Four)SemifinalistsGeorgetown Hoyas (5th Final Four)UCLA Bruins (17th Final Four)Winning coachBilly Donovan (2nd title)MOPCorey Brewer (Florida)Attendance696,992Top scorerRon Lewis (Ohio State)(108 points) NCAA Division I m…
Weekly magazine covering American daytime soap operas Soap Opera DigestDebut issue (November 1975), featuring the cast of Love of LifeEditorial DirectorStephanie SloaneStaff writersMara LevinskyDevin OwensCategoriesEntertainmentFrequencyWeeklyTotal circulation(Jul 2023)43,743[1]FounderAngela Shapiro and Jerome ShapiroFirst issueNovember 1975Final issueNovember 2023CompanyAmerican Media, Inc.CountryUSABased inNew York CityLanguageEnglishWebsiteSoapOperaDigest.comISSN0164-3584 Soap Opera D…
Pour les articles homonymes, voir Ordre du Mérite militaire. Ordre du Mérite militaireMilitärverdienstorden Ordre du Mérite militaire 4e Classe avec glaives Décernée par Royaume de Bavière Type Médaille de mérite Éligibilité Militaires et civils Décerné pour mérite exceptionnel et extraordinaire Chiffres Date de création 19 juillet 1866 Dernière attribution Dissout en 1947 Ruban de l'Ordre du Mérite militaire modifier L'ordre du Mérite militaire de Bavière a été fondé…
Questa voce o sezione sull'argomento competizioni cestistiche non cita le fonti necessarie o quelle presenti sono insufficienti. Puoi migliorare questa voce aggiungendo citazioni da fonti attendibili secondo le linee guida sull'uso delle fonti. National Basketball Association 1999Dettagli della competizioneSport Pallacanestro OrganizzatoreNBA Periodo5 febbraio 1999 —25 giugno 1999 Squadre29 (in 4 gironi) VerdettiTitolo East N.Y. Knicks Titolo West San Antonio Spurs Campion…
Sprint race This article is about the 100 metres race. For lengths on the order of magnitude of 100 metres, see Orders of magnitude (length) § 1 hectometre. Athletics100 metresStart of the men's 100 metres final at the2012 Olympic Games in LondonWorld recordsMen Usain Bolt (JAM) 9.58 (2009)Women Florence Griffith-Joyner (USA) 10.49[a] (1988)Short track world recordsMen Usain Bolt (JAM) 9.98 (2014)Women Marita Koch (GDR) 11.15 (1980)Olympic re…
National park in New South Wales Dorrigo National ParkNew South WalesIUCN category II (national park) View from the Skywalk, Dorrigo National ParkDorrigo National ParkNearest town or cityDorrigoCoordinates30°20′53″S 152°49′19″E / 30.34806°S 152.82194°E / -30.34806; 152.82194Established1 October 1967 (1967-10-01)Area119 km2 (45.9 sq mi)Managing authoritiesNational Parks and Wildlife Service (New South Wales)WebsiteDorrigo National …
Song written for the 1981 musical Cats MemorySong by Andrew Lloyd Webberfrom the album Cats: Complete Original Broadway Cast Recording Released1981GenreShow tuneComposer(s)Andrew Lloyd WebberLyricist(s)Trevor Nunn Memory is a show tune composed by Andrew Lloyd Webber, with lyrics by Trevor Nunn based on poems by T. S. Eliot. It was written for the 1981 musical Cats, where it is sung primarily by the character Grizabella as a melancholic remembrance of her glamorous past and as a plea for accepta…
Spanish football manager (born 1971) In this Spanish name, the first or paternal surname is Emery and the second or maternal family name is Etxegoien. Unai Emery Emery coaching Arsenal in 2019Personal informationFull name Unai Emery Etxegoien[1]Date of birth (1971-11-03) 3 November 1971 (age 52)[1]Place of birth Hondarribia, SpainHeight 1.80 m (5 ft 11 in)[1]Position(s) MidfielderTeam informationCurrent team Aston Villa (head coach)Youth career…
Сейсмический глубинный разрезСейсморазвѐдка — раздел разведочной геофизики, основанный на регистрации искусственно возбуждаемых упругих волн и извлечении из них полезной геолого-геофизической информации[1]. Зародилась в начале 1920-х годов[1]. При помощи сейсмора…
Sir Timothy LaurenceLaurence pada 2014Lahir1 Maret 1955 (umur 69)Camberwell, London,InggrisPengabdianBritania RayaDinas/cabangAngkatan Laut KerajaanLama dinas1973–2011PangkatLaksamana madyaKomandanKepala Eksekutif, Defence Estates (2007–10)HMS Montrose (1996)HMS Cumberland (1995– 96)HMS Boxer (1990–92)HMS Cygnet (1982–83)Perang/pertempuranIntervensi NATO di Bosnia dan HerzegovinaPenghargaanKnight Commander of the Royal Victorian OrderCompanion of the Order of t…
Âu Cơ Statue de Âu Cơ au temple de Hùng, le parc de Tao Đàn, à Hồ Chí Minh. Naissance 2825 av. J-C. Décès 2520 av. J-C. modifier Âu Cơ (Chữ Hán : 嫗姬 ; API : [əu˧ kəː˧]) est, selon le mythe de la création du peuple vietnamien, une fée immortelle des neiges des montagnes qui épousa Lạc Long Quân (« Roi-dragon de Lạc »), et donna naissance à un sac d'œufs qui fit éclore en une centaine d'enfants connus sous le nom de Bách…
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