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Information about Hybrid

This article is about a biological term. For other uses, see Hybrid (disambiguation).
In biology, hybrid has two meanings.[1]

The first meaning is the result of interbreeding between two animals or plants of different taxa. Hybrids between different species within the same genus are sometimes known as interspecific hybrids or crosses. Hybrids between different sub-species within a species are known as intra-specific hybrids. Hybrids between different genera are sometimes known as intergeneric hybrids. Extremely rare interfamilial hybrids have been known to occur (such as the guineafowl hybrids).

The second type of "hybrid" are crosses between populations, breeds or cultivars within a single species. This second meaning is often used in plant and animal breeding. In plant and animal breeding, hybrids are commonly produced and selected because they have desirable characteristics not found or inconsistently present in the parent individuals or populations. This rearranging of the genetic material between populations or races is often called hybridization.

Interspecific hybrids

An example of an intraspecific hybrid is a hybrid between a Bengal tiger and an Amur (Siberian) tiger. Interspecific hybrids are bred by mating two species, normally from within the same genus. The offspring display traits and characteristics of both parents. The offspring of an interspecific cross very often are sterile; thus, hybrid sterility prevents the movement of genes from one species to the other, keeping both species distinct.[2] Sterility is often attributed to the different number of chromosomes the two species have, for example donkeys have 62 chromosomes, while horses have 64 chromosomes, and mules and hinnies have 63 chromosomes. Mules, hinnies, and other normally sterile interspecific hybrids cannot produce viable gametes because the extra chromosome cannot make a homologous pair at meiosis, meiosis is disrupted, and viable sperm and eggs are not formed. However, fertility in female mules has been reported with a donkey as the father.[3] Most often other mechanisms are used by plants and animals to keep gametic isolation and species distinction. Species often have different mating or courtship patterns or behavours, the breeding seasons maybe distinct and even if mating does occur antigenic reactions to the sperm of other species prevent fertilization or embryo development. The Lonicera fly is the first known animal species that resulted from natural hybridization. Until the discovery of the Lonicera fly, this process was known to occur in nature only among plants.

While it is possible to predict the genetic composition of a backcross on average, it is not possible to accurately predict the composition of a particular backcrossed individual, due to random segregation of chromosomes. In a species with two pairs of chromosomes, a twice backcrossed individual would be predicted to contain 12.5% of one species' genome (say, species A). However, it may, in fact, still be a 50% hybrid if the chromosomes from species A were lucky in two successive segregations, and meiotic crossovers happened near the telomeres. The chance of this is fairly high, 1/2^(2×2)=1/16 (where the "two times two" comes about from two rounds of meiosis with two chromosomes); however, this probability declines markedly with chromosome number and so the actual composition of a hybrid will be increasingly closer to the predicted composition.

Hybrids are often named by the portmanteau method, combining the names of the two parent species. For example, a zeedonk is a cross between a zebra and a donkey. Since the traits of hybrid offspring often vary depending on which species was mother and which was father, it is traditional to use the father's species as the first half of the portmanteau. For example, a liger is a cross between a male lion and a female tiger, while a tigon is a cross between a male tiger and a female lion.

Hybrids examples:
  • Equid hybrids
  • Mule, a cross of female horse and a male donkey.
  • Hinny, a cross between a female donkey and a male horse.
Mule and Hinny are examples of reciprocal hybrids.
Enlarge picture
A "Zeedonk", a zebra/donkey hybrid
Enlarge picture
A "Liger", a Lion/Tiger hybrid
Enlarge picture
A "Jaglion", a Jaguar/Lion hybrid
Some dog hybrids are becoming increasingly popular and are bred selectively.

Hybrids should not be confused with chimaeras such as the chimera between sheep and goat known as the geep. Wider interspecific hybrids can be made via in vitro fertilization or somatic hybridization, however the resulting cells are not able to develop into a full organism. An example of interspecific hybrid cell lines is the humster (hamster x human) cells.

Hybrid plants

Plant species hybridize more readily than animal species, and the resulting hybrids are more often fertile hybrids and may reproduce, though there still exist sterile hybrids and selective hybrid elimination where the offspring are less able to survive and are thus eliminated before they can reproduce. A number of plant species are the result of hybridization and polyploidy with many plant species easily cross pollinating and producing viable seeds, the distinction between each species is often maintained by geographical isolation or differences in the flowering period. Animals, being more mobile, have developed complex mating behaviors that maintain the species boundary and when hybrids do occur, natural selection tends to weed them out of the population since these hybrids generally can not find mates that will accept them or they are less adapted and fit for survival in their habitats. Since plants hybridize frequently without much work, they are often created by humans in order to produce improved plants. These improvements can include the production of more or improved; seeds, fruits or other plant parts for consumption, or to make a plant more winter or heat hardy or improve its growth and/or appearance for use in horticulture. Much work is now being done with hybrids to produce more disease resistant plants for both agricultural and horticultural crops. In many groups of plants hybridization has been used to produce larger and more showy flowers and new flower colors. Many plant genera and species have their origins in polyploidy. Autopolyploidy resulting from the sudden multiplication in the number of chromosomes in typical normal populations caused by unsuccessful separation of the chromosomes during meiosis. Tetraploids or plants with four sets of chromosomes are common in a number of different groups of plants and over time these plants can differentiate into distinct species from the normal diploid line. In Oenothera lamarchiana the diploid species has 14 chromosomes, this species has spontaneously given rise to plants with 28 chromosomes that have been given the name Oenthera gigas. Tetraploids can develop into a breeding population within the diploid population and when hybrids are formed with the diploid population the resulting offspring tend to be sterile triploids, thus effectively stopping the intermixing of genes between the two groups of plants(unless the diploids, in rare cases, produce unreduced gametes) Another form of polyploidy called allopolyploidy occurs when two different species mate and produce hybrids. Usually the typical chromosome number is doubled in successful allopolyploid species, with four sets of chromosomes the genotypes can sort out to form a complete diploid set from the parent species, thus they can produce fertile offspring that can mate and reproduce with each other but can not back-cross with the parent species. Allopolyploidy in plants often gives them a condition called hybrid vigour, which results in plants that are larger and stronger growing than either of the two parent species. Allopolyploids are often more aggressive growing and can be invaders of new habitats. Sterility in a hybrid is often a result of chromosome number; if parents are of differing chromosome pair number, the offspring will have an odd number of chromosomes, leaving them unable to produce chromosomally balanced gametes.[4] While this is a negative in a crop such as wheat, when growing a crop which produces no seeds would be pointless, it is an attractive attribute in some fruits. Bananas and seedless watermelon, for instance, are intentionally bred to be triploid, so that they will produce no seeds. Many hybrids are created by humans, but natural hybrids occur as well. Plant hybrids, especially, are often stronger than either parent variety, a phenomenon which when present is known as hybrid vigour (heterosis) or heterozygote advantage.[5] Plant breeders make use of a number of techniques to produce hybrids, including line breeding and the formation of complex hybrids.

Some plant hybrids include: Some natural hybrids are: Some horticultural hybrids:
  • Dianthus ×allwoodii, is a hybrid between Dianthus caryophyllus × Dianthus plumarius. This is an "interspecific hybrid" or hybrid between two species in the same genus.
  • ×Heucherella tiarelloides, or Heuchera sanguinea × Tiarella cordifolia is an "intergeneric hybrid" a hybrid between two different genera.

Hybrids in nature

Hybridisation between two closely related species is actually a common occurrence in nature. Many hybrid zones are known where the ranges of two species meet, and hybrids are continually produced in great numbers. These hybrid zones are useful as biological model systems for studying the mechanisms of speciation (Hybrid speciation). Recently DNA analysis of a bear shot by a hunter in the North West Territories confirmed the existence of naturally occurring and fertile polar bear/grizzly bear hybrids.[6] There have been reports of similar supposed hybrids, but this is the first to be confirmed by DNA analysis. In 1943, Clara Helgason described a male bear shot by hunters during her childhood. It was large and off-white with hair all over its paws. The presence of hair on the bottom of the feet suggests it was a natural hybrid of Kodiak and Polar bear.

In some species, hybridisation plays an important role in evolutionary biology. While most hybrids are disadvantaged as a result of genetic incompatibility, the fittest survive, regardless of species boundaries. They may have a beneficial combination of traits allowing them to exploit new habitats or to succeed in a marginal habitat where the two parent species are disadvantaged. This has been seen in experiments on sunflower species. Unlike mutation, which affects only one gene, hybridisation creates multiple variations across genes or gene combinations simultaneously. Successful hybrids could evolve into new species within 50-60 generations. This leads some scientists to speculate that life is a genetic continuum rather than a series of self-contained species.

Where there are two closely related species living in the same area, less than 1 in 1000 individuals are likely to be hybrids because animals rarely choose a mate from a different species (otherwise species boundaries would completely break down). In some closely related species there are recognized "hybrid zones".

Some species of Heliconius butterflies exhibit dramatic geographical polymorphism of their wing patterns, which act as aposematic signals advertising their unpalatability to potential predators. Where different-looking geographical races abut, inter-racial hybrids are common, healthy and fertile. Heliconius hybrids can breed with other hybrid individuals and with individuals of either parental race. These hybrid backcrosses are disadvantaged by natural selection because they lack the parental form's warning coloration, and are therefore not avoided by predators.

A similar case in mammals is hybrid White-Tail/Mule Deer. The hybrids don't inherit either parent's escape strategy. White-tail Deer dash while Mule Deer bound. The hybrids are easier prey than the parent species.

In birds, healthy Galapagos Finch hybrids are relatively common, but their beaks are intermediate in shape and less efficient feeding tools than the specialised beaks of the parental species so they lose out in the competition for food. Following a major storm in 1983, the local habitat changed so that new types of plants began to flourish, and in this changed habitat, the hybrids had an advantage over the birds with specialised beaks - demonstrating the role of hybridization in exploiting new ecological niches. If the change in environmental conditions is permanent or is radical enough that the parental species cannot survive, the hybrids become the dominant form. Otherwise, the parental species will re-establish themselves when the environmental change is reversed, and hybrids will remain in the minority.

Natural hybrids may occur when a species is introduced into a new habitat. In Britain, there is hybridisation of native European Red Deer and introduced Chinese Sika Deer. Conservationists want to protect the Red Deer, but evolution favors the Sika Deer genes. There is a similar situation with White-headed Ducks and Ruddy Ducks.

Genetic pollution and Extinction

Main article: Genetic pollution


Regionally developed ecotypes can be threatened with extinction when new genes are introduced that alter that ecotype, this is sometimes called Genetic Pollution.[7] Hybridization and introgression of new genetic material can lead to the replacement of local genotypes when the hybrids with new genes are more fit and have breeding advantages over the indigenous ecotype or species.[8] Nonnative species can alter native plants and animals by hybridization and genetic integration. These genetic changes can result from the purposeful or accidental introduction of non native genotypes by humans or through habitat modification, bringing previously isolated species into contact. Genetic mixing can be especially detrimental for rare species in isolated habitats, the resulting hybrids might replace the original species genotype, ultimately effecting the population to such a degree than none of the originally genetically distinct population remains.[9][10].

Effect on biodiversity and food security

Main articles: biodiversity and food security


In agriculture and animal husbandry, the green revolutions use of conventional hybridization increased yields by creating "high-yielding varieties". Local governments and industry have been pushing hybridization, effecting the use and genetic distinctiveness of several wild and indigenous breeds that have been selected locally. Often the indigenous breeds after many years of selection have developed higher resistance to local extremes in climate and immunity to local diseases etc. The replacement of locally indigenous breeds, compounded with unintentional cross-pollination and crossbreeding (genetic pollution), has reduced the gene pools of various wild and indigenous breeds resulting in genetic erosion and genetic pollution and the loss of genetic diversity. [11]

A genetically modified organism (GMO) is an organism whose genetic material has been altered using the genetic engineering techniques generally known as recombinant DNA technology. Genetic Engineering today has become another serious and alarming cause of genetic pollution because artificially created and genetically engineered plants and animals in laboratories, which could never have evolved in nature even with conventional hybridization, can live and breed on their own and what is even more alarming interbreed with naturally evolved wild varieties. Genetically Modified (GM) crops today have become a common source for genetic pollution, not only of wild varieties but also of other domesticated varieties derived from relatively natural hybridization.[12][13][14][15][16]

It is being said that genetic erosion coupled with genetic pollution is destroying that needed unique genetic base thereby creating an unforeseen hidden crisis which will result in a severe threat to our food security for the future when diverse genetic material will cease to exist to be able to further improve or hybridize weakening food crops and livestock against more resistant diseases and climatic changes.[17]

Limiting factors

A number of conditions exist that limit the success of hybridization, the most obvious is great genetic diversity between most species. But in animals and plants that are more closely related hybridization barriers include morphological differences, differing times of fertility, mating behaviors and cues, physiological rejection of sperm cells or the developing embryo.

In plants, barriers to hybridization include blooming period differences, different pollinator vectors, inhibition of pollen tube growth, somatoplastic sterility, cytoplasmic-genic male sterility and structural differences of the chromosomes.[18]

Mythical and legendary hybrids

In ancient folktales many fictional hybrids have become part of the mythological narrative. Many mythological creatures are simple composites of known animals: Some mythological hybrids were said to be the result of two species mixing.
  • Centaur - the offspring of Centaurus and the mares of Thessaly. Has the body of a horse with its neck and head replaced by the torso and head of a man.
  • Harpy - the torso of a woman with the wings and feet of a bird.
  • Hippogriff - the offspring of a griffin and a horse, typically a male griffin and a mare.
  • Minotaur - the offspring of Pasiphaë and a white bull. Has the body of a man and the head of a bull.
  • Nephilim - the offspring of a fallen angel and human woman.

Etymology

The word has a Latin root: hybrida (or ibrida) which meant "the offspring of a tame sow and wild boar". The term entered into popular use in English in the 19th Century, though examples of its use have been found from the early 17th Century.[19]

See also



References

1. ^ Keeton, William T. 1980. Biological science. New York: Norton. ISBN 0-393-95021-2 page A9.
2. ^ ISBN 0-393-95021-2 Page 800
3. ^ McBeath S, Tan PP, Bai Q, Speed RM. (1988).
4. ^ [1]
5. ^ Evaluating the utility of Arabidopsis thaliana as a model for understanding heterosis in hybrid crops Journal Euphytica Publisher Springer Netherlands ISSN 0014-2336 (Print) 1573-5060 (Online) Issue Volume 156, Numbers 1-2 / July, 2007 DOI 10.1007/s10681-007-9362-1 Pages 157-171
6. ^ "Hybrid bear shot dead in Canada", BBC News, 2006-05-13. 
7. ^ Hybridization and Introgression; Extinctions; from "The evolutionary impact of invasive species; by H. A. Mooney and E. E. Cleland" Proc Natl Acad Sci U S A. 2001 May 8; 98(10): 5446–5451. doi: 10.1073/pnas.091093398. Proc Natl Acad Sci U S A, v.98(10); May 8, 2001, The National Academy of Sciences
8. ^ Glossary: definitions from the following publication: Aubry, C., R. Shoal and V. Erickson. 2005. Grass cultivars: their origins, development, and use on national forests and grasslands in the Pacific Northwest. USDA Forest Service. 44 pages, plus appendices.; Native Seed Network (NSN), Institute for Applied Ecology, 563 SW Jefferson Ave, Corvallis, OR 97333, USA
9. ^ EXTINCTION BY HYBRIDIZATION AND INTROGRESSION; by Judith M. Rhymer , Department of Wildlife Ecology, University of Maine, Orono, Maine 04469, USA; and Daniel Simberloff, Department of Biological Science, Florida State University, Tallahassee, Florida 32306, USA; Annual Review of Ecology and Systematics, November 1996, Vol. 27, Pages 83-109 (doi: 10.1146/annurev.ecolsys.27.1.83), [2]
10. ^ Genetic Pollution from Farm Forestry using eucalypt species and hybrids; A report for the RIRDC/L&WA/FWPRDC; Joint Venture Agroforestry Program; by Brad M. Potts, Robert C. Barbour, Andrew B. Hingston; September 2001; RIRDC Publication No 01/114; RIRDC Project No CPF - 3A; ISBN 0 642 58336 6; ISSN 1440-6845; Australian Government, Rural Industrial Research and Development Corporation
11. ^ “Genetic Pollution: The Great Genetic Scandal”; Devinder Sharma., [3]
12. ^ THE YEAR IN IDEAS: A TO Z.; Genetic Pollution; By MICHAEL POLLAN, The New York Times, December 9, 2001
13. ^ Dangerous Liaisons? When Cultivated Plants Mate with Their Wild Relatives; by Norman C. Ellstrand; The Johns Hopkins University Press, 2003; 268 pp. hardcover , $ 65; ISBN 0-8018-7405-X. Book Reviewed in: Hybrids abounding; Nature Biotechnology 22, 29 - 30 (2004) doi:10.1038/nbt0104-29; Reviewed by: Steven H Strauss & Stephen P DiFazio; 1 Steve Strauss is in the Department of Forest Science, Oregon State University, Corvallis, Oregon 97331-5752, USA. steve.strauss@oregonstate.edu; 2 Steve DiFazio is at Oak Ridge National Laboratory, Bldg. 1059, PO Box 2008, Oak Ridge, Tennessee 37831-6422 USA. difazios@ornl.gov.
14. ^ “Genetic pollution: Uncontrolled spread of genetic information (frequently referring to transgenes) into the genomes of organisms in which such genes are not present in nature.” Zaid, A. et al. 1999. Glossary of biotechnology and genetic engineering. FAO Research and Technology Paper No. 7. ISBN 92-5-104369-8
15. ^ “Genetic pollution: Uncontrolled escape of genetic information (frequently referring to products of genetic engineering) into the genomes of organisms in the environment where those genes never existed before.” Searchable Biotechnology Dictionary. University of Minnesota., [4]
16. ^ “Genetic pollution: Living organisms can also be defined as pollutants, when a non-indigenous species (plant or animal) enters a habitat and modifies the existing equilibrium among the organisms of the affected ecosystem (sea, lake, river). Non-indigenous, including transgenic species (GMOs), may bring about a particular version of pollution in the vegetable kingdom: so-called genetic pollution. This term refers to the uncontrolled diffusion of genes (or transgenes) into genomes of plants of the same type or even unrelated species where such genes are not present in nature. For example, a grass modified to resist herbicides could pollinate conventional grass many miles away, creating weeds immune to the most widely used weed-killer, with obvious consequences for crops. Genetic pollution is at the basis of the debate on the use of GMOs in agriculture.” The many facets of pollution; Bologna University web site for Science Communication. The Webweavers: Last modified Tue, 20 Jul 2005
17. ^ “Genetic Pollution: The Great Genetic Scandal”; Devinder Sharma can be contacted at: 7 Triveni Apartments, A-6 Paschim Vihar, New Delhi-110 063, India. Email: dsharma@ndf.vsnl.net.in. CENTRE FOR ALTERNATIVE AGRICULTURAL MEDIA (CAAM)., [5]
18. ^ Barriers to hybridization of Solanum bulbocastanumDun. and S. VerrucosumSchlechtd. and structural hybridity in their F1 plants Journal Euphytica Publisher Springer Netherlands ISSN 0014-2336 (Print) 1573-5060 (Online) Issue Volume 25, Number 1 / January, 1976 Category Articles DOI 10.1007/BF00041523 Pages 1-10
19. ^ Oxford English Dictionary Online, Oxford University Press 2007.

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Basic topics in
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Topics in population genetics
Key conceptsHardy-Weinberg lawgenetic linkagelinkage disequilibriumFisher's fundamental theoremneutral theory
Selectionnaturalsexualartificialecological
Effects of selection on genomic variationgenetic hitchhikingbackground selection
Genetic driftsmall population sizepopulation bottleneckfounder effectcoalescence
FoundersR.A. FisherJ. B. S. HaldaneSewall Wright
Related topicsevolutionmicroevolutionevolutionary game theoryfitness landscapegenetic genealogy
List of evolutionary biology topics
Hybrid may mean the combination of two or more different entities or things, aimed at achieving a particular objective or goal.

Science

  • In biology, Hybrids and F1 hybrids refer to the offspring resulting from cross-breeding of different species.

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Biology (from Greek: βίος, bio, "life"; and λόγος, logos, "knowledge"), also referred to as the biological sciences, is the scientific study of life.
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For the journal, see .
A taxon (plural taxa), or taxonomic unit, is a name designating an organism or group of organisms. A taxon is assigned a rank and can be placed at a particular level in a systematic hierarchy reflecting evolutionary
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Numididae
de Sélys Longchamps, 1842

Genera
  • Agelastes
  • Numida
  • Guttera
  • Acryllium


The guineafowl
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breed is a domesticated subspecies or infrasubspecies of an animal. For a type to be recognised as a breed, there should be a viable true-breeding population. The term may also be used as a verb, meaning action intended to produce offspring.
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cultivar is a cultivated plant that has been selected and given a unique name because it has desirable characteristics (decorative or useful) that distinguish it from otherwise similar plants of the same species. When propagated it retains those characteristics.
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genus (plural: genera) is part of the Latinized name for an organism. It is a name which reflects the classification of the organism by grouping it with other closely similar organisms.
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Figure 1: A representation of a condensed eukaryotic chromosome, as seen during cell division.]] A chromosome is a single large macromolecule of DNA, and constitutes a physically organized form of DNA in a cell.
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H.O.R.S.E. is a form of poker commonly played at the high stakes tables of casinos. It consists of rounds of play cycling among:
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For other uses of "Mule", see Mule (disambiguation).


MULE is the MULtilingual Enhancement to GNU Emacs.

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E. caballus + asinus

Binomial name
Equus hinny?

A hinny is the offspring of a male horse and a female donkey (jennet or jenny).
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A gamete (from Ancient Greek γαμετης; translated gamete = wife, gametes = husband) is a cell that fuses with another gamete during fertilisation (conception) in organisms that reproduce sexually.
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meiosis (IPA: /maɪˈəʊsɪs/) is the process by which one diploid eukaryotic cell divides to generate four haploid cells often called gametes.
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R. mendax × zephyria

Binomial name
Rhagoletis mendax × zephyria

The Lonicera fly, a hybrid in the genus Rhagoletis
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species is one of the basic units of biological classification. A species is often defined as a group of organisms capable of interbreeding and producing fertile offspring.
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Plantae
Haeckel, 1866[1]

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Green algae
  • Chlorophyta
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Land plants (embryophytes)
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A portmanteau (IPA: /pɔərtˈmæntoʊ/) is a word or morpheme that fuses two or more words or word parts to give a combined or loaded meaning.
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E. zebra + asinus

Binomial name
Equus zeedonk?

A zeedonk (also spelled zedonk) (also known as zebrass, zebronkey, zonkey, zebadonk, zenkey, zebrinny, or deebra
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Hippotigris

Species

Equus zebra
Equus hartmannae
Equus quagga
Equus grevyi

The Zebra is a member of the horse family, native to eastern and southern Africa.
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The liger is a hybrid cross between a male lion and a female tiger. It is denoted scientifically as Panthera tigris × Panthera leo.[1] A liger resembles a lion with diffused stripes.
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P. leo

Binomial name
Panthera leo
(Linnaeus, 1758)

Distribution of lions in Africa


Synonyms
Felis leo
(Linnaeus, 1758)

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P. tigris

Binomial name
Panthera tigris
(Linnaeus, 1758)

Historical distribution of tigers (pale yellow) and 2006 (green).

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Tigon or Tigron is a hybrid cross between a female lion and a male tiger. The tigon is not currently as common as the converse hybrid, the liger; however, in the late 19th and early 20th centuries, tigons were more common than ligers.
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