Fox Life
200px
200px
Launched	May 13, 2004 (Italy) May 19, 2005 (Portugal) September 8, 2005 (Bulgaria) December 14, 2005 (Japan) June 2006 (Latin America) September 13, 2006 (Turkey) January 7, 2007 (Poland) November 9, 2007 (Regional version shown in Slovenia, Croatia, Bosnia and Herzegovina, Serbia, Montenegro, Macedonia and Albania), (France) April 14, 2008 (CIS countries & Baltics) December 1, 2008, (Greece) September 7, 2009, (the Netherlands) and (Belgium) incl HD version October 1, 2011 (Latvia)
Closed	December 31, 2009 (France) September 30, 2011 (Japan)
Owned by	Fox Broadcasting Company Fox International Channels Italy (Italy) Fox International Channels Portugal (Portugal)
Slogan	Identify yourself.
Replaced by	Fox bs238 (Japan)
Sister channel(s)	Fox Crime, Fox, Fox Sports, FX, FOX:NEXT, FOX Traveller, Speed
Website	Fox Life HD Japan Italy Poland France Portugal Bulgaria Croatia Latin America Turkey Russia Serbia Greece the Netherlands and Belgium (Benelux)
Availability
Satellite
Dish (México)	Channel 208
Sky (México)	Channel 217
Cable
UPC Poland	Channel 488 Channel 489 (HD)

Fox Life is a television network, launched by the Fox Broadcasting Company, which airs across Latin America, Europe (also available in HD, starting by February 2012, in Italy) and Japan (changed its name to FOX bs238 in October 2011). Its basic programming include numerous television series, sitcoms and movies, among others, which includes some original programming in certain regions. It was launched in Italy on May 13, 2004, Portugal on May 19, 2005 and in Bulgaria on September 8, 2005. For Latin America, it started in January 2006, when it was launched in Brazil. It was launched in the Netherlands and Belgium on September 7, 2009. The channel also has versions in other countries around Europe.

This channel is not available in South East Asia. India is the only South Asian country where it is scheduled to be launched. Fox India Ltd has applied downlink license for Fox Life along with Fox Crime, FX and Baby TV to the Information & Broadcasting Ministry of India.^[1]

In Latin America the channel aired soaps. It aired Telefe and Record soaps from Brazil and Argentina. Currently, the channel features mostly cooking shows and reality series on the Latin American service. When the current format was launched, it was with the exception of Brazil, where the channel aired, from 8 a.m. to 7 p.m., content from Utilisima and original shows for the local audience, as Bem Simples, and, from 7 p.m. to 8 a.m., reality series seen on the Fox Life service elsewhere in the region (most non-original cooking shows are not seen on the Brazilian service, since the rights are held by GNT). In February 28, 2011, with the launch of the Bem Simples channel in Brazil, all Bem Simples/Utilisima content moved to that channel.

Fox Life for the French-speaking market was discontinued on December 31, 2009. In Japan, the name of Fox Life was changed to FOX bs238 on October 1, 2011.

Programming[link]

• Titanic: Blood and Steel (on Fox Life Bulgaria and Balkans)
• Тя и Той (on Fox Life Bulgaria)
• American Horror Story (on Fox Life Bulgaria and Balkans)
• Revenge (on Fox Life Italy, Bulgaria and Balkans, Baltic and Russia)
• Once Upon a Time (on Fox Life Bulgaria and Balkans, Baltic and Russia)
• 24
• 8 Simple Rules (on Fox Life Bulgaria, Croatia, Latvia, Serbia and Bosnia and Herzegovina)
• 90210 (on Fox Life Portugal and Poland)
• According to Jim (on Fox Life Baltic, Croatia, Bosnia and Herzegovina, Serbia, Slovenia and Portugal)
• Ace of Cakes (on Fox Life Latin America)
• Alias (on Fox Life Portugal)
• Ally McBeal (on Fox Life Bulgaria, Croatia, Bosnia and Herzegovina, Serbia, Slovenia, Poland and Portugal)
• Allo, Allo (on Fox Life Croatia, Slovenia, Serbia, Bosnia and Herzegovina)
• American Idol (on Fox Life Portugal)
• Army Wives (on Fox Life Poland, Italy, Latvia, Baltic and Russia)
• Arrested Development (on Fox Life Bulgaria)
• Battlestar Galactica
• Baywatch
• Beach Girls (on Fox Life France)
• Being Erica (on Fox Life Portugal, Turkey)
• Body of Proof (on Fox Life Italy, Latvia, Baltic and Russia)
• Boston Legal (on Fox Life Bulgaria, Croatia, Bosnia and Herzegovina, Serbia and Turkey)
• Brothers & Sisters (on Fox Life Bulgaria, Baltic, Italy, Latvia, Greece, Poland, Russia, France, Portugal, The Netherlands, Belgium and Serbia)
• Buffy the Vampire Slayer (on Fox Life Bulgaria)
• Beyond the Break (on Fox Life Bulgaria, Serbia and Bosnia and Herzegovina)
• Cane (Fox Life Portugal, Baltic, Latvia)
• Caroline in the City (on Fox Life Bulgaria, Croatia, Bosnia and Herzegovina, Poland and Serbia)
• Cashmere Mafia (on Fox Life Italy, Portugal)
• Castle (on Fox Life Italy, Latvia, Greece, Baltic and Russia)
• China Beach (on Fox Life France)
• Cold Case (on Fox Life Portugal)
• Cold Feet (on Fox Life France)
• Cougar Town (on Fox Life Italy, Baltic, Greece, Bulgaria, Croatia, Bosnia and Herzegovina, Latvia, Serbia, Poland and Russia)
• Coupling (on Fox Life Croatia, Bosnia and Herzegovina and Serbia)
• Courting Alex (on Fox Life France)
• Covert Affairs (on Fox Life Latvia, Baltic and Russia)
• Criminal Minds (on Fox Life Greece)
• Crash (on Fox Life The Netherlands and Belgium)
• Crossing Jordan (on Fox Life Poland, Portugal, Turkey)
• CSI: Crime Scene Investigation (on Fox Life Turkey)
• Cupid (on Fox Life Baltic, Bulgaria, Russia, Latvia, Serbia, Bosnia and Herzegovina)
• Day Break (on Fox Life Greece)
• Days of our Lives (on Fox Life France)
• Desperate Housewives (on Fox Life Baltic, Italy, Bulgaria, Croatia, Bosnia and Herzegovina, Latvia, Poland, Russia, Portugal, Greece and Serbia)
• Dead Like Me (on Fox Life Serbia, Bulgaria)
• Dinner: Impossible (on Fox Life Latin America)
• Dharma & Greg (on Fox Life Italy, Bulgaria, Croatia, Bosnia and Herzegovina, Poland, Serbia and Turkey)
• Dirt (on Fox Life Baltic, Bulgaria, Latvia, Poland, Russia, Greece, Bosnia and Herzegovina and Serbia)
• Dirty Sexy Money (on Fox Life Baltic, Serbia, Bosnia and Herzegovina, Bulgaria, Latvia, Poland, Greece and Russia)
• Easy Money (on Fox Life Serbia, Bosnia and Herzegovina)
• Eli Stone (on Fox Life Poland, Greece, Baltic, Latvia, Portugal and Russia)
• Ellen (on Fox Life Greece and France)
• Entourage (on Fox Life Poland and Serbia)
• ER (on Fox Life Bulgaria, Turkey, Baltic and Russia)
• Everybody Hates Chris (on Fox Life Serbia and South Korea)
• Everybody Loves Raymond (on Fox Life Serbia)
• Everwood (on Fox Life France)
• Fashion House (on Fox Life Poland)
• Fat Actress (on Fox Life The Netherlands and Belgium)
• FlashForward (on Fox Life Baltic, Latvia and Russia)
• Friends (on Fox Life Bulgaria)
• Game of Thrones (on Fox Life Baltic, Latvia and Russia)
• Ghost Whisperer (on Fox Life Bulgaria, Croatia, Bosnia and Herzegovina, Poland, Greece, Serbia, Portugal, Latvia, Baltic and Russia)
• Glee (on Fox Life Portugal, Latvia, Greece and Turkey)
• Gooische Vrouwen (on Fox Life France)
• Green Wing (on Fox Life France)
• Grey's Anatomy (on Fox Life Italy, Bulgaria, Croatia, Bosnia and Herzegovina, Greece, Poland, Baltic, Latvia, Serbia, Russia, Turkey and Portugal)
• Hart to Hart (Fox Life France)
• Happy Endings (Fox Life Serbia, Baltic, Latvia and Russia)
• Head Case (on Fox Life Baltic, Turkey, Serbia, Bosnia and Herzegovina, Latvia, Russia, The Netherlands and Belgium)
• Hidden Palms (on Fox Life Baltic, Lavia, Poland, Turkey and Bulgaria)
• High School Bratz
• High School Glamm
• Highlander: The Series
• Highway to Heaven (on Fox Life France)
• Hope & Faith (on Fox Life Poland, Baltic, Russia, Serbia, Latvia and Portugal)
• Hot in Cleveland (on Fox Life Bulgaria, Italy and Serbia)
• Hotel Malibu (on Fox Life France)
• House M.D. (on Fox Life Bulgaria, Bosnia and Herzegovina and Serbia)
• How I Met Your Mother (on Fox Life Portugal, Serbia and Bulgaria)
• Huff (on Fox Life France, Baltic, Latvia and Russia)
• In Justice (on Fox Life Poland)
• In Plain Sight (on Fox Life Turkey)
• In Treatment (on Fox Life The Netherlands, Turkey and Belgium)
• It's a Man's World (on Fox Life Bulgaria)
• Jake in Progress
• Joey (on Fox Life Bulgaria, Portugal, Serbia, Bosnia and Herzegovina)
• Just Shoot Me (on Fox Life Bulgaria and Serbia)
• Kevin Hill (on Fox Life Baltic, Bulgaria, Poland, Portugal, Greece, Latvia, Serbia, Bosnia and Herzegovina and Russia)
• Kitchen Confidential (on Fox Life Bulgaria, Serbia, Bosnia and Herzegovina)
• Knots Landing (on Fox Life France)
• Ladrón de Corazones
• La Femme Nikita (on Fox Life The Netherlands and Belgium)
• Las Vegas (on Fox Life Poland)
• Less Than Perfect (on Fox Life Serbia)
• Lipstick Jungle (on Fox Life Baltic, Portugal and Russia)
• Los Treinta
• Lost
• Look a Like (on Fox Life Latvia)
• Mad Men (on Fox Life Bulgaria, Serbia, Bosnia and Herzegovina, Baltic, Latvia, Poland, Portugal and Russia)
• Man Up (on Fox Life Latvia, Baltic and Russia)
• Malcolm in the Middle (on Fox Life Bulgaria and Serbia)
• Man vs Food (on Fox Life Latin America)
• Make It or Break It (on Fox Life Greece)
• Married With Children (on Fox Life Bulgaria, Serbia, Bosnia and Herzegovina)
• Matrioshki (on Fox Life Poland)
• Mental (on Fox Life Baltic, Bulgaria, Greece, Poland, Latvia, Turkey, Serbia, Bosnia and Herzegovina)
• Modern Family (on Fox Life Greece and Portugal)
• Mr & Mrs. Smith (on Fox Life France)
• My Wife and Kids (on Fox Life Russia, Latvia and Baltic)
• Naked Josh (on Fox Life France)
• Nurse Jackie (on Fox Life The Netherlands, Serbia and Belgium)
• The Nine (on Fox Life Turkey)
• North Shore (on Fox Life Serbia, Bosnia and Herzegovina)
• October Road (on Fox Life Poland, Serbia and Greece)
• Off the Map (on Fox Life Latvia)
• Pepper Dennis (on Fox Life Serbia, Greece and Portugal)
• Once Upon a Time (on Fox Life Bulgaria, Estonia, Lithuania, Serbia, Croatia, Macedonia, Baltic and Russia)
• Plus One (on Fox Life Serbia, Bosnia and Herzegovina)
• Private Practice (on Fox Life Italy, Serbia, Baltic, Bosnia and Herzegovina, Bulgaria, Latvia, Poland, Greece, Portugal and Russia)
• Providence (on Fox Life Baltic, Poland, Latvia and Russia)
• Raising the Bar (on Fox Life Baltic, Greece and Latvia)
• Reba (on Fox Life Croatia, Bosnia and Herzegovina and Serbia)
• Revenge (on Fox Life Italy, Latvia, Baltic and Russia)
• Royal Pains (on Fox Life Serbia)
• Rita Rocks (on Fox Life Bulgaria, Poland, Portugal, Greece, Serbia, Bosnia and Herzegovina and Turkey)
• Rules of Engagement (on Fox Life Serbia, Bosnia and Herzegovina and Bulgaria)
• Samantha Who? (on Fox Life Italy, Poland, Greece, Serbia, Bosnia and Herzegovina, Latvia and Baltic)
• Saving Grace (on Fox Life Portugal, Turkey, Japan and Poland)
• Scarecrow and Mrs. King (on Fox Life France)
• Scoundrels (on Fox Life Greece)
• Scrubs (on Fox Life Bulgaria, Greece, Serbia and Bosnia and Herzegovina)
• Second Chances (on Fox Life France)
• Secret Diary of a Call Girl (on Fox Life Poland)
• Sex and the City (on Fox Life Italy, Bulgaria and Serbia)
• Sex, Love & Secrets
• Shark (on Fox Life Turkey)
• So You Think You Can Dance (on Fox Life Turkey, Portugal, Poland, Latvia, Baltic and Russia)
• South Beach
• South Park
• Sophie (on Fox Life Latvia, Baltic and Russia)
• Spain on the Road Again (on Fox Life Greece and Turkey)
• Spin City (on Fox Life Serbia and Bosnia and Herzegovina)
• Star Trek: Deep Space Nine
• Star Trek: Enterprise
• Star Trek: The Next Generation
• Star Trek: Voyager
• Still Standing (on Fox Life Portugal and Bulgaria)
• Summerland (on Fox Life Poland)
• Surviving Suburbia (on Fox Life Greece)
• Tabatha's Salon Takeover (on Fox Life Portugal, Greece and Turkey)
• Talk to Me (on Fox Life Poland)
• Tell Me You Love Me (on Fox Life Turkey)
• The Client (on Fox Life France)
• The Glee Project (on Fox Life Portugal)
• The Kill Point (on Fox Life Poland)
• The Listener (on Fox Life Greece, Latvia, Turkey, Baltic and Russia)
• The L Word (on Fox Life Poland, Portugal, Serbia, Bosnia and Herzegovina and Bulgaria)
• The Mind of the Married Man (on Fox Life Poland)
• The O.C.(on Fox Life Bulgaria)
• The Practice (on Fox Life Poland)
• The Property Shop(on Fox Life Latin America)
• The Real Housewives of Orange County (on Fox Life Portugal and Turkey)
• The Real School Rumble
• The Return of Jezebel James (on Fox Life Portugal)
• The Simple Life (on Fox Life Portugal)
• The Simpsons (on Fox Life Bulgaria)
• The Starter Wife (on Fox Life Baltic, Portugal and Latvia)
• The War at Home(on Fox Life Bulgaria)
• The Ex List (on Fox Life Greece)
• Third Watch (on Fox Life The Netherlands and Belgium)
• Tori & Dean (on Fox Life The Netherlands, Latvia Belgium and Baltic)
• Touch (TV series) (Fox Life Croatia, Turkey, Macedonia, Slovenia, Bulgaria and Poland, Serbia)
• Traffic Light (TV series) (Fox Life Portugal)
• Tru Calling (on Fox Life Bulgaria, Serbia, Bosnia and Herzegovina and Portugal)
• True Blood (on Fox Life Bulgaria, The Netherlands, Russia, Belgium, Baltic, Poland, Latvia, Serbia and Turkey)
• Two and a Half Men (on Fox Life Bulgaria)
• Two Guys and a Girl (on Fox Life Bulgaria, Serbia and Bosnia and Herzegovina)
• Ugly Betty (on Fox Life Italy, Bulgaria, Poland, Portugal, Baltic, Russia, Serbia, Latvia and Greece)
• Weeds (on Fox Life Russia, Latvia and Baltic)
• What About Brian? (on Fox Life Bulgaria, Greece, Bosnia and Herzegovina, Serbia, Baltic, Poland, Latvia and Russia)
• Whistler
• Who Do You Think You Are? (on Fox Life Greece)
• Who's the Boss (on Fox Life France)
• Wicked Wicked Games (on Fox Life Serbia, Bosnia and Herzegovina)
• Will and Grace (on Fox Life Greece, Croatia, Bosnia and Herzegovina, Serbia, Bulgaria and Poland)
• Windfall (on Fox Life Poland)
• Women's Murder Club (on Fox Life Turkey and Portugal)
• Valentine (on Fox Life Greece, Serbia and Bosnia and Herzegovina)
• Vanished (on Fox Life Poland and Portugal)
• Veronica Mars (on Fox Life Bulgaria, The Netherlands and Belgium)
• X-Chromosome

Fox Life HD[link]

Fox Life HD is the version of the Fox Life broadcasting only in high definition, owned by Fox Broadcasting Company and Fox International Channels Italy. Its basic programming include numerous television series, sitcoms and movies, among others, which includes some original programming in certain regions, like the other Fox life's versions around the world.

The channel will be active in SKY Italia by 2011. Since the 1st of September 2009 the channel is also available on Telenet in Belgium.

On the 15th of October 2009 Fox Life HD started transmitting on Portugal, first on Zon TV Cabo and later on Vodafone Casa TV and Optimus Clix. From May 2010 this channel is in Polish pay-tv digital platform N (Poland).

Logos[link]

• Fox-Life.png

  This version is used in most countries.

• Fox life fr.png

  This version is used in Russia and South Korea.

• 

  This version is used in Portugal, Estonia and Latvia.

• 

  Variant used only in Latin America and Brazil.

• Fox life hd.png

  This is the high-definition logo of Fox Life.

• Fox life plus1.png

  This is the time shift logo of Fox Life.

See also[link]

• Fox Life Greece
• Fox Life (Italy)
• FOXlife (Netherlands)

References[link]

External links[link]

• Fox Life official Turkish website
• Fox Life official Bulgarian website
• Fox Life official Croatian website
• Fox Life official French website
• Fox Life official Polish website
• Fox Life official Italian website
• Fox bs238 official Japan website
• Fox Life official the Netherlands & Belgium (Benelux) website
• Fox Life official Portuguese website
• Fox Life official Brazilian website
• Fox Life official CIS countries & Baltics website
• Fox Life official Serbian website
• Fox Life official Spanish website
• Fox Life official Korean website
• Fox Life official Greek website

This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (May 2007)

Foxes
Red fox (Vulpes vulpes)
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Class:	Mammalia
Order:	Carnivora
Family:	Canidae
Tribe:	Vulpini
Genera
Vulpes Cerdocyon Chrysocyon †Dusicyon Otocyon Urocyon

Fox is a common name for many species of omnivorous mammals belonging to the Canidae family. Foxes are small to medium-sized canids (slightly smaller than the medium-sized domestic dog), characterized by possessing a long narrow snout, and a bushy tail (or brush).

Members of about 37 species are referred to as foxes, of which only 12 species actually belong to the Vulpes genus of "true foxes". By far the most common and widespread species of fox is the red fox (Vulpes vulpes), although various species are found on almost every continent. The presence of fox-like carnivores all over the globe, together with their widespread reputation for cunning, has contributed to their appearance in popular culture and folklore in many societies around the world (see also Foxes in culture).

Etymology[link]

The Modern English word "fox" is Old English, and comes from the Proto-Germanic word fukh – compare German Fuchs, Gothic fauho, Old Norse foa and Dutch vos. It corresponds to the Proto-Indo-European word puk- meaning "tail of it" (compare Sanskrit puccha, also "tail"). The bushy tail is also the source of the word for fox in Welsh: llwynog, from llwyn, "bush, grove".^[1] Lithuanian: uodegis, from uodega, "tail", Portuguese: raposa, from rabo, "tail"^[2] and Ojibwa: waagosh, from waa, which refers to the up and down "bounce" or flickering of an animal or its tail.^[3] Male foxes are known as dogs or reynards, females as vixens, and young as kits, pups or cubs. A group of foxes is a "skulk", "leash", "troop" or "earth".

General characteristics[link]

The fennec fox is the smallest species of fox.

Arctic fox curled up in snow.

In the wild, foxes can live for up to 10 years, but most foxes only live for 2 to 3 years due to hunting, road accidents and diseases. Foxes are generally smaller than other members of the family Canidae such as wolves, jackals, and domestic dogs. Reynards (male foxes) weigh, on average, around 5.9 kilograms (13 lb) and vixens (female foxes) weigh less, at around 5.2 kilograms (11.5 lb).^[4] Fox-like features typically include a distinctive muzzle (a "fox face") and bushy tail. Other physical characteristics vary according to habitat. For example, the fennec fox (and other species of fox adapted to life in the desert, such as the kit fox) has large ears and short fur, whereas the Arctic fox has tiny ears and thick, insulating fur. Another example is the red fox which has a typical auburn pelt, the tail normally ending with white marking. Litter sizes can vary greatly according to species and environment – the Arctic fox, for example, has an average litter of four to five, with eleven as maximum.^[5]

Unlike many canids, foxes are not always pack animals. Typically, they live in small family groups, and are opportunistic feeders that hunt live prey (especially rodents). Using a pouncing technique practiced from an early age, they are usually able to kill their prey quickly. Foxes also gather a wide variety of other foods ranging from grasshoppers to fruit and berries. The gray fox is one of only two canine species known to climb trees; the other is the raccoon dog.

Foxes are normally extremely wary of humans and are not usually kept as indoor pets; however, the silver fox was successfully domesticated in Russia after a 45-year selective breeding program. This selective breeding also resulted in physical and behavioral traits appearing that are frequently seen in domestic cats, dogs, and other animals, such as pigmentation changes, floppy ears, and curly tails.^[6]

Classification[link]

Skeleton

Canids commonly known as foxes include members of the following genera:

• Alopex: Arctic fox, although the definitive mammal taxonomy list as well as genetic evidence places it in Vulpes, and not as a genus unto itself.
• Canis: The Ethiopian Wolf, also called, variously, Semien fox or Semien jackal (though recently renamed to reflect its biological affinity with the gray wolf).
• Cerdocyon: Crab-eating fox.
• Chrysocyon: Maned wolf (in English), aguara guazú ("big fox" in Guarani) and zorro rojizo ("reddish fox," one of several names used by Spanish speakers).
• Dusicyon: Falkland Islands fox.
• Lycalopex: Six South American species.
• Otocyon: Bat-eared fox.
• Urocyon: Gray fox, island fox and Cozumel fox.
• Vulpes: Including 12 species of true foxes, including the red fox, V. vulpes, Tibetan Sand Fox, Vulpes ferrilata and their closest kin.

Diet[link]

A Chilla fox in Pan de Azúcar National Park in the coast of Atacama Desert.

Foxes are omnivores.^[7][8] The diet of foxes is largely made up of invertebrates and other small mammals, reptiles, (such as snakes), amphibians, scorpions, grasses, berries, fruit, fish, birds, eggs, dung beetles, insects and all other kinds of small animals. Many species are generalist predators, but some (such as the crab-eating fox) are more specialist. Most species of fox generally consume around 1 kg of food every day. Foxes cache excess food, burying it for later consumption, usually under leaves, snow, or soil.

Conservation[link]

The island fox is a critically endangered species.

Foxes are readily found in cities and cultivated areas and (depending upon species) seem to adapt reasonably well to human presence.

Red foxes have been introduced into Australia which lacks similar carnivores other than the dingo, and the introduced foxes prey on native wildlife, some to the point of extinction.

Other fox species do not reproduce as readily as the red fox, and are endangered in their native environments. Key among these are the crab-eating fox (Cerdocyon thous) and the African bat-eared fox. Other foxes such as fennec foxes, are not endangered.

Foxes have been successfully employed to control pests on fruit farms while leaving the fruit intact.^[9]

Relationships with humans[link]

A red fox on the porch of an Evergreen, Colorado home.

Fox attacks on humans are not common but have been reported. In November 2008, an incident in the United States was reported in which a jogger was attacked and bitten on the foot and arm by a rabid fox in Arizona.^[10] In July 2002, a 14-week-old baby was attacked in a house in Dartford, Kent, United Kingdom.^[11] In June 2010, 9-month-old twin girls were bitten on the arms and face when a fox entered their upstairs room in east London.^[12]

Fox hunting[link]

Fox hunting is an activity that originated in the United Kingdom in the 16th century. Hunting with dogs is now banned in the United Kingdom,^{[13][14][15][16]} though hunting without dogs is still permitted. It is practiced as recreation in several other countries including Australia, Canada, France, Ireland, Italy, Russia and the United States.

Domestication[link]

The Russian silver fox, or domesticated silver fox, is the result of nearly fifty years of experiments in the Soviet Union and Russia to domesticate the silver morph of the red fox. Notably, the new foxes became more tame, allowing themselves to be petted, whimpering to get attention and sniffing and licking their caretakers.^[17] They also became more dog-like as well: they lost their distinctive musky "fox smell", became more friendly with humans, put their ears down (like dogs), wagged their tails when happy and began to vocalize and bark like domesticated dogs. They also began to exhibit other traits seen in some dog breeds, such as color pattern, curled tails, floppy ears, and shorter legs and tails.^[17] They are also more likely to have piebald coats. The breeding project was set up by the Soviet scientist Dmitri K. Belyaev.

In culture[link]

In many cultures, the fox appears in folklore as a symbol of cunning and trickery, or as a familiar animal possessed of magic powers.

In some countries, foxes are major predators of rabbits and hens. Population oscillations of these two species were the first nonlinear oscillation studied, and led to the now-famous Lotka-Volterra equation.

References[link]

External links[link]

Wikimedia Commons has media related to: Fox

Look up fox in Wiktionary, the free dictionary.

Wikiquote has a collection of quotations related to: Fox

• BBC Wales Nature: Fox videos
• BBC Wild About Nature: Fox facts and videos
• The fox website
• More fox sound files
• Australian Department of the Environment and Heritage fact sheet, 2004
• Texts on Wikisource:
  • "Fox". The American Cyclopædia. 1879. 
  • "Fox". Encyclopaedia Britannica. 9 (9th ed.). 1879. 
  • "Fox". New International Encyclopedia. 1905. 
  • "Fox". Encyclopædia Britannica (11th ed.). 1911. 
  • Beach, Chandler B., ed. (1914). "Fox". The New Student's Reference Work. Chicago: F. E. Compton and Co.. Wikisource 
  • "Fox". Encyclopedia Americana. 1920. 
  • "Fox". Collier's New Encyclopedia. 1921. 

Life (Biota / Vitae / Eobionti)
Plants in the Rwenzori Mountains, Uganda
Scientific classification
Domains and kingdoms
Life on Earth: Non-cellular life (viruses) [note 1] Cellular life Bacteria Archaea Eukarya Protista Fungi Plantae Animalia

Life (cf. biota) is a characteristic that distinguishes objects that have signaling and self-sustaining processes from those that do not,^[1][2] either because such functions have ceased (death), or else because they lack such functions and are classified as inanimate.^[3][4] Biology is the science concerned with the study of life.

Any contiguous living system is called an organism. These animate entities undergo metabolism, maintain homeostasis, possess a capacity to grow, respond to stimuli, reproduce and, through natural selection, adapt to their environment in successive generations. More complex living organisms can communicate through various means.^[1][5] A diverse array of living organisms can be found in the biosphere of Earth, and the properties common to these organisms—plants, animals, fungi, protists, archaea, and bacteria—are a carbon- and water-based cellular form with complex organization and heritable genetic information.

Scientific evidence suggests that life began on Earth some 3.7 billion years ago. The mechanism by which life emerged is still being investigated. Since then, life has evolved into a wide variety of forms, which biologists have classified into a hierarchy of Taxa. Life can survive and thrive in a wide range of conditions. In philosophy and religion, the conception of life and its nature varies. Both offer interpretations as to how life relates to existence and consciousness, and both touch on many related issues, including life stance, purpose, conception of a god or gods, a soul or an afterlife.

Early theories[link]

Materialism[link]

Plant growth in the Hoh Rainforest

Herds of zebra and impala gathering on the Maasai Mara plain

Herds of zebra and impala gathering on the Maasai Mara plain

An aerial photo of microbial mats around the Grand Prismatic Spring of Yellowstone National Park

Some of the earliest theories of life were materialist, holding that all that exists is matter, and that all life is merely a complex form or arrangement of matter. Empedocles (430 BC) argued that every thing in the universe is made up of a combination of four eternal "elements" or "roots of all": earth, water, air, and fire. All change is explained by the arrangement and rearrangement of these four elements. The various forms of life are caused by an appropriate mixture of elements. For example, growth in plants is explained by the natural downward movement of earth and the natural upward movement of fire.^[6]

Democritus (460 BC), the disciple of Leucippus, thought that the essential characteristic of life is having a soul (psyche). In common with other ancient writers, he used the term to mean the principle of living things that causes them to function as a living thing. He thought the soul was composed of fire atoms, because of the apparent connection between life and heat, and because fire moves.^[7] He suggested that humans originally lived like animals, gradually developing communities to help one another, originating language, and developing crafts and agriculture.^[7]

In the scientific revolution of the 17th century, mechanistic ideas^{[clarification needed]} were revived by philosophers like Descartes.^{[citation needed]}

Hylomorphism[link]

Hylomorphism is the theory (originating with Aristotle (322 BC)) that all things are a combination of matter and form. Aristotle was one of the first ancient writers to approach the subject of life in a scientific way. Biology was one of his main interests, and there is extensive biological material in his extant writings. According to him, all things in the material universe have both matter and form. The form of a living thing is its soul (Greek psyche, Latin anima). There are three kinds of souls: the "vegetative soul" of plants, which causes them to grow and decay and nourish themselves, but does not cause motion and sensation; the "animal soul" which causes animals to move and feel; and the rational soul which is the source of consciousness and reasoning which (Aristotle believed) is found only in man.^[8] Each higher soul has all the attributes of the lower one. Aristotle believed that while matter can exist without form, form cannot exist without matter, and therefore the soul cannot exist without the body.^[9]

Consistent with this account is a teleological explanation of life. A teleological explanation accounts for phenomena in terms of their purpose or goal-directedness. Thus, the whiteness of the polar bear's coat is explained by its purpose of camouflage. The direction of causality is the other way round from materialistic science, which explains the consequence in terms of a prior cause. Modern biologists reject this functional view in terms of a material and causal one: biological features are to be explained not by looking forward to future optimal results, but by looking backwards to the past evolutionary history of a species, which led to the natural selection of the features in question.^{[citation needed]}

Vitalism[link]

Vitalism is the belief that the life-principle is essentially immaterial. This originated with Stahl (17th century), and held sway until the middle of the 19th century. It appealed to philosophers such as Henri Bergson, Nietzsche, Wilhelm Dilthey, anatomists like Bichat, and chemists like Liebig.^{[citation needed]}

Vitalism underpinned the idea of a fundamental separation of organic and inorganic material, and the belief that organic material can only be derived from living things. This was disproved in 1828 when Friedrich Wöhler prepared urea from inorganic materials.^[10] This so-called Wöhler synthesis is considered the starting point of modern organic chemistry. It is of historical significance because for the first time an organic compound was produced from inorganic reactants.

Later,^[when?] Helmholtz, anticipated by Mayer, demonstrated that no energy is lost in muscle movement, suggesting that there were no vital forces necessary to move a muscle. These empirical results led to the abandonment of scientific interest in vitalistic theories, although the belief lingered on in non-scientific theories such as homeopathy, which interprets diseases and sickness as caused by disturbances in a hypothetical vital force or life force.

Definitions[link]

It is a challenge for scientists and philosophers to define life in unequivocal terms.^[11][12][13] Defining life is difficult—in part—because life is a process, not a pure substance.^[14] Any definition must be sufficiently broad to encompass all life with which we are familiar, and it should be sufficiently general that, with it, scientists would not miss life that may be fundamentally different from life on Earth.^[15]

Biology[link]

Since there is no unequivocal definition of life, the current understanding is descriptive, where life is a characteristic of organisms that exhibit all or most of the following phenomena:^[14][16]

1. Homeostasis: Regulation of the internal environment to maintain a constant state; for example, electrolyte concentration or sweating to reduce temperature.
2. Organization: Being structurally composed of one or more cells, which are the basic units of life.
3. Metabolism: Transformation of energy by converting chemicals and energy into cellular components (anabolism) and decomposing organic matter (catabolism). Living things require energy to maintain internal organization (homeostasis) and to produce the other phenomena associated with life.
4. Growth: Maintenance of a higher rate of anabolism than catabolism. A growing organism increases in size in all of its parts, rather than simply accumulating matter.
5. Adaptation: The ability to change over a period of time in response to the environment. This ability is fundamental to the process of evolution and is determined by the organism's heredity as well as the composition of metabolized substances, and external factors present.
6. Response to stimuli: A response can take many forms, from the contraction of a unicellular organism to external chemicals, to complex reactions involving all the senses of multicellular organisms. A response is often expressed by motion, for example, the leaves of a plant turning toward the sun (phototropism) and by chemotaxis.
7. Reproduction: The ability to produce new individual organisms, either asexually from a single parent organism, or sexually from two parent organisms.

Alternatives[link]

To reflect the minimum phenomena required, other biological definitions of life have been proposed.^[17] Many of these proposals are based upon chemical systems. Living processes can be viewed as a delay of the spontaneous diffusion or dispersion of the internal energy of biological molecules towards more potential microstates.^[18] At a higher level, living beings are thermodynamic systems that have an organized molecular structure.^[18] Looking at it from a long-term perspective, life is matter that can reproduce itself and evolve as survival dictates.^[19][20] Hence, life is a self-sustained chemical system capable of undergoing Darwinian evolution.^[21]

Others take a systemic viewpoint that does not necessarily depend on molecular chemistry. One systemic definition of life is that living things are self-organizing and autopoietic (self-producing). Variations of this definition include Stuart Kauffman's definition as an autonomous agent or a multi-agent system capable of reproducing itself or themselves, and of completing at least one thermodynamic work cycle.^[22] Life can be modeled as a network of inferior negative feedbacks of regulatory mechanisms subordinated to a superior positive feedback formed by the potential of expansion and reproduction.^[23] From a simplified perspective, life can be said to consist of things with the capacity for metabolism and motion,^[14] or that life is self-reproduction "with variations"^[24][25] or "with an error rate below the sustainability threshold."^[25]

Biophysicists have commented on the nature and qualities of life forms—notably that they function on negative entropy.^[26][27] In more detail, according to physicists such as John Bernal, Erwin Schrödinger, Eugene Wigner, and John Avery, life is a member of the class of phenomena that are open or continuous systems able to decrease their internal entropy at the expense of substances or free energy taken in from the environment and subsequently rejected in a degraded form.^[28][29][30]

Viruses[link]

Electron micrograph of icosahedral adenovirus

Viruses are most often considered replicators rather than forms of life. They have been described as "organisms at the edge of life,"^[31] since they possess genes, evolve by natural selection,^[32] and replicate by creating multiple copies of themselves through self-assembly. However, viruses do not metabolize and they require a host cell to make new products. Virus self-assembly within host cells has implications for the study of the origin of life, as it may support the hypothesis that life could have started as self-assembling organic molecules.^[33][34]

Living systems theories[link]

Some scientists have proposed in the last few decades^[timeframe?] that a general living systems theory is required to explain the nature of life.^[35] Such a general theory, arising out of the ecological and biological sciences, attempts to map general principles for how all living systems work. Instead of examining phenomena by attempting to break things down into component parts, a general living systems theory explores phenomena in terms of dynamic patterns of the relationships of organisms with their environment.^[36]

The idea that the Earth is alive is probably as old as humankind, but the first public expression of it as a fact of science was by a Scottish scientist, James Hutton. In 1785 he stated that the Earth was a superorganism and that its proper study should be physiology. Hutton is rightly remembered as the father of geology, but his idea of a living Earth was forgotten in the intense reductionism of the 19th century.^[37] The Gaia hypothesis, originally proposed in the 1960s by scientist James Lovelock,^[38][39] explores the idea that the life on Earth functions as a single organism which defines and maintains environmental conditions necessary for its survival.^[40]

Robert Rosen (1991) built on the assumption that the explanatory powers of the mechanistic worldview cannot help understand the realm of living systems. One of several important clarifications he made was to define a system component as "a unit of organization; a part with a function, i.e., a definite relation between part and whole." From this and other starting concepts, he developed a "relational theory of systems" that attempts to explain the special properties of life. Specifically, he identified the "nonfractionability of components in an organism" as the fundamental difference between living systems and "biological machines."^[41]

A systems view of life treats environmental fluxes and biological fluxes together as a "reciprocity of influence",^[42] and a reciprocal relation with environment is arguably as important for understanding life as it is for understanding ecosystems. As Harold J. Morowitz (1992) explains it, life is a property of an ecological system rather than a single organism or species.^[43] He argues that an ecosystemic definition of life is preferable to a strictly biochemical or physical one. Robert Ulanowicz (2009) highlights mutualism as the key to understand the systemic, order-generating behavior of life and ecosystems.^[44]

Origin[link]

Evidence suggests that life on Earth has existed for about 3.7 billion years,^[45] with the oldest traces of life found in fossils dating back 3.4 billion years.^[46] All known life forms share fundamental molecular mechanisms, and based on these observations, theories on the origin of life attempt to find a mechanism explaining the formation of a primordial single cell organism from which all life originates. There are many different hypotheses regarding the path that might have been taken from simple organic molecules via pre-cellular life to protocells and metabolism. Many models fall into the "genes-first" category or the "metabolism-first" category, but a recent trend is the emergence of hybrid models that combine both categories.^[47]

There is no scientific consensus as to how life originated and all proposed theories are highly speculative. However, most accepted scientific models build in one way or another on the following hypotheses:

• The Miller-Urey experiment, and the work of Sidney Fox, suggest that conditions on the primitive Earth may have favored chemical reactions that synthesized amino acids and other organic compounds from inorganic precursors.
• Phospholipids spontaneously form lipid bilayers, the basic structure of a cell membrane.

Life as we know it today synthesizes proteins, which are polymers of amino acids using instructions encoded by cellular genes—which are polymers of deoxyribonucleic acid (DNA). Protein synthesis entails intermediary ribonucleic acid (RNA) polymers. One possibility is that genes came first and then proteins.^[48] Another possibility is that proteins came first and then genes.^[49] However, because genes are required to make proteins, and proteins are required to make genes, the problem of considering which came first is like that of the chicken or the egg. Most scientists have adopted the hypothesis that because DNA and proteins function together so intimately, it's unlikely that they arose independently.^[50] Therefore, many scientists consider the possibility, apparently first suggested by Francis Crick,^[51] that the first life was based on the DNA-protein intermediary: RNA.^[50] In fact, RNA has the DNA-like properties of information storage, replication and the catalytic properties of some proteins. Crick and others actually favored the RNA-first hypothesis^[52] even before the catalytic properties of RNA had been demonstrated by Thomas Cech.^[53]

A significant issue with the RNA-first hypothesis is that experiments designed to synthesize RNA from simple precursors have not been nearly as successful as the Miller-Urey experiments that synthesized other organic molecules from inorganic precursors. One reason for the failure to create RNA in the laboratory is that RNA precursors are very stable and do not react with each other under ambient conditions. However, the successful synthesis of certain RNA molecules under conditions hypothesized to exist prior to life on Earth has been achieved by adding alternative precursors in a specified order with the precursor phosphate present throughout the reaction.^[54] This study makes the RNA-first hypothesis more plausible to many scientists.^[55]

Recent experiments have demonstrated true Darwinian evolution of unique RNA enzymes (ribozymes) made up of two separate catalytic components that replicate each other in vitro.^[56] In describing this work from his laboratory, Gerald Joyce stated: "This is the first example, outside of biology, of evolutionary adaptation in a molecular genetic system."^[57] Such experiments make the possibility of a primordial RNA world even more attractive to many scientists.

NASA findings in 2011, based on studies with meteorites found on Earth, suggest DNA and RNA components (adenine, guanine and related organic molecules) may be formed extraterrestrially in outer space.^{[58][59][60][61]}

Conditions[link]

Cyanobacteria dramatically changed the composition of life forms on Earth by stimulating biodiversity and leading to the near-extinction of oxygen-intolerant organisms.

The diversity of life on Earth is a result of the dynamic interplay between genetic opportunity, metabolic capability, environmental challenges,^[62] and symbiosis.^[63][64][65] For most of its existence, Earth's habitable environment has been dominated by microorganisms and subjected to their metabolism and evolution. As a consequence of such microbial activities on a geologic time scale, the physical-chemical environment on Earth has been changing, thereby determining the path of evolution of subsequent life.^[62] For example, the release of molecular oxygen by cyanobacteria as a by-product of photosynthesis induced fundamental, global changes in the Earth's environment. The altered environment, in turn, posed novel evolutionary challenges to the organisms present, which ultimately resulted in the formation of our planet's major animal and plant species. Therefore this "co-evolution" between organisms and their environment is apparently an inherent feature of living systems.^[62]

All life forms require certain core chemical elements needed for biochemical functioning. These include carbon, hydrogen, nitrogen, oxygen, phosphorus, and sulfur—the elemental macronutrients for all organisms^[66]—often represented by the acronym CHNOPS. Together these make up nucleic acids, proteins and lipids, the bulk of living matter. Five of these six elements comprise the chemical components of DNA; the exception being sulfur. The latter forms a component of the important amino acid methionine. The most essential of these elements is carbon, which has the desirable attribute of forming multiple, stable covalent bonds. This allows carbon-based (organic) molecules to form an immense variety of chemical arrangements.^[67] Alternative hypothetical types of biochemistry have been proposed which eliminate one or more of these elements, swap out an element for one not on the list, or change required chiralities or other chemical properties.^{[citation needed]}

Range of tolerance[link]

The inert components of an ecosystem are the physical and chemical factors necessary for life—energy (sunlight or chemical energy), water, temperature, atmosphere, gravity, nutrients, and ultraviolet solar radiation protection.^[68] In most ecosystems the conditions vary during the day and often shift from one season to the next. To live in most ecosystems, then, organisms must be able to survive a range of conditions, called the "range of tolerance."^[69] Outside that are the "zones of physiological stress," where the survival and reproduction are possible but not optimal. Beyond these zones are the "zones of intolerance," where life for that organism is implausible. Organisms that have a wide range of tolerance are more widely distributed than organisms with a narrow range of tolerance.^[69]

Deinococcus radiodurans can resist radiation exposure.

To survive, selected microorganisms can assume forms that enable them to withstand freezing, complete desiccation, starvation, high-levels of radiation exposure, and other physical or chemical challenges. These microorganisms may survive exposure to such conditions for weeks, months, years, or even centuries.^[62] Extremophiles are microbial life forms that thrive outside the ranges where life is commonly found. They excel at exploiting uncommon sources of energy. While all organisms are composed of nearly identical molecules, evolution has enabled such microbes to cope with this wide range of physical and chemical conditions. Characterization of the structure and metabolic diversity of microbial communities in such extreme environments is ongoing.

Investigation of the tenacity and versatility of life on Earth, as well as an understanding of the molecular systems that some organisms utilize to survive such extremes, will provide a critical foundation for the search for life beyond Earth.^[62] In this regard, on April 26, 2012, scientists reported that lichen survived and showed remarkable results on the adaptation capacity of photosynthetic activity within a simulated Martian environment.^[70][71]

Organization and function[link]

Cell theory propounds the concept that cells are the basic unit of structure in every living thing. This idea was formulated by Henri Dutrochet and others during the early nineteenth century, and subsequently became widely accepted.^[72] According to this theory, all cells arise from pre-existing cells by division and the cell forms the fundamental unit of structure and function in all living organisms. The activity of an organism depends on the total activity of independent cells, with energy flow occurring within cells. Cells contain hereditary information that is carried forward as a genetic code during cell division. Cells belonging to similar species have basically the same chemical composition.

There are two primary types of cells. Prokaryotes lack a nucleus and other membrane-bound organelles, although they do they do have circular DNA and ribosomes. Bacteria and Archaea are two domains of prokaryotes. The other primary type of cells are the eukaryotes, which have distinct nuclei bound by a nuclear membrane and membrane-bound organelles, including mitochondria, chloroplasts, lysosomes, rough and smooth endoplasmic reticulum, and vacuoles. In addition, they possess organized chromosomes which store genetic material. All species of large complex organisms are eukaryotes, including animals, plants and fungi, although most species of eukaryote are protist microorganisms.^[73]

The molecular mechanisms of cell biology is based around proteins. Most of these are synthesized by the ribosomes through an enzyme-catalyzed process called protein biosynthesis. A sequence of amino acids is assembled and joined together based upon gene expression of the cell's nucleic acid. In eukaryotic cells, these proteins may then be transported and processed through the Golgi apparatus in preparation for dispatch to their destination.

Multicellular organisms may have first evolved through the formation of colonies of like cells. These cells can form a group organism through cell adhesion. The individual members of a colony are capable of surviving on their own, whereas the members of a true multi-cellular organism have developed specialties, making them dependent on the remainder of the organism for survival. Such organisms are formed from a single germ cell, which is capable of forming the various specialized cells that form the adult organism.

Classification[link]

The hierarchy of biological classification's eight major taxonomic ranks, which is an example of definition by genus and differentia. Life is divided into domains, which are subdivided into further groups. Intermediate minor rankings are not shown.

Traditionally, people have divided organisms into the classes of plants and animals, based mainly on their ability of movement. The first known attempt to classify organisms was conducted by the Greek philosopher Aristotle (384–322 BC). He classified all living organisms known at that time as either a plant or an animal. Aristotle distinguished animals with blood from animals without blood (or at least without red blood), which can be compared with the concepts of vertebrates and invertebrates respectively. He divided the blooded animals into five groups: viviparous quadrupeds (mammals), birds, oviparous quadrupeds (reptiles and amphibians), fishes and whales. The bloodless animals were divided into five groups: cephalopods, crustaceans, insects (which included the spiders, scorpions, centipedes, and what we define as insects in the present day), shelled animals (such as most molluscs and echinoderms) and "zoophytes." Though Aristotle's work in zoology was not without errors, it was the grandest biological synthesis of the time and remained the ultimate authority for many centuries after his death.^[74]

The exploration of the American continent revealed large numbers of new plants and animals that needed descriptions and classification. In the latter part of the 16th century and the beginning of the 17th, careful study of animals commenced and was gradually extended until it formed a sufficient body of knowledge to serve as an anatomical basis for classification.

In the late 1740s, Carolus Linnaeus introduced his method, still used, to formulate the scientific name of every species.^[75] Linnaeus took every effort to improve the composition and reduce the length of the many-worded names by abolishing unnecessary rhetoric, introducing new descriptive terms and defining their meaning with an unprecedented precision. By consistently using his system, Linnaeus separated nomenclature from taxonomy. This convention for naming species is referred to as binomial nomenclature.

The fungi were originally treated as plants. For a short period Linnaeus had placed them in the taxon Vermes in Animalia. He later placed them back in Plantae. Copeland classified the Fungi in his Protoctista, thus partially avoiding the problem but acknowledged their special status.^[76] The problem was eventually solved by Whittaker, when he gave them their own kingdom in his five-kingdom system. As it turned out, the fungi are more closely related to animals than to plants.^[77]

As new discoveries enabled us to study cells and microorganisms, new groups of life were revealed, and the fields of cell biology and microbiology were created. These new organisms were originally described separately in protozoa as animals and protophyta/thallophyta as plants, but were united by Haeckel in his kingdom protista, later the group of prokaryotes were split off in the kingdom Monera, eventually this kingdom would be divided in two separate groups, the Bacteria and the Archaea, leading to the six-kingdom system and eventually to the current three-domain system.^[78] The classification of eukaryotes is still controversial, with protist taxonomy especially problematic.^[79]

As microbiology, molecular biology and virology developed, non-cellular reproducing agents were discovered, such as viruses and viroids. Sometimes these entities are considered to be alive but others argue that viruses are not living organisms since they lack characteristics such as cell membrane, metabolism and do not grow or respond to their environments. Viruses can however be classed into "species" based on their biology and genetics but many aspects of such a classification remain controversial.^[80]

Since the 1960s a trend called cladistics has emerged, arranging taxa in an evolutionary or phylogenetic tree. It is unclear, should this be implemented, how the different codes will coexist.^[81]

Extraterrestrial[link]

Panspermia hypothesis

Earth is the only planet known to harbor life. The Drake equation, which predicts the number of extraterrestrial civilizations in our galaxy with which we might come in contact, has been used to discuss the probability of life elsewhere, but scientists disagree on many of the values of variables in this equation. Depending on those values, the equation may either suggest that life arises frequently or infrequently.^[91]

The region around a main sequence star that could support Earth-like life on an Earth-like planet is known as the habitable zone. The inner and outer radii of this zone vary with the luminosity of the star, as does the time interval during which the zone will survive. Stars more massive than the Sun have a larger habitable zone, but will remain on the main sequence for a shorter time interval during which life can evolve. Small red dwarf stars have the opposite problem, with a smaller habitable zone that is subject to higher levels of magnetic activity and the effects of tidal locking from close orbits. Hence, stars in the intermediate mass range such as the Sun may have a greater likelihood for Earth-like life to develop.^[92] The location of the star within a galaxy may have an impact on the likelihood of life forming. Stars in regions of a galaxy that have a greater abundance of heavier elements that can form planets, in combination with a low rate of potentially habitat-damaging supernova events, are predicted to have a higher probability of hosting planets with complex life.^[93]

Panspermia, also called exogenesis, is a hypothesis proposing that life originated elsewhere in the universe and was subsequently transferred to Earth in the form of spores perhaps via meteorites, comets or cosmic dust. In October 2011, scientists found that the cosmic dust permeating the universe contains complex organic matter ("amorphous organic solids with a mixed aromatic-aliphatic structure") that could be created naturally, and rapidly, by stars.^[94][95][96] As one of the scientists noted, "Coal and kerogen are products of life and it took a long time for them to form ... How do stars make such complicated organics under seemingly unfavorable conditions and [do] it so rapidly?"^[94] Further, the scientist suggested that these compounds may have been related to the development of life on earth and said that, "If this is the case, life on Earth may have had an easier time getting started as these organics can serve as basic ingredients for life."^[94]

Death[link]

Death is the permanent termination of all vital functions or life processes in an organism or cell.^[97][98] After death, the remains of an organism become part of the biogeochemical cycle. Organisms may be consumed by a predator or a scavenger and leftover organic material may then be further decomposed by detritivores, organisms which recycle detritus, returning it to the environment for reuse in the food chain.

One of the challenges in defining death is in distinguishing it from life. Death would seem to refer to either the moment at which life ends, or when the state that follows life begins.^[98] However, determining when death has occurred requires drawing precise conceptual boundaries between life and death. This is problematic, however, because there is little consensus over how to define life. The nature of death has for millennia been a central concern of the world's religious traditions and of philosophical inquiry. Many religions maintain faith in either a kind of afterlife or reincarnation for the soul, or resurrection of the body at a later date.

Extinction is the gradual process by which a group of taxa or species dies out, reducing biodiversity.^[99] The moment of extinction is generally considered to be the death of the last individual of that species. Because a species' potential range may be very large, determining this moment is difficult, and is usually done retrospectively after a period of apparent absence. Species become extinct when they are no longer able to survive in changing habitat or against superior competition. Over the history of the Earth, over 99% of all the species that have ever lived have gone extinct;^[100] however, mass extinctions may have accelerated evolution by providing opportunities for new groups of organisms to diversify.^[101]

Fossils are the preserved remains or traces of animals, plants, and other organisms from the remote past. The totality of fossils, both discovered and undiscovered, and their placement in fossil-containing rock formations and sedimentary layers (strata) is known as the fossil record. Such a preserved specimen is called a "fossil" if it is older than the arbitrary date of 10,000 years ago.^[102] Hence, fossils range in age from the youngest at the start of the Holocene Epoch to the oldest from the Archaean Eon, up to 3.4 billion years old.^[103][104]

See also[link]

Notes[link]

References[link]