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This account is consistent with teleological explanations of life, which account for phenomena in terms of purpose or goal-directedness.
Thus, the whiteness of the polar bear's coat is explained by its purpose of camouflage. The direction of causality from the future to the past is in contradiction with the scientific evidence for natural selection, which explains the consequence in terms of a prior cause.
Biological features are explained not by looking at future optimal results, but by looking at the past evolutionary history of a species, which led to the natural selection of the features in question.
Spontaneous generation was the belief that living organisms can form without descent from similar organisms. Typically, the idea was that certain forms such as fleas could arise from inanimate matter such as dust or the supposed seasonal generation of mice and insects from mud or garbage.
The theory of spontaneous generation was proposed by Aristotle ,  who compiled and expanded the work of prior natural philosophers and the various ancient explanations of the appearance of organisms; it held sway for two millennia.
It was decisively dispelled by the experiments of Louis Pasteur in , who expanded upon the investigations of predecessors such as Francesco Redi.
Vitalism is the belief that the life-principle is non-material. This originated with Georg Ernst Stahl 17th century , and remained popular until the middle of the 19th century.
This was disproved in , when Friedrich Wöhler prepared urea from inorganic materials. It is of historical significance because for the first time an organic compound was produced in inorganic reactions.
During the s, Hermann von Helmholtz , anticipated by Julius Robert von Mayer , demonstrated that no energy is lost in muscle movement, suggesting that there were no "vital forces" necessary to move a muscle.
The age of the Earth is about 4. Although the number of Earth's catalogued species of lifeforms is between 1. Estimates range from 8 million to million,   with a more narrow range between 10 and 14 million,  but it may be as high as 1 trillion with only one-thousandth of one percent of the species described according to studies realized in May All known life forms share fundamental molecular mechanisms, reflecting their common descent ; based on these observations, hypotheses on the origin of life attempt to find a mechanism explaining the formation of a universal common ancestor , from simple organic molecules via pre-cellular life to protocells and metabolism.
Models have been divided into "genes-first" and "metabolism-first" categories, but a recent trend is the emergence of hybrid models that combine both categories.
There is no current scientific consensus as to how life originated. However, most accepted scientific models build on the Miller—Urey experiment and the work of Sidney Fox , which show that conditions on the primitive Earth favored chemical reactions that synthesize amino acids and other organic compounds from inorganic precursors,  and phospholipids spontaneously form lipid bilayers , the basic structure of a cell membrane.
Living organisms synthesize proteins , which are polymers of amino acids using instructions encoded by deoxyribonucleic acid DNA.
Protein synthesis entails intermediary ribonucleic acid RNA polymers. One possibility for how life began is that genes originated first, followed by proteins;  the alternative being that proteins came first and then genes.
However, because genes and proteins are both required to produce the other, the problem of considering which came first is like that of the chicken or the egg.
Most scientists have adopted the hypothesis that because of this, it is unlikely that genes and proteins arose independently.
Therefore, a possibility, first suggested by Francis Crick ,  is that the first life was based on RNA ,  which has the DNA-like properties of information storage and the catalytic properties of some proteins.
This is called the RNA world hypothesis , and it is supported by the observation that many of the most critical components of cells those that evolve the slowest are composed mostly or entirely of RNA.
The catalytic properties of RNA had not yet been demonstrated when the hypothesis was first proposed,  but they were confirmed by Thomas Cech in One issue with the RNA world hypothesis is that synthesis of RNA from simple inorganic precursors is more difficult than for other organic molecules.
One reason for this is that RNA precursors are very stable and react with each other very slowly under ambient conditions, and it has also been proposed that living organisms consisted of other molecules before RNA.
Geological findings in showed that reactive phosphorus species like phosphite were in abundance in the ocean before 3. In , experiments demonstrated Darwinian evolution of a two-component system of RNA enzymes ribozymes in vitro.
Prebiotic compounds may have originated extraterrestrially. In March , NASA scientists reported that, for the first time, complex DNA and RNA organic compounds of life, including uracil , cytosine and thymine , have been formed in the laboratory under outer space conditions, using starting chemicals, such as pyrimidine , found in meteorites.
Pyrimidine, like polycyclic aromatic hydrocarbons PAHs , the most carbon -rich chemical found in the universe , may have been formed in red giants or in interstellar dust and gas clouds, according to the scientists.
According to the panspermia hypothesis, microscopic life —distributed by meteoroids , asteroids and other small Solar System bodies —may exist throughout the universe.
The diversity of life on Earth is a result of the dynamic interplay between genetic opportunity , metabolic capability, environmental challenges,  and symbiosis.
As a consequence of these microbial activities, the physical-chemical environment on Earth has been changing on a geologic time scale , thereby affecting the path of evolution of subsequent life.
Because oxygen was toxic to most life on Earth at the time, this posed novel evolutionary challenges, and ultimately resulted in the formation of Earth's major animal and plant species.
This interplay between organisms and their environment is an inherent feature of living systems. The biosphere is the global sum of all ecosystems.
It can also be termed as the zone of life on Earth , a closed system apart from solar and cosmic radiation and heat from the interior of the Earth , and largely self-regulating.
The biosphere is postulated to have evolved , beginning with a process of biopoesis life created naturally from non-living matter, such as simple organic compounds or biogenesis life created from living matter , at least some 3.
In a general sense, biospheres are any closed, self-regulating systems containing ecosystems. This includes artificial biospheres such as Biosphere 2 and BIOS-3 , and potentially ones on other planets or moons.
The inert components of an ecosystem are the physical and chemical factors necessary for life—energy sunlight or chemical energy , water, heat, atmosphere , gravity , nutrients , and ultraviolet solar radiation protection.
To live in most ecosystems, then, organisms must be able to survive a range of conditions, called the "range of tolerance.
Beyond these zones are the "zones of intolerance," where survival and reproduction of that organism is unlikely or impossible. Organisms that have a wide range of tolerance are more widely distributed than organisms with a narrow range of tolerance.
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. 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.
Microbial life forms thrive even in the Mariana Trench , the deepest spot in the Earth's oceans. 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, is important for the search for life beyond Earth.
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  —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 is a component of the amino acids cysteine and methionine. The most biologically abundant 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. Deoxyribonucleic acid is a molecule that carries most of the genetic instructions used in the growth, development, functioning and reproduction of all known living organisms and many viruses.
DNA and RNA are nucleic acids ; alongside proteins and complex carbohydrates , they are one of the three major types of macromolecule that are essential for all known forms of life.
Most DNA molecules consist of two biopolymer strands coiled around each other to form a double helix. The two DNA strands are known as polynucleotides since they are composed of simpler units called nucleotides.
The nucleotides are joined to one another in a chain by covalent bonds between the sugar of one nucleotide and the phosphate of the next, resulting in an alternating sugar-phosphate backbone.
According to base pairing rules A with T, and C with G , hydrogen bonds bind the nitrogenous bases of the two separate polynucleotide strands to make double-stranded DNA.
The total amount of related DNA base pairs on Earth is estimated at 5. DNA stores biological information. The DNA backbone is resistant to cleavage, and both strands of the double-stranded structure store the same biological information.
Biological information is replicated as the two strands are separated. The two strands of DNA run in opposite directions to each other and are therefore anti-parallel.
Attached to each sugar is one of four types of nucleobases informally, bases. It is the sequence of these four nucleobases along the backbone that encodes biological information.
Under the genetic code , RNA strands are translated to specify the sequence of amino acids within proteins. Within cells, DNA is organized into long structures called chromosomes.
During cell division these chromosomes are duplicated in the process of DNA replication , providing each cell its own complete set of chromosomes.
Eukaryotic organisms animals, plants, fungi , and protists store most of their DNA inside the cell nucleus and some of their DNA in organelles , such as mitochondria or chloroplasts.
Within the chromosomes, chromatin proteins such as histones compact and organize DNA. These compact structures guide the interactions between DNA and other proteins, helping control which parts of the DNA are transcribed.
DNA was first isolated by Friedrich Miescher in The first known attempt to classify organisms was conducted by the Greek philosopher Aristotle — BC , who classified all living organisms known at that time as either a plant or an animal, based mainly on their ability to move.
He also 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, and divided the blooded animals into five groups: viviparous quadrupeds mammals , oviparous quadrupeds reptiles and amphibians , birds, fishes and whales.
The bloodless animals were also divided into five groups: cephalopods , crustaceans , insects which included the spiders, scorpions , and centipedes , in addition to what we define as insects today , shelled animals such as most molluscs and echinoderms , and " zoophytes " animals that resemble plants.
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.
The exploration of the Americas 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 s, Carl Linnaeus introduced his system of binomial nomenclature for the classification of species. Linnaeus attempted to improve the composition and reduce the length of the previously used many-worded names by abolishing unnecessary rhetoric, introducing new descriptive terms and precisely defining their meaning.
The fungi were originally treated as plants. For a short period Linnaeus had classified them in the taxon Vermes in Animalia, but later placed them back in Plantae.
Copeland classified the Fungi in his Protoctista, thus partially avoiding the problem but acknowledging their special status.
Evolutionary history shows that the fungi are more closely related to animals than to plants. As new discoveries enabled detailed study of cells and microorganisms, new groups of life were revealed, and the fields of cell biology and microbiology were created.
This led to the six-kingdom system and eventually to the current three-domain system , which is based on evolutionary relationships. As microbiology, molecular biology and virology developed, non-cellular reproducing agents were discovered, such as viruses and viroids.
Whether these are considered alive has been a matter of debate; viruses lack characteristics of life such as cell membranes, metabolism and the ability to grow or respond to their environments.
Viruses can still be classed into "species" based on their biology and genetics , but many aspects of such a classification remain controversial.
In May , scientists reported that 1 trillion species are estimated to be on Earth currently with only one-thousandth of one percent described. In the s cladistics emerged: a system arranging taxa based on clades in an evolutionary or phylogenetic tree.
Cells are the basic unit of structure in every living thing, and all cells arise from pre-existing cells by division.
Cell theory was formulated by Henri Dutrochet , Theodor Schwann , Rudolf Virchow and others during the early nineteenth century, and subsequently became widely accepted.
There are two primary types of cells. Prokaryotes lack a nucleus and other membrane-bound organelles , although they 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 that store genetic material. All species of large complex organisms are eukaryotes, including animals, plants and fungi, though most species of eukaryote are protist microorganisms.
The molecular mechanisms of cell biology are based on 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. Cells reproduce through a process of cell division in which the parent cell divides into two or more daughter cells.
For prokaryotes, cell division occurs through a process of fission in which the DNA is replicated, then the two copies are attached to parts of the cell membrane.
In eukaryotes , a more complex process of mitosis is followed. However, the end result is the same; the resulting cell copies are identical to each other and to the original cell except for mutations , and both are capable of further division following an interphase period.
Multicellular organisms may have first evolved through the formation of colonies of identical cells. These cells can form group organisms 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 specializations, making them dependent on the remainder of the organism for survival.
Such organisms are formed clonally or from a single germ cell that is capable of forming the various specialized cells that form the adult organism.
This specialization allows multicellular organisms to exploit resources more efficiently than single cells. Cells have evolved methods to perceive and respond to their microenvironment, thereby enhancing their adaptability.
Cell signaling coordinates cellular activities, and hence governs the basic functions of multicellular organisms. Signaling between cells can occur through direct cell contact using juxtacrine signalling , or indirectly through the exchange of agents as in the endocrine system.
In more complex organisms, coordination of activities can occur through a dedicated nervous system. Though life is confirmed only on Earth, many think that extraterrestrial life is not only plausible, but probable or inevitable.
Other locations within the Solar System that may host microbial life include the subsurface of Mars , the upper atmosphere of Venus ,  and subsurface oceans on some of the moons of the giant planets.
The inner and outer radii of this zone vary with the luminosity of the star, as does the time interval during which the zone survives. Stars more massive than the Sun have a larger habitable zone, but remain on the Sun-like "main sequence" of stellar evolution for a shorter time interval.
Small red dwarfs 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. Stars in regions with 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.
As a result, the number of civilizations in the galaxy can be estimated as low as 9. Artificial life is the simulation of any aspect of life, as through computers, robotics , or biochemistry.
Scientists study the logic of living systems by creating artificial environments—seeking to understand the complex information processing that defines such systems.
Synthetic biology is a new area of biotechnology that combines science and biological engineering. The common goal is the design and construction of new biological functions and systems not found in nature.
Synthetic biology includes the broad redefinition and expansion of biotechnology , with the ultimate goals of being able to design and build engineered biological systems that process information, manipulate chemicals, fabricate materials and structures, produce energy, provide food, and maintain and enhance human health and the environment.
Death is the permanent termination of all vital functions or life processes in an organism or cell.
After death, the remains of an organism re-enter 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 that 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 life ends, or when the state that follows life begins.
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 process by which a group of taxa or species dies out, reducing biodiversity.
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. 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.
A preserved specimen is called a fossil if it is older than the arbitrary date of 10, years ago. From Wikipedia, the free encyclopedia.
For other uses, see Life disambiguation. For "Life" in the personal sense, see Personal life and Everyday life. Characteristic that distinguishes physical entities having biological processes.
See also: Organism. See also: Entropy and life. Main article: Virus. Main article: Gaia hypothesis. Main article: Complex systems biology.
See also: Mathematical biology. Main article: Materialism. Plant growth in the Hoh Rainforest. Herds of zebra and impala gathering on the Maasai Mara plain.
Main article: Hylomorphism. Main article: Spontaneous generation. Main article: Vitalism. Life timeline.
This box: view talk edit. Single-celled life. Multicellular life. Earliest water. Earliest life. Earliest oxygen.
Atmospheric oxygen. Oxygen crisis. Sexual reproduction. Earliest plants. Earliest animals. Ediacara biota.
Cambrian explosion. Earliest apes. Ice Ages. See also: Human timeline , and Nature timeline. Main article: Abiogenesis.
Main article: Biosphere. Further information: Extremophile. Main article: DNA. Main article: Biological classification. Main article: Cell biology.
Main articles: Extraterrestrial life , Astrobiology , and Astroecology. Main articles: Artificial life and Synthetic biology.
Main article: Death. Main article: Extinction. Main article: Fossils. Biology , the study of life Astrobiology Biosignature Evolutionary history of life Lists of organisms by population Phylogenetics Viable system theory Central dogma of molecular biology Epigenetics Synthetic biology Hypothetical types of biochemistry Carbon-based life.
Therefore, this listing may be paraphyletic if cellular life evolved from non-cellular life, or polyphyletic if the most recent common ancestor were not included.
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Our lifestyle is what helps us define ourselves to others and it conveys our morals and values. But what makes something a lifestyle per se?
Laying off an immigrant impacts them, their children, their partners, their whole life. This began her life in the nightclub scene, where she spent most of her days and nights.
It was at this nightclub that she met the first of the five husbands she would have throughout her life , married him at age 14 and divorced a few weeks later.
In addition to the idioms beginning with life. Stave off inanition with the word morsels from this month!
Idioms for life as large as life , actually; indeed: There he stood, as large as life. Also as big as life. Also for one's life.
Not on your life! Words related to life heart , growth , soul , activity , course , career , season , survival , generation , time , history , body , living , woman , person , existence , man , story , development , lifestyle.