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Enlarge picture
A cluster of Escherichia coli bacteria magnified 10,000 times.
A microorganism (also spelled as microrganism) or microbe is an organism that is microscopic (too small to be seen by the human eye). The study of microorganisms is called microbiology. Microorganisms include bacteria, fungi, archaea or protists, but not viruses and prions, which are generally classified as non-living. Most microorganisms are single-celled, or unicellular, but some are microscopic, and some unicellular protists are visible to the average human.

Microorganisms live almost everywhere on Earth where there is liquid water, including hot springs, on the ocean floor, and deep inside rocks within Earth's crust. Microorganisms are critical to nutrient recycling in ecosystems as they act as decomposers. As some microorganisms can also fix nitrogen, they are an important part of the nitrogen cycle. However, pathogenic microbes can invade other organisms and cause diseases that kill millions of people every year.[1]

History

Evolution

Further information: Timeline of evolution
Single-celled microorganisms were the first forms of life to develop on earth, approximately 3–4 billion years ago.[2][3][4] Further evolution was slow,[5] and for about 3 billion years in the Precambrian eon, all organisms were microscopic.[6] So, for most of the history of life on Earth the only form of life were microorganisms.[7] Bacteria, algae and fungi have been identified in amber that is 220 million years old, which shows that the morphology of microorganisms have changed little since the triassic period.[8]

Most microorganisms can reproduce rapidly and microbes such as bacteria can also freely exchange genes by conjugation, transformation and transduction between widely-divergent species.[9] This horizontal gene transfer, coupled with a high mutation rate and many other means of genetic variation, allows microorganisms to swiftly evolve (via natural selection) to survive in new environments and respond to environmental stresses. This rapid evolution has led to the recent development of 'super-bugs' — pathogenic bacteria that are resistant to modern antibiotics.[10]

Discovery

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Antonie van Leeuwenhoek, the first person to observe microorganisms using a microscope


The existence of microorganisms was hypothesized during the late Middle Ages but they were not observed or proven until the invention of the microscope in the 17th century. In The Canon of Medicine (1020), Abū Alī ibn Sīnā (Avicenna) stated that bodily secretion is contaminated by foul foreign earthly bodies before being infected, but he did not view them as primary causes of disease. When the Black Death bubonic plague reached al-Andalus in the 14th century, Ibn Khatima and Ibn al-Khatib hypothesized that infectious diseases are caused by microorganisms which enter the human body.[11] Such ideas became more popular in Europe during the Renaissance, particularly through the writing of the Italian monk Girolamo Fracastoro.[12]

Prior to Anton van Leeuwenhoek's discovery of microorganisms in 1675, it had been a mystery as to why grapes could be turned into wine, milk into cheese, or why food would spoil. Leeuwenhoek did not make the connection between these processes and microorganisms, but using the microscope, he did establish that there were forms of life that were not visible to the naked eye.[13][14] Leeuwenhoek's discovery, along with subsequent observations by Lazzaro Spallanzani and Louis Pasteur, ended the long-held belief that life spontaneously appeared from non-living substances during the process of spoilage.

Lazzarro Spallanzani found that microorganisms could only settle in a broth if the broth was exposed to the air. He also found that boiling the broth would sterilise it and kill the microorganisms. Louis Pasteur expanded upon Spallanzani's findings by exposing boiled broths to the air, in vessels that contained a filter to prevent all particles from passing through to the growth medium, and also in vessels with no filter at all, with air being admitted via a curved tube that would not allow dust particles to come in contact with the broth. By boiling the broth beforehand, Pasteur ensured that no microorganisms survived within the broths at the beginning of his experiment. Nothing grew in the broths in the course of Pasteur's experiment. This meant that the living organisms that grew in such broths came from outside, as spores on dust, rather than spontaneously generated within the broth. Thus, Pasteur dealt the death blow to the theory of spontaneous generation and supported germ theory.

In 1876, Robert Koch established that microbes can cause disease. He did this by finding that the blood of cattle who were infected with anthrax always had large numbers of Bacillus anthracis. Koch also found that he could transmit anthrax from one animal to another by taking a small sample of blood from the infected animal and injecting it into a healthy one, causing the healthy animal to become sick. He also found that he could grow the bacteria in a nutrient broth, inject it into a healthy animal, and cause illness. Based upon these experiments, he devised criteria for establishing a causal link between a microbe and a disease in what are now known as Koch's postulates.[15] Though these postulates cannot be applied in all cases, they do retain historical importance in the development of scientific thought and can still be used today.[16]

Classification

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Evolutionary tree showing the common ancestry of all three domains of life.[17] Bacteria are colored blue, eukaryotes red, and archaea green. Relative positions of some phyla are shown around the tree.
Microorganisms can be found almost anywhere in the taxonomic organization of life on the planet. Bacteria and archaea are almost always microscopic, while a number of eukaryotes are also microscopic, including most protists and a number of fungi. Viruses are generally regarded as not living and therefore are not microbes, although the field of microbiology also encompasses the study of viruses.

Prokaryotes

Prokaryotes are organisms that lack a cell nucleus and the other organelles found in eukaryotes. Prokaryotes are almost always unicellular, although some such as myxobacteria can aggregate into complex structures as part of their life cycle. These organisms are divided into two groups, the archaea and the bacteria.

Bacteria

Main article: Bacteria
Enlarge picture
Staphylococcus aureus bacteria magnified about 10,000x
Bacteria are the most diverse and abundant group of organisms on Earth. Bacteria inhabit practically all environments where some liquid water is available and the temperature is below +140 °C. They are found in sea water, soil, animals' gastrointestinal tracts, hot springs and even deep beneath the Earth's crust in rocks.[18] Practically all surfaces which have not been specially sterilized are covered in bacteria. The number of bacteria in the world is estimated to be around five million trillion trillion, or 5 × 1030.[19]

Bacteria are practically all invisible to the naked eye, with few extremely rare exceptions, such as Thiomargarita namibiensis.[20] They are unicellular organisms and lack organelles. Their genome is usually a single loop of DNA, although they can also harbor small pieces of DNA called plasmids. Bacteria are surrounded by a cell wall, which provides strength and rigidity to their cells. They reproduce by binary fission or sometimes by budding. Some species form extremely resilient spores, but for bacteria this is a mechanism for survival, not reproduction. Under optimal conditions bacteria can grow extremely rapidly and can double as quickly as every 10 minutes.[21]

Archaea

Main article: Archaea
Archaea are also single-celled organisms that lack nuclei. In the past, the differences between bacteria and archaea were not recognised and archaea were classified with bacteria as part of the kingdom Monera. Archaea differ from bacteria in their genetics and biochemistry. For example, while bacterial cell membranes are made from phosphoglycerides with ester bonds, archaean membranes are made of ether lipids.

Archaea were originally described in extreme environments, such as hot springs, but have since been found in all types of habitats.[22] Only now are scientists beginning to appreciate how common archaea are in the environment, with crenarchaeota being the most common form of life in the ocean, dominating ecosystems below 150 m in depth.[23][24] These organisms are also common in soil and play a vital role in ammonia oxidation.[25]

Eukaryotes

Main article: Eukaryote
Enlarge picture
An amoeba, a typical eukaryotic microorganism
All living things which are individually visible to the naked eye are eukaryotes (with few exceptions, such as Thiomargarita namibiensis), including humans. However, a large number of eukaryotes are also microorganisms. Unlike bacteria and archaea, eukaryotes contain organelles such as the cell nucleus, the Golgi apparatus and mitochondria in their cells. The nucleus is an organelle which houses the DNA that makes up a cell's genome. DNA itself is arranged in complex chromosomes.[26] Mitochondria are organelles vital in metabolism as they are the site of the citric acid cycle and oxidative phosphorylation. They evolved from symbiotic bacteria and retain a remnant genome.[27] Like bacteria, plant cells have cell walls, and contain organelles such as chloroplasts in addition to the organelles in other eukaryotes. Chloroplasts produce energy from light by photosynthesis, and were also originally symbiotic bacteria.[27]

Unicellular eukaryotes are those eukaryotic organisms that consist of a single cell throughout their life cycle. This qualification is significant since most multicellular eukaryotes consist of a single cell called a zygote at the beginning of their life cycles. Microbial eukaryotes can be either haploid or diploid, and some organisms have multiple cell nuclei (see coenocyte). However, not all microorganisms are unicellular as some microscopic eukaryotes are made from multiple cells.

Protists

Main article: Protista


Of eukaryotic groups, the protists are most commonly unicellular and microscopic. This is a diverse group of organisms which are not easy to classify. Several algae species are multicellular protists, and slime molds have unique life cycles with unicellular, colonial, and multicellular stages.

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A microscopic mite Lorryia formosa.

Animals

Main article: Micro-animals
All animals are multicellular, but some are too small to be seen by the naked eye. Microscopic arthropods include dust mites and spider mites. Microscopic crustaceans include copepods and the cladocera. Another common group of microscopic animals are the rotifers, which are filter feeders that are usually found in fresh water.

Fungi

Main article: Fungus
The fungi have several unicellular species, such as baker's yeast (Saccharomyces cerevisiae).

Plants

Main article: Plant
The green algae are a large group of photosynthetic eukaryotes that include many microscopic organisms. Although some green algae are classified as protists, others such as charophyta are classified with embryophyte plants, which are the most familiar group of land plants.

Habitats and ecology

Microorganisms are found in almost every habitat present in nature. Even in hostile environments such as the poles, deserts, geysers, rocks, and the deep sea, some types of microorganisms have adapted to the extreme conditions and sustained colonies; these organisms are known as extremophiles. Extremophiles have been isolated from rocks as much as 7 kilometres below the earth's surface,[28] and it has been suggested that the amount of living organisms below the earth's surface may be comparable with the amount of life on or above the surface.[18] Extremophiles have been known to survive for a prolonged time in a vacuum, and can be highly resistant to radiation, which may even allow them to survive in space.[29] Many types of microorganisms have intimate symbiotic relationships with other larger organisms; some of which are mutually beneficial (mutualism), while others can be damaging to the host organism (parasitism). If microorganisms can cause disease in a host they are known as pathogens.

Extremophiles

Main article: Extremophile


Certain microbes have adapted so that they can survive and even thrive in conditions that are normally fatal to most lifeforms. Microorganisms have been found around underwater black smokers and in geothermal hot springs, as well as in extremely salty bodies of water.

Soil microbes

The nitrogen cycle in soils depends on the fixation of atmospheric nitrogen. One way this can occur is in the nodules in the roots of legumes that contain symbiotic bacteria of the genera Rhizobium, Mesorhizobium, Sinorhizobium, Bradyrhizobium, and Azorhizobium.[30]

Symbiotic microbes

Symbiotic microbes

Importance

Microorganisms are vital to humans and the environment, as they participate in the Earth's element cycles such as the carbon cycle and nitrogen cycle, as well as fulfilling other vital roles in virtually all ecosystems, such as recycling other organisms' dead remains and waste products through decomposition. Microbes also have an important place in most higher-order multicellular organisms as symbionts. Many blame the failure of Biosphere 2 on an improper balance of microbes.

Use in food

Main article: Fermentation (food)
Microorganisms are used in brewing, baking and other food-making processes.

The lactobacillus / lactobacilli and yeasts in sourdough bread are especially useful. To make bread, one uses a small amount (20-25%) of "starter" dough which has the yeast culture, and mixes it with flour and water. Some of this resulting dough is then saved to be used as the starter for subsequent batches. The culture can be kept at room temperature and continue yielding bread for years as long as it remains supplied with new flour and water. This technique was often used when "on the trail" in the American Old West.

Microorganisms are also used to control the fermentation process in the production of cultured dairy products such as yogurt and cheese. The cultures also provide flavour and aroma, and to inhibit undesirable organisms.[31]

Use in water treatment

Main article: Sewage treatment


Microbes are used in the biological treatment of sewage and industrial waste effluents.

Use in energy

Main article: Ethanol fermentation
Microbes are used in fermentation to produce ethanol.

Use in science

Microbes are also essential tools in biotechnology, biochemistry, genetics, and molecular biology. Microbes can be harnessed for uses such as creating steroids and treating skin diseases. Scientists are also considering using microbes for living fuel cells, and as a solution for pollution.

Use in warfare

Main article: Biological warfare
In the Middle Ages, dead corpses were thrown over walls during sieges, this meant that any bacteria carrying the disease that killed the person/creature would multiply in the vicinity of the opposing side.

Importance in human health

Human digestion

Microorganisms can form an endosymbiotic relationship with other, larger, organisms. For example, the bacteria that live within the human digestive system contribute to gut immunity, synthesise vitamins such as folic acid and biotin, and ferment complex undigestible carbohydrates.[32]

Diseases and immunology

Microorganisms are the cause of many infectious diseases. The organisms involved include bacteria, causing diseases such as plague, tuberculosis and anthrax; protozoa, causing diseases such as malaria, sleeping sickness and toxoplasmosis; and also fungi causing diseases such as ringworm, candidiasis or histoplasmosis. However, other diseases such as influenza, yellow fever or AIDS are caused by viruses, which are not living organisms and are not therefore microorganisms. As of 2007, no clear examples of archaean pathogens are known,[33] although a relationship has been proposed between the presence of some methanogens and human periodontal disease.[34]

Hygiene

Main article: Hygiene


Hygiene is the avoidance of infection or food spoiling by eliminating microorganisms from the surroundings. As microorganisms, particularly bacteria, are found practically everywhere, this means in most cases the reduction of harmful microorganisms to acceptable levels. However, in some cases it is required that an object or substance is completely sterile, i.e. devoid of all living entities and viruses. A good example of this is a hypodermic needle.

In food preparation microorganisms are reduced by preservation methods (such as the addition of vinegar), clean utensils used in preparation, short storage periods or by cool temperatures. If complete sterility is needed, the two most common methods are irradiation and the use of an autoclave, which resembles a pressure cooker.

There are several methods for investigating the level of hygiene in a sample of food, drinking water, equipment etc. Water samples can be filtrated through an extremely fine filter. This filter is then placed in a nutrient medium. Microorganisms on the filter then grow to form a visible colony. Harmful microorganisms can be detected in food by placing a sample in a nutrient broth designed to enrich the organisms in question. Various methods, such as selective media or PCR, can then be used for detection. The hygiene of hard surfaces, such as cooking pots, can be tested by touching them with a solid piece of nutrient medium and then allowing the microorganisms to grow on it.

There are no conditions where all microorganisms would grow, and therefore often several different methods are needed. For example, a food sample might be analyzed on three different nutrient mediums designed to indicate the presence of "total" bacteria (conditions where many, but not all, bacteria grow), molds (conditions where the growth of bacteria is prevented by e.g. antibiotics) and coliform bacteria (these indicate a sewage contamination).

In fiction

Microorganisms have frequently played an important part in science fiction, both as agents of disease, and as entities in their own right.

Some notable uses of microorganisms in fiction include: Twelve Monkeys, James Cole (Bruce Willis) searches for a pure germ in the past, which creates a deadly plague in the future. Also, Brad Pitt (as Jeffery Goines) discusses his germaphobia.

See also

References

1. ^ 2002 WHO mortality data Accessed 20 January 2007
2. ^ Schopf J (2006). "Fossil evidence of Archaean life". Philos Trans R Soc Lond B Biol Sci 361 (1470): 869-85. PMID 16754604. 
3. ^ Altermann W, Kazmierczak J (2003). "Archean microfossils: a reappraisal of early life on Earth". Res Microbiol 154 (9): 611-7. PMID 14596897. 
4. ^ Cavalier-Smith T (2006). "Cell evolution and Earth history: stasis and revolution". Philos Trans R Soc Lond B Biol Sci 361 (1470): 969-1006. PMID 16754610. 
5. ^ Schopf J (1994). "Disparate rates, differing fates: tempo and mode of evolution changed from the Precambrian to the Phanerozoic.". Proc Natl Acad Sci U S A 91 (15): 6735-42. PMID 8041691. 
6. ^ Stanley S (1973). "An Ecological Theory for the Sudden Origin of Multicellular Life in the Late Precambrian". Proc Natl Acad Sci U S A 70 (5): 1486-1489. PMID 16592084. 
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8. ^ Schmidt A, Ragazzi E, Coppellotti O, Roghi G (2006). "A microworld in Triassic amber". Nature 444 (7121): 835. PMID 17167469. 
9. ^ Wolska K (2003). "Horizontal DNA transfer between bacteria in the environment.". Acta Microbiol Pol 52 (3): 233-43. PMID 14743976. 
10. ^ Enright M, Robinson D, Randle G, Feil E, Grundmann H, Spratt B (2002). "The evolutionary history of methicillin-resistant Staphylococcus aureus (MRSA).". Proc Natl Acad Sci U S A 99 (11): 7687-92. PMID 12032344. 
11. ^ Ibrahim B. Syed, Ph.D. (2002). "Islamic Medicine: 1000 years ahead of its times", Journal of the Islamic Medical Association 2, p. 2-9.
12. ^ Beretta M (2003). "The revival of Lucretian atomism and contagious diseases during the renaissance". Medicina nei secoli 15 (2): 129-54. PMID 15309812. 
13. ^ Leeuwenhoek A (1753). "Part of a Letter from Mr Antony van Leeuwenhoek, concerning the Worms in Sheeps Livers, Gnats, and Animalcula in the Excrements of Frogs". Philosophical Transactions (1683–1775) 22: 509–18.  Accessed 30 November 2006
14. ^ Leeuwenhoek A (1753). "Part of a Letter from Mr Antony van Leeuwenhoek, F. R. S. concerning Green Weeds Growing in Water, and Some Animalcula Found about Them". Philosophical Transactions (1683–1775) 23: 1304–11.  Accessed 30 November 2006
15. ^ The Nobel Prize in Physiology or Medicine 1905 Nobelprize.org Accessed November 22, 2006.
16. ^ O'Brien S, Goedert J (1996). "HIV causes AIDS: Koch's postulates fulfilled". Curr Opin Immunol 8 (5): 613–18. PMID 8902385. 
17. ^ Ciccarelli FD, Doerks T, von Mering C, Creevey CJ, Snel B, Bork P (2006). "Toward automatic reconstruction of a highly resolved tree of life". Science 311 (5765): 1283-7. PMID 16513982. 
18. ^ Gold T (1992). "The deep, hot biosphere". Proc. Natl. Acad. Sci. U.S.A. 89 (13): 6045-9. PMID 1631089. 
19. ^ Whitman W, Coleman D, Wiebe W (1998). "Prokaryotes: the unseen majority". Proc Natl Acad Sci U S A 95 (12): 6578 – 83. PMID 9618454. 
20. ^ Schulz H, Jorgensen B (2001). "Big bacteria.". Annu Rev Microbiol 55: 105-37. PMID 11544351. 
21. ^ Eagon R (1962). "Pseudomonas natriegens, a marine bacterium with a generation time of less than 10 minutes.". J Bacteriol 83: 736-7. PMID 13888946. 
22. ^ Robertson C, Harris J, Spear J, Pace N (2005). "Phylogenetic diversity and ecology of environmental Archaea.". Curr Opin Microbiol 8 (6): 638-42. PMID 16236543. 
23. ^ Karner MB, DeLong EF, Karl DM (2001). "Archaeal dominance in the mesopelagic zone of the Pacific Ocean". Nature 409 (6819): 507-10. PMID 11206545. 
24. ^ Sinninghe Damsté JS, Rijpstra WI, Hopmans EC, Prahl FG, Wakeham SG, Schouten S (2002). "Distribution of membrane lipids of planktonic Crenarchaeota in the Arabian Sea". Appl. Environ. Microbiol. 68 (6): 2997-3002. PMID 12039760. 
25. ^ Leininger S, Urich T, Schloter M, et al (2006). "Archaea predominate among ammonia-oxidizing prokaryotes in soils". Nature 442 (7104): 806-9. PMID 16915287. 
26. ^ "Eukaryota: More on Morphology." [1] (Accessed 10 October 2006)
27. ^ Dyall S, Brown M, Johnson P (2004). "Ancient invasions: from endosymbionts to organelles.". Science 304 (5668): 253-7. PMID 15073369. 
28. ^ Szewzyk U, Szewzyk R, Stenström T (1994). "Thermophilic, anaerobic bacteria isolated from a deep borehole in granite in Sweden.". Proc Natl Acad Sci U S A 91 (5): 1810-3. PMID 11607462. 
29. ^ Horneck G (1981). "Survival of microorganisms in space: a review.". Adv Space Res 1 (14): 39-48. PMID 11541716. 
30. ^ Barea J, Pozo M, Azcón R, Azcón-Aguilar C (2005). "Microbial co-operation in the rhizosphere.". J Exp Bot 56 (417): 1761-78. PMID 15911555. 
31. ^ Dairy Microbiology. University of Guelph. Retrieved on 2006-10-09.
32. ^ O'Hara A, Shanahan F (2006). "The gut flora as a forgotten organ.". EMBO Rep 7 (7): 688-93. PMID 16819463. 
33. ^ Eckburg P, Lepp P, Relman D (2003). "Archaea and their potential role in human disease". Infect Immun 71 (2): 591-6. PMID 12540534. 
34. ^ Lepp P, Brinig M, Ouverney C, Palm K, Armitage G, Relman D (2004). "Methanogenic Archaea and human periodontal disease". Proc Natl Acad Sci U S A 101 (16): 6176-81. PMID 15067114. 

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Plantae
  • Chromalveolata
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    Microbiology is the study of microorganisms, which are unicellular or cell-cluster microscopic organisms.[1] This includes eukaryotes such as fungi and protists, and prokaryotes such as bacteria and certain algae.
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    Bacteria

    Phyla

    Actinobacteria
    Aquificae
    Chlamydiae
    Bacteroidetes/Chlorobi
    Chloroflexi
    Chrysiogenetes
    Cyanobacteria
    Deferribacteres
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    Eukarya
    Whittaker & Margulis, 1978
    (unranked) Opisthokonta

    Kingdom: Fungi
    (L., 1753) R.T. Moore, 1980[1]

    Subkingdom/Phyla

    Chytridiomycota
    Blastocladiomycota

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    Archaea
    Woese, Kandler & Wheelis, 1990

    Phyla

    Crenarchaeota
    Euryarchaeota
    Korarchaeota
    Nanoarchaeota
    ARMAN
    The Archaea (
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    Eukarya
    Whittaker & Margulis, 1978

    Kingdom: Protista*
    Haeckel, 1866

    Typical phyla
    • Chromalveolata
    • Chromista

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    Prion Diseases (TSEs)
    Classification & external resources

    ICD-10 A81
    ICD-9 046

    A prion (IPA: /ˈpriːɒn/[1]
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    Eukarya
    Whittaker & Margulis, 1978

    Kingdom: Protista*
    Haeckel, 1866

    Typical phyla
    • Chromalveolata
    • Chromista

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    EARTH was a short-lived Japanese vocal trio which released 6 singles and 1 album between 2000 and 2001. Their greatest hit, their debut single "time after time", peaked at #13 in the Oricon singles chart.
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    Water is a common chemical substance that is essential to all known forms of life.[1] In typical usage, water refers only to its liquid form or state, but the substance also has a solid state, ice, and a gaseous state, water vapor.
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    hot spring is a spring that is produced by the emergence of geothermally-heated groundwater from the earth's crust. There are hot springs all over the earth, on every continent and even under the oceans and seas.
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    Earth's oceans
    (World Ocean)
    • Arctic Ocean
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    An ocean (from Ωκεανός, Okeanos
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    Crust may refer to:
    • Crust (geology), the outer solid layer of a planet
    • Crust punk, a hardcore punk / heavy metal fusion
    • Crust (band), a psychedelic Texas band
    • Crust (bread), the outer solid portion of a baked substance
    Crust may also refer to:

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      ecosystem is a natural unit consisting of all plants, animals and micro-organisms in an area functioning together with all the non-living physical factors of the environment.
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      Decomposers (or saprotrophs) are organisms that consume dead organisms, and, in doing so, carry out the natural process of decomposition. Like herbivores and predators, decomposers are heterotrophic, meaning that they use organic substrates to get their energy, carbon and nutrients
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      Nitrogen fixation is the process by which nitrogen is taken from its natural, relatively inert molecular form (N2) in the atmosphere and converted into nitrogen compounds (such as, notably, ammonia, nitrate and nitrogen dioxide)[1]
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      nitrogen cycle is the biogeochemical cycle that describes the transformations of nitrogen and nitrogen-containing compounds in nature.

      Earth's atmosphere is about 78% nitrogen, making it the largest pool of nitrogen.
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      A pathogen or infectious agent is a biological agent that causes disease or illness to its host.[1] The term is most often used for agents that disrupt the normal physiology of a multicellular animal or plant.
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      disease is an abnormal condition of an organism that impairs bodily functions. In human beings, "disease" is often used more broadly to refer to any condition that causes discomfort, dysfunction, distress, social problems, and/or death to the person afflicted, or similar problems
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      timeline of the evolution of life outlines the major events in the development of life on the planet Earth. For a thorough explanatory context, see the history of Earth, and geologic time scale. The dates given in this article are estimates based on scientific evidence.
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      origin of life, is the study of how life on Earth might have emerged from non-life. Scientific consensus is that abiogenesis occurred sometime between 4.4 billion years ago, when water vapor first liquefied,[2] and 2.
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      To help compare orders of magnitude of different times this page lists times between 1017 seconds and 1018 seconds (3.2 and 32 billion years) See also times of other orders of magnitude.
      • Shorter times
      • 3.9 to 4.

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      Precambrian (Pre-Cambrian) is an informal name for the supereon comprising the eons of the geologic timescale that came before the current Phanerozoic eon. It spans from the formation of Earth around 4500 Ma (million years ago) to the evolution of abundant
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      eon (sometimes spelled aeon) is a period of time arbitrarily designated by humans. Geologists refer to an eon as the largest subdivision of time on the geologic time scale.
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      Life on Earth

      Life on Earth DVD cover

      Picture format 4:3
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      Episode duration 55 minutes
      Executive producer(s) Christopher Parsons

      Presented by David Attenborough
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