In animals Mammals , the hybrid offspring of a
cougar and a
leopard, two cats belonging to different
subfamilies. Familiar examples of
equid hybrids are the mule, a cross between a female horse and a male donkey, and the hinny, a cross between a female donkey and a male horse. Pairs of complementary types like the mule and hinny are called reciprocal hybrids.
Polar bears and
brown bears are another case of a hybridizing species pairs, and
introgression among non-sister species of bears appears to have shaped the
Ursidae family tree. Among many other mammal crosses are
hybrid camels, crosses between a
bactrian camel and a
dromedary. There are many examples of
felid hybrids, including the
liger. The oldest-known animal hybrid bred by humans is the
kunga equid hybrid produced as a draft animal and status symbol 4,500 years ago in
Umm el-Marra, present-day
Syria. calf, born of the mating of a male
bottlenose dolphin and a first-generation wolphin female (herself a hybrid of a bottlenose dolphin and a
false killer whale). The first known instance of hybrid speciation in marine mammals was discovered in 2014. The
clymene dolphin (
Stenella clymene) is a hybrid of two Atlantic species, the
spinner and
striped dolphins. In 2019, scientists confirmed that a skull found 30 years earlier was a hybrid between the
beluga whale and
narwhal, dubbed the
narluga.
Birds Hybridization between species is common in birds. Hybrid birds are purposefully bred by humans, but hybridization is also common in the wild.
Waterfowl have a particularly high incidence of hybridization, with at least 60% of species known to produce hybrids with another species. Among
ducks,
mallards widely hybridize with many other species, and the genetic relationships between ducks are further complicated by the widespread gene flow between wild and domestic mallards. One of the most common interspecific hybrids in
geese occurs between Greylag and Canada geese (
Anser anser x
Branta canadensis). One potential mechanism for the occurrence of hybrids in these geese is interspecific
nest parasitism, where an egg is laid in the nest of another species to be raised by non-biological parents. The chick imprints upon and eventually seeks a mate among the species that raised it, instead of the species of its biological parents.
Amphibians Among amphibians, Japanese
giant salamanders and Chinese giant salamanders have created hybrids that threaten the survival of Japanese giant salamanders because of competition for similar resources in Japan.
Fish Among fish, a group of about 50 natural hybrids between
Australian blacktip shark and the larger
common blacktip shark was found by Australia's eastern coast in 2012.
Russian sturgeon and
American paddlefish were hybridized in captivity when sperm from the paddlefish and eggs from the sturgeon were combined, unexpectedly resulting in viable offspring. This hybrid is called a
sturddlefish.
Cephalochordates The two genera
Asymmetron and
Branchiostoma are able to produce viable hybrid offspring, even if none have lived into adulthood so far, despite the parents' common ancestor living tens of millions of years ago.
Insects Among insects, so-called
killer bees were accidentally created during an attempt to breed a strain of bees that would both produce more honey and be better adapted to tropical conditions. It was done by crossing a
European honey bee and an
African bee. The
Colias eurytheme and
C. philodice butterflies have retained enough genetic compatibility to produce viable hybrid offspring. Hybrid speciation may have produced the diverse
Heliconius butterflies, but that is disputed. The two closely related harvester ant species
Pogonomyrmex barbatus and
Pogonomyrmex rugosus have evolved to depend on hybridization. When a queen fertilizes her eggs with sperm from males of her own species, the offspring is always new queens. And when she fertilizes the eggs with sperm from males of the other species, the offspring is always sterile worker ants (and because ants are
haplodiploid, unfertilized eggs become males). Without mating with males of the other species, the queens are unable to produce workers, and will fail to establish a colony of their own. File:Zeedonk 800.jpg|A "
zonkey", a zebra/donkey hybrid File:Jaglion.jpg|A "
jaglion", a jaguar/lion hybrid File:Goldfinch Canary hybrid.JPG|A
domestic canary/goldfinch hybrid In plants , is a natural hybrid, popular for street planting. Plant species hybridize more readily than animal species, and the resulting hybrids are fertile more often. Many plant species are the result of hybridization, combined with
polyploidy, which duplicates the chromosomes. Chromosome duplication allows orderly meiosis and so viable seed can be produced.
Plant hybrids are generally given names that include an "×" (not in italics), such as
Platanus × hispanica for the London plane, a natural hybrid of
P. orientalis (oriental plane) and
P. occidentalis (American sycamore). The parent's names may be kept in their entirety, as seen in
Prunus persica × Prunus americana, with the female parent's name given first, or if not known, the parent's names given alphabetically. Plant species that are genetically compatible may not hybridize in nature for various reasons, including geographical isolation, differences in flowering period, or differences in
pollinators. Species that are brought together by humans in gardens may hybridize naturally, or hybridization can be facilitated by human efforts, such as altered flowering period or artificial pollination. Hybrids are sometimes created by humans to produce improved plants that have some of the characteristics of each of the parent species. Much work is now being done with hybrids between crops and their wild relatives to improve disease resistance or
climate resilience for both agricultural and horticultural crops. Some
crop plants are hybrids from different genera (intergeneric hybrids), such as
Triticale, ×
Triticosecale, a wheat–
rye hybrid. Most modern and ancient wheat breeds are themselves hybrids;
bread wheat,
Triticum aestivum, is a hexaploid hybrid of three wild grasses. and
grapefruit (
Citrus ×
paradisi) are hybrids, as are garden herbs such as
peppermint (
Mentha ×
piperita), and trees such as the
London plane (
Platanus ×
hispanica). Among many natural plant hybrids is
Iris albicans, a sterile hybrid that spreads by rhizome division, and
Oenothera lamarckiana, a flower that was the subject of important experiments by
Hugo de Vries that produced an understanding of polyploidy. File:Trilliumhybrid2.jpg|A sterile hybrid between
Trillium cernuum and
T. grandiflorum File:Lily Lilium 'Citronella' Flower.jpg|An ornamental lily hybrid known as
Lilium 'Citronella' Sterility in a non-polyploid 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, which leaves them unable to produce chromosomally balanced
gametes. While that is undesirable in a crop such as wheat, for which growing a crop that produces no seeds would be pointless, it is an attractive attribute in some fruits.
Triploid bananas and
watermelons are intentionally bred because they produce no seeds and are also
parthenocarpic.
In fungi Hybridization between
fungal species is common and well established, particularly in
yeast. Yeast hybrids are widely found and used in human-related activities, such as
brewing and
winemaking. The production of
lager beers for instance are known to be carried out by the yeast
Saccharomyces pastorianus, a
cryotolerant hybrid between
Saccharomyces cerevisiae and
Saccharomyces eubayanus, which allows fermentation at low temperatures.
In humans skull may be a human-
Neanderthal hybrid. There is evidence of hybridization between modern humans and other species of the genus
Homo. In 2010, the
Neanderthal genome project showed that 1–4% of DNA from all people living today, apart from most
Sub-Saharan Africans, is of Neanderthal heritage. Analyzing the genomes of 600 Europeans and East Asians found that combining them covered 20% of the Neanderthal genome that is in the modern human population. Ancient human populations lived and interbred with Neanderthals,
Denisovans, and at least one other
extinct Homo species. Thus, Neanderthal and Denisovan DNA has been incorporated into human DNA by introgression. In 1998, a complete prehistorical skeleton found in
Portugal, the
Lapedo child, had features of both anatomically modern humans and
Neanderthals. Some ancient human skulls with especially large nasal cavities and unusually shaped braincases represent human-Neanderthal hybrids. A 37,000- to 42,000-year-old
human jawbone found in Romania's Oase cave contains traces of Neanderthal ancestry from only four to six generations earlier. All genes from Neanderthals in the current human population are descended from Neanderthal fathers and human mothers. ==Mythology==