Genetic pollution

Genetic pollution, genetic contamination or genetic swamping happens when original set of naturally evolved (wild) region specific genes / of  animals and plants become ized with  and  varieties or with the genes of other nonnative wild species or subspecies from neighboring or far away regions.

Usually genetic pollution i.e. uncontrolled hybridization, and Genetic swamping happens as a result and a consequence of mankind's interaction with natural environment and a lack of foresight but in rare instances it has also been observed happening naturally more commonly in case of closely related subspecies of plants whose ranges overlap forming s making it easier for insects to cross pollinate them.

In most cases nature has its own interspecies genetic barriers to guard against genetic pollution to keep species distinct. When rarely hybridization does occur naturally as in hybrid zones where the ranges of closely related wild species overlap, the hybrid crosses produced, even though they may display (heterosis) in the first generation, are in the long run less  than the two parent species which have evolved over hundreds of thousands of years specializing in exploiting their own particular  in nature. It is extremely rare that the hybrids ever become fitter than the two wild parent species so that may then favor these individuals and it is even rarer that  is ever achieved to lead to the birth of a new species through the process known as.

Endangers wild species and quickens their extinction
Purebred naturally evolved region specific wild species can be threatened with extinction in a big way through the process of Genetic Pollution i.e. uncontrolled hybridization, introgression and Genetic swamping which leads to homogenization or replacement of local genotypes as a result of either a numerical and/or advantage of introduced plant or animal. Nonnative species can bring about a form of extinction of native plants and animals by hybridization and introgression either through purposeful introduction by humans or through habitat modification, bringing previously isolated species into contact. These phenomena can be especially detrimental for rare species coming into contact with more abundant ones where the abundant ones can interbreed with them swamping the entire rarer gene pool creating hybrids thus driving the entire original purebred native stock to complete extinction. Attention has to be focused on the extent of this under appreciated problem that is not always apparent from (outward appearance) observations alone. Some degree of may be a normal, evolutionarily constructive process, and all constellations of genes and genotypes cannot be preserved however, hybridization with or without introgression may, nevertheless, threaten a rare species' existence.

Widespread genetic pollution also leads to weakening of the naturally evolved (wild) region specific gene pool leading to weaker hybrid animals and plants which are not able to cope with natural environs over the long run and fast tracks them towards final.

The of a  or a  is the complete set of unique  that would be found by inspecting the genetic material of every living member of that species or population. A large gene pool indicates extensive, which is associated with robust populations that can survive bouts of intense. Meanwhile, low genetic diversity (see and ) can cause reduced  and an increased chance of  amongst the reducing population of purebred individuals from a species.

Causes
Nowadays, with several domesticated and hybridized animals and plants living in towns and villages in and all around forests which still hold naturally evolved region specific original wild ancestor species and subspecies of their kind, genetic pollution has become a major threat to naturally evolved wild populations and their natural genetic makeup. Wild populations of animals and plants have evolved naturally over millions of years through a process of as apposed to human controlled  or  in  and  for desirable traits from the human point of view. These naturally evolved wild  and region specific  are most adaptable to living in the particular regions of earth where they exist presently. They have scientifically the most endurable and viable genetic makeup to live where they live. Genetic pollution leads to hybridized animals and plants which, even though they may look exactly the same, are not as genetically strong as their naturally evolved region specific wild ancestors who can survive under natural wild conditions indefinitely without any human help or and have high adaptability to local climatic conditions and a high immunity to local natural diseases.

Throughout history with the movement and immigration of people from one part of the world to another, intentionally or unintentionally nonnative species (See: Exotic or and ) have spread creating havoc on indigenous wild animals and plants and local ecosystems. Nonnative species were introduced intentionally into new regions because of aesthetic reasons or for & sport and sometimes for emotional reasons as people missed them in their adopted homelands where they had settled. These nonnative species and subspecies have become another common source of genetic pollution as they readily crossbreed with closely related often much rarer indigenous forms.

In modern times even the national and international have realized how important it is to maintain purebred naturally evolved region specific subspecies of wild animals which may one day have a chance to be reintroduced back and survive in the wild in their original home range. It has now become mandatory for to maintain detailed breeding records of their wild animal stock, keep detailed s and have registered breeding programs. Random hybridization of wild animals with subspecies from different regions was a common practice which plagued all of world's zoos until recently.

Usually genetic pollution happens as a result and a consequence of mankind's activities and interaction with natural environment and a lack of foresight but in rare instances it has also been observed happening naturally more commonly in case of closely related subspecies of plants whose ranges overlap forming s making it easier for insects to cross pollinate them.

Significance to us
Amongst other threats it is also important to give due importance to and guard against genetic pollution so that we can conserve the naturally evolved region specific wild gene stock and genetic makeup of wild animals and wild plants for maintaining the health of natural and the  in general. Scientists now, also consider this naturally evolved to be a valuable source of strong genes which in the future may be used on a continual basis to hybridize domesticated varieties, to make them even stronger and more resistant to climate and diseases, thus leading to an ongoing improvement in our  and  etc. for us humans ourselves.

Examples

 * Native captive in  s till recently were genetically polluted with genes of  confiscated s which had been randomly hybridized with them leading to widespread genetic pollution in the captive Asiatic Lion population. Once discovered this led to the complete shut down of the European  and the American endangered species registered breeding programs  for Asiatic Lions as the founder animals originally imported from India were ascertained to be genetically polluted with the genes of African lions. Since then India has corrected its mistake and now breeds only pure native Asiatic Lions which are  with extinction and has helped revive the European endangered species registered breeding program (EEP) for Asiatic Lions but the American SSP which completely shut down in early 80’s has yet to be revived and receive pure bred Asiatic Lions from India to form a new founder population for breeding in the zoos on the.
 * Wild, specifically in India and South Asia are the ancestor of all Poultry Chickens. These are thought to be facing a serious threat of  because of genetic pollution which is occurring at the edge of forests where domesticated free ranging chickens are commonly kept in bordering villages and towns, these meet and breed with their wild cousins indiscriminately genetically polluting their ancestors.
 * The is facing a serious threat of extinction because of genetic pollution when it comes into contact with common abundant, which live in villages and towns all around forests.  The domesticated animals daily come to graze within forests which have been designated as Wildlife Sanctuaries and National Parks for their very rare wild ancestors and interbreed with them genetically swamping the wild gene pool raising fears that no pure Wild Asian Water Buffalo may be alive today.
 * Many herds of surviving, even though they look exactly the same, were hybridized with genes of beef cattle by landowners in a short-sighted effort to improve their meat quality (see ), leading to widespread genetic pollution in the surviving bisons in America. The current American Bison population has been growing rapidly and is estimated at 350,000, but this is compared to an estimated 60–100 million in the mid-19th century. Most current herds, however are genetically polluted or partly crossbred with cattle hence are in fact what are called ""   ; today there are only four genetically unmixed herds and only one that is also free of : it roams . A founder population from the Wind Cave herd was recently established in  by the.
 * Tara, a hand-reared supposedly Bengal tigress acquired from in  in July 1976 was trained by  and released to the wild in,  with the permission of India’s then Prime Mininster  in an attempt to prove the experts wrong that zoo bred hand reared Tigers can ever be released in the wild with success. In the 1990s, some tigers from Dhudhwa were observed which had the typical appearance of Siberian tigers: white complexion, pale fur, large head and wide stripes. With recent advances in science it was subsequently found that s s have polluted the otherwise pure  gene pool of Dudhwa National Park. It was proved later that Twycross Zoo had been irresponsible and maintained no breeding records and had given India a  Siberian-Bengal Tigress instead. Dudhwa tigers constitute about 1% of India's total wild population, but the possibility exists of this genetic pollution spreading to other tiger groups, at its worst, this could jeopardize the Bengal tiger as a distinct.
 * Release of s worldwide is creating havoc on indigenous waterfowl, unlike wild Mallards these don't  and stay back in the local breeding season and interbreed with indigenous rare wild ducks devastating local populations of closely related species through genetic pollution by producing fertile offspring. Complete hybridization of various species of rare wild duck gene pools could result in the extinction of many indigenous waterfowl. Wild Mallard itself is the ancestor of most s and their naturally evolved wild gene pool gets genetically polluted in turn by the domestic and feral populations.

Conventional hybridization for higher yield, genetic engineering and the resulting loss of biodiversity, a threat to food security
In and,  popularized the use of conventional ization to increase yield many folds by creating "". Often the handful of breeds of plants and animals hybridized originated in developed countries and were further hybridized with local verities, in the rest of the developing world, to create high yield strains resistant to local climate and diseases. Local governments and industry since have been pushing hybridization with such zeal that several of the wild and indigenous breeds evolved locally over thousands of years having high resistance to local extremes in climate and immunity to diseases etc. have already become extinct or are in grave danger of becoming so in the near future. Due to complete disuse because of un-profitability and uncontrolled intentional, compounded with unintentional crosspollination and crossbreeding (genetic pollution) formerly huge gene pools of various wild and indigenous breeds have collapsed causing widespread and genetic pollution resulting in great loss in genetic diversity and biodiversity as a whole.

A (GMO) is an  whose tic material has been  using the  techniques generally known as. 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. represents one currently neglected technology that could prevent the spread of genetic material from GMOs. 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.

It is being said that genetic erosion coupled with genetic pollution is destroying that needed unique base thereby creating an unforeseen hidden crisis which will result in a severe threat to our  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.

Natural barriers to genetic pollution
It is common knowledge that plants can't reproduce with animals, nor can fishes with reptiles or birds with insects and so on. Different species within the same animal or plant kingdoms also can not reproduce with each other (by definition) and are not attracted to each other in the wild for the purpose of reproduction. Species which fall under the same broad families like donkeys and horses or tigers and lions will mate with each other only in captivity and only if raised together from young ones but most interspecies hybrids are born without functioning reproductive systems and hence can not reproduce any further. Common example of the most famous interspecies hybrid created and utilized by man is the cross between donkeys and horses, the which is commonly utilized as a hardy draught animal in rough terrain but mules can not reproduce any further. The term "" ( mulus) was formerly applied to the offspring of any two creatures of different - in modern usage, a "". Mules are almost always (see  for rare cases).

Interspecific hybrids like the mule are bred by mating two species, normally from within the same. The offspring display traits and characteristics of both parents. The offspring of an interspecific cross very often are sterile, this hybrid sterility prevents the movement of genes from one species to the other, keeping both species distinct. Sterility is often attributed to the different number of chromosomes the two species have, for example s have 62, while s have 64 chromosomes, and s and , the offspring thus have 63 chromosomes which cannot evenly divide. Mules, hinnies, and other normally sterile interspecific hybrids cannot produce viable s because the extra chromosome cannot make a homologous pair at, meiosis is disrupted, and viable sperm and eggs are not formed.

Most often other mechanisms are used by plants and animals to keep gametes isolated and species distinct. Species often have different mating or courtship patterns or behavours, the breeding seasons may be distinct and even if mating does occur antigenic reactions to the sperm of other species prevent fertilization or embryo development. The is the first known   that resulted from natural hybridization. Until the discovery of the Lonicera fly, this process was known to occur in nature only among s.