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Chemosynthesis

January 31, 2023

This article is about biological consumption of energy from inorganic compounds. For chemical synthesis in molecular nanotechnology, see Chemosynthesis (nanotechnology).

In biochemistry, chemosynthesis is the biological conversion of one or more carbon-containing molecules (usually carbon dioxide or methane) and nutrients into organic matter using the oxidation of inorganic compounds (e.g., hydrogen gas, hydrogen sulfide) or ferrous ions as a source of energy, rather than sunlight, as in photosynthesis. Chemoautotrophs, organisms that obtain carbon from carbon dioxide through chemosynthesis, are phylogenetically diverse. Groups that include conspicuous or biogeochemically-important taxa include the sulfur-oxidizing Gammaproteobacteria, the Campylobacterota, the Aquificota, the methanogenic archaea, and the neutrophilic iron-oxidizing bacteria.

Venenivibrio stagnispumantis gains energy by oxidizing hydrogen gas.

Many microorganisms in dark regions of the oceans use chemosynthesis to produce biomass from single-carbon molecules. Two categories can be distinguished. In the rare sites where hydrogen molecules (H2) are available, the energy available from the reaction between CO2 and H2 (leading to production of methane, CH4) can be large enough to drive the production of biomass. Alternatively, in most oceanic environments, energy for chemosynthesis derives from reactions in which substances such as hydrogen sulfide or ammonia are oxidized. This may occur with or without the presence of oxygen.

Many chemosynthetic microorganisms are consumed by other organisms in the ocean, and symbiotic associations between chemosynthesizers and respiring heterotrophs are quite common. Large populations of animals can be supported by chemosynthetic secondary production at hydrothermal vents, methane clathrates, cold seeps, whale falls, and isolated cave water.

It has been hypothesized that anaerobic chemosynthesis may support life below the surface of Mars, Jupiter's moon Europa, and other planets.[1] Chemosynthesis may have also been the first type of metabolism that evolved on Earth, leading the way for cellular respiration and photosynthesis to develop later.

Hydrogen sulfide chemosynthesis process

Main article: Hydrogen sulfide chemosynthesis

Giant tube worms use bacteria in their trophosome to fix carbon dioxide (using hydrogen sulfide as their energy source) and produce sugars and amino acids.[2] Some reactions produce sulfur:

hydrogen sulfide chemosynthesis:[3]
18H2S + 6CO2 + 3O2 → C6H12O6 (carbohydrate) + 12H2O + 18S

Instead of releasing oxygen gas while fixing carbon dioxide as in photosynthesis, hydrogen sulfide chemosynthesis produces solid globules of sulfur in the process. In bacteria capable of chemoautotrophy (a form a chemosynthesis), such as purple sulfur bacteria,[4] yellow globules of sulfur are present and visible in the cytoplasm.

Discovery

 
Giant tube worms (Riftia pachyptila) have an organ containing chemosynthetic bacteria instead of a gut.

In 1890, Sergei Winogradsky proposed a novel type of life process called "anorgoxydant". His discovery suggested that some microbes could live solely on inorganic matter and emerged during his physiological research in the 1880s in Strasbourg and Zürich on sulfur, iron, and nitrogen bacteria.

In 1897, Wilhelm Pfeffer coined the term "chemosynthesis" for the energy production by oxidation of inorganic substances, in association with autotrophic carbon dioxide assimilation—what would be named today as chemolithoautotrophy. Later, the term would be expanded to include also chemoorganoautotrophs, which are organisms that use organic energy substrates in order to assimilate carbon dioxide.[5] Thus, chemosynthesis can be seen as a synonym of chemoautotrophy.

The term "chemotrophy", less restrictive, would be introduced in the 1940s by André Lwoff for the production of energy by the oxidation of electron donors, organic or not, associated with auto- or heterotrophy.[6][7]

Hydrothermal vents

Main article: Hydrothermal_vent § Biology_of_hydrothermal_vents
Hydrothermal vent fauna
 
 
A hydrothermal vent where micro organisms undergo chemo-synthesis on East Pacific Rise, and complex fauna on hydrothermal vents with shrimp, squat lobsters, vent mussels.

The suggestion of Winogradsky was confirmed nearly 90 years later, when hydrothermal ocean vents were predicted to exist in the 1970s. The hot springs and strange creatures were discovered by Alvin, the world's first deep-sea submersible, in 1977 at the Galapagos Rift. At about the same time, then-graduate student Colleen Cavanaugh proposed chemosynthetic bacteria that oxidize sulfides or elemental sulfur as a mechanism by which tube worms could survive near hydrothermal vents. Cavanaugh later managed to confirm that this was indeed the method by which the worms could thrive, and is generally credited with the discovery of chemosynthesis.[8]

A 2004 television series hosted by Bill Nye named chemosynthesis as one of the 100 greatest scientific discoveries of all time.[9][10]

Oceanic crust

In 2013, researchers reported their discovery of bacteria living in the rock of the oceanic crust below the thick layers of sediment, and apart from the hydrothermal vents that form along the edges of the tectonic plates. Preliminary findings are that these bacteria subsist on the hydrogen produced by chemical reduction of olivine by seawater circulating in the small veins that permeate the basalt that comprises oceanic crust. The bacteria synthesize methane by combining hydrogen and carbon dioxide.[11]

Chemosynthesis as an innovation for researches

Despite the fact that the process of chemosynthesis has been known for more than a hundred years, its significance and importance are still relevant today in the transformation of chemical elements in biogeochemical cycles. Today, the vital processes of nitrifying bacteria, which lead to the oxidation of ammonia to nitric acid, require scientific substantiation and additional research. The ability of bacteria to convert inorganic substances into organic ones suggests that chemosynthetics can accumulate valuable resources for human needs.

Chemosynthetic communities in different environments are important biological systems in terms of their ecology, evolution and biogeography, as well as their potential as indicators of the availability of permanent hydrocarbon- based energy sources. In the process of chemosynthesis, bacteria produce organic matter where photosynthesis is impossible. Isolation of thermophilic sulfate-reducing bacteria Thermodesulfovibrio yellowstonii and other types of chemosynthetics provides prospects for further research. Thus, the importance of chemosynthesis remains relevant for use in innovative technologies, conservation of ecosystems, human life in general. The role of Sergey Winogradsky in discovering the phenomenon of chemosynthesis is underestimated and needs further research and popularization.[12]

See also

References

  1. ^ Julian Chela-Flores (2000): "Terrestrial microbes as candidates for survival on Mars and Europa", in: Seckbach, Joseph (ed.) Journey to Diverse Microbial Worlds: Adaptation to Exotic Environments, Springer, pp. 387–398. ISBN 0-7923-6020-6
  2. ^ Biotechnology for Environmental Management and Resource Recovery. Springer. 2013. p. 179. ISBN 978-81-322-0876-1.
  3. ^ "Chemolithotrophy | Boundless Microbiology". courses.lumenlearning.com. Retrieved 2020-04-11.
  4. ^ The Purple Phototrophic Bacteria. Hunter, C. Neil. Dordrecht: Springer. 2009. ISBN 978-1-4020-8814-8. OCLC 304494953.{{cite book}}: CS1 maint: others (link)
  5. ^ Kellerman, M. Y.; et al. (2012). "Autotrophy as a predominant mode of carbon fixation in anaerobic methane-oxidizing microbial communities". Proc. Natl. Acad. Sci. U.S.A. 109 (47): 19321–19326. Bibcode:2012PNAS..10919321K. doi:10.1073/pnas.1208795109. PMC 3511159. PMID 23129626.
  6. ^ Kelly, D. P.; Wood, A. P. (2006). "The Chemolithotrophic Prokaryotes". The Prokaryotes. New York: Springer. pp. 441–456. doi:10.1007/0-387-30742-7_15. ISBN 978-0-387-25492-0.
  7. ^ Schlegel, H. G. (1975). "Mechanisms of Chemo-Autotrophy" (PDF). In Kinne, O. (ed.). Marine Ecology. Vol. 2, Part I. pp. 9–60. ISBN 0-471-48004-5.
  8. ^ Cavenaugh, Colleen M.; et al. (1981). "Prokaryotic Cells in the Hydrothermal Vent Tube Worms Riftia Jones: Possible Chemoautotrophic Symbionts". Science. 213 (4505): 340–342. doi:10.1126/science.213.4505.340. PMID 17819907.
  9. ^ "100 Greatest Discoveries (2004–2005)". IMDb.
  10. ^ . Science. Archived from the original on March 19, 2013. Watch the "Greatest Discoveries in Evolution" online.
  11. ^ "Life deep within oceanic crust sustained by energy from interior of Earth". ScienceDaily. 14 March 2013. Retrieved March 16, 2013.
  12. ^ Paraska, O. A.; Horban, A. Ye; Matselyukh, B. P.; Shchur, S. A.; Shenderovskyj, V. А. (2022-07-24). "Chemosynthesis: a history of innovation". Infusion & Chemotherapy (2): 50–56. doi:10.32902/2663-0338-2022-2-50-56. ISSN 2709-0957. S2CID 251045231.

External links

  • Chemosynthetic Communities in the Gulf of Mexico 2010-05-28 at the Wayback Machine

January 31, 2023
chemosynthesis, this, article, about, biological, consumption, energy, from, inorganic, compounds, chemical, synthesis, molecular, nanotechnology, nanotechnology, biochemistry, chemosynthesis, biological, conversion, more, carbon, containing, molecules, usuall. This article is about biological consumption of energy from inorganic compounds For chemical synthesis in molecular nanotechnology see Chemosynthesis nanotechnology In biochemistry chemosynthesis is the biological conversion of one or more carbon containing molecules usually carbon dioxide or methane and nutrients into organic matter using the oxidation of inorganic compounds e g hydrogen gas hydrogen sulfide or ferrous ions as a source of energy rather than sunlight as in photosynthesis Chemoautotrophs organisms that obtain carbon from carbon dioxide through chemosynthesis are phylogenetically diverse Groups that include conspicuous or biogeochemically important taxa include the sulfur oxidizing Gammaproteobacteria the Campylobacterota the Aquificota the methanogenic archaea and the neutrophilic iron oxidizing bacteria Venenivibrio stagnispumantis gains energy by oxidizing hydrogen gas Many microorganisms in dark regions of the oceans use chemosynthesis to produce biomass from single carbon molecules Two categories can be distinguished In the rare sites where hydrogen molecules H2 are available the energy available from the reaction between CO2 and H2 leading to production of methane CH4 can be large enough to drive the production of biomass Alternatively in most oceanic environments energy for chemosynthesis derives from reactions in which substances such as hydrogen sulfide or ammonia are oxidized This may occur with or without the presence of oxygen Many chemosynthetic microorganisms are consumed by other organisms in the ocean and symbiotic associations between chemosynthesizers and respiring heterotrophs are quite common Large populations of animals can be supported by chemosynthetic secondary production at hydrothermal vents methane clathrates cold seeps whale falls and isolated cave water It has been hypothesized that anaerobic chemosynthesis may support life below the surface of Mars Jupiter s moon Europa and other planets 1 Chemosynthesis may have also been the first type of metabolism that evolved on Earth leading the way for cellular respiration and photosynthesis to develop later Contents 1 Hydrogen sulfide chemosynthesis process 2 Discovery 2 1 Hydrothermal vents 2 2 Oceanic crust 2 3 Chemosynthesis as an innovation for researches 3 See also 4 References 5 External linksHydrogen sulfide chemosynthesis process EditMain article Hydrogen sulfide chemosynthesis Giant tube worms use bacteria in their trophosome to fix carbon dioxide using hydrogen sulfide as their energy source and produce sugars and amino acids 2 Some reactions produce sulfur hydrogen sulfide chemosynthesis 3 18H2S 6CO2 3O 2 C6H12O6 carbohydrate 12H2O 18S dd Instead of releasing oxygen gas while fixing carbon dioxide as in photosynthesis hydrogen sulfide chemosynthesis produces solid globules of sulfur in the process In bacteria capable of chemoautotrophy a form a chemosynthesis such as purple sulfur bacteria 4 yellow globules of sulfur are present and visible in the cytoplasm Discovery Edit Giant tube worms Riftia pachyptila have an organ containing chemosynthetic bacteria instead of a gut In 1890 Sergei Winogradsky proposed a novel type of life process called anorgoxydant His discovery suggested that some microbes could live solely on inorganic matter and emerged during his physiological research in the 1880s in Strasbourg and Zurich on sulfur iron and nitrogen bacteria In 1897 Wilhelm Pfeffer coined the term chemosynthesis for the energy production by oxidation of inorganic substances in association with autotrophic carbon dioxide assimilation what would be named today as chemolithoautotrophy Later the term would be expanded to include also chemoorganoautotrophs which are organisms that use organic energy substrates in order to assimilate carbon dioxide 5 Thus chemosynthesis can be seen as a synonym of chemoautotrophy The term chemotrophy less restrictive would be introduced in the 1940s by Andre Lwoff for the production of energy by the oxidation of electron donors organic or not associated with auto or heterotrophy 6 7 Hydrothermal vents Edit Main article Hydrothermal vent Biology of hydrothermal vents Hydrothermal vent fauna A hydrothermal vent where micro organisms undergo chemo synthesis on East Pacific Rise and complex fauna on hydrothermal vents with shrimp squat lobsters vent mussels The suggestion of Winogradsky was confirmed nearly 90 years later when hydrothermal ocean vents were predicted to exist in the 1970s The hot springs and strange creatures were discovered by Alvin the world s first deep sea submersible in 1977 at the Galapagos Rift At about the same time then graduate student Colleen Cavanaugh proposed chemosynthetic bacteria that oxidize sulfides or elemental sulfur as a mechanism by which tube worms could survive near hydrothermal vents Cavanaugh later managed to confirm that this was indeed the method by which the worms could thrive and is generally credited with the discovery of chemosynthesis 8 A 2004 television series hosted by Bill Nye named chemosynthesis as one of the 100 greatest scientific discoveries of all time 9 10 Oceanic crust Edit In 2013 researchers reported their discovery of bacteria living in the rock of the oceanic crust below the thick layers of sediment and apart from the hydrothermal vents that form along the edges of the tectonic plates Preliminary findings are that these bacteria subsist on the hydrogen produced by chemical reduction of olivine by seawater circulating in the small veins that permeate the basalt that comprises oceanic crust The bacteria synthesize methane by combining hydrogen and carbon dioxide 11 Chemosynthesis as an innovation for researches Edit Despite the fact that the process of chemosynthesis has been known for more than a hundred years its significance and importance are still relevant today in the transformation of chemical elements in biogeochemical cycles Today the vital processes of nitrifying bacteria which lead to the oxidation of ammonia to nitric acid require scientific substantiation and additional research The ability of bacteria to convert inorganic substances into organic ones suggests that chemosynthetics can accumulate valuable resources for human needs Chemosynthetic communities in different environments are important biological systems in terms of their ecology evolution and biogeography as well as their potential as indicators of the availability of permanent hydrocarbon based energy sources In the process of chemosynthesis bacteria produce organic matter where photosynthesis is impossible Isolation of thermophilic sulfate reducing bacteria Thermodesulfovibrio yellowstonii and other types of chemosynthetics provides prospects for further research Thus the importance of chemosynthesis remains relevant for use in innovative technologies conservation of ecosystems human life in general The role of Sergey Winogradsky in discovering the phenomenon of chemosynthesis is underestimated and needs further research and popularization 12 See also EditPrimary nutritional groups Autotroph Heterotroph Photosynthesis Movile CaveReferences Edit Julian Chela Flores 2000 Terrestrial microbes as candidates for survival on Mars and Europa in Seckbach Joseph ed Journey to Diverse Microbial Worlds Adaptation to Exotic Environments Springer pp 387 398 ISBN 0 7923 6020 6 Biotechnology for Environmental Management and Resource Recovery Springer 2013 p 179 ISBN 978 81 322 0876 1 Chemolithotrophy Boundless Microbiology courses lumenlearning com Retrieved 2020 04 11 The Purple Phototrophic Bacteria Hunter C Neil Dordrecht Springer 2009 ISBN 978 1 4020 8814 8 OCLC 304494953 a href Template Cite book html title Template Cite book cite book a CS1 maint others link Kellerman M Y et al 2012 Autotrophy as a predominant mode of carbon fixation in anaerobic methane oxidizing microbial communities Proc Natl Acad Sci U S A 109 47 19321 19326 Bibcode 2012PNAS 10919321K doi 10 1073 pnas 1208795109 PMC 3511159 PMID 23129626 Kelly D P Wood A P 2006 The Chemolithotrophic Prokaryotes The Prokaryotes New York Springer pp 441 456 doi 10 1007 0 387 30742 7 15 ISBN 978 0 387 25492 0 Schlegel H G 1975 Mechanisms of Chemo Autotrophy PDF In Kinne O ed Marine Ecology Vol 2 Part I pp 9 60 ISBN 0 471 48004 5 Cavenaugh Colleen M et al 1981 Prokaryotic Cells in the Hydrothermal Vent Tube Worms Riftia Jones Possible Chemoautotrophic Symbionts Science 213 4505 340 342 doi 10 1126 science 213 4505 340 PMID 17819907 100 Greatest Discoveries 2004 2005 IMDb Greatest Discoveries Science Archived from the original on March 19 2013 Watch the Greatest Discoveries in Evolution online Life deep within oceanic crust sustained by energy from interior of Earth ScienceDaily 14 March 2013 Retrieved March 16 2013 Paraska O A Horban A Ye Matselyukh B P Shchur S A Shenderovskyj V A 2022 07 24 Chemosynthesis a history of innovation Infusion amp Chemotherapy 2 50 56 doi 10 32902 2663 0338 2022 2 50 56 ISSN 2709 0957 S2CID 251045231 External links EditChemosynthetic Communities in the Gulf of Mexico Archived 2010 05 28 at the Wayback Machine Retrieved from https en wikipedia org w index php title Chemosynthesis amp oldid 1136268963, wikipedia, wiki, book, books, library,

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