Chemosynthesis
Chemosynthesis is a unique biochemical process distinct from photosynthesis. While photosynthesis harnesses sunlight to convert carbon dioxide into organic compounds, chemosynthesis depends on the oxidation of inorganic molecules, such as hydrogen gas or methane, to facilitate the conversion of carbon molecules into organic matter. The organisms that utilize this process for energy production are termed chemoautotrophs.
Mechanism[edit | edit source]
Chemosynthesis principally involves the assimilation of one or more carbon molecules, commonly carbon dioxide (CO2) or methane (CH4), utilizing energy derived from the oxidation of inorganic substrates, such as hydrogen gas or hydrogen sulfide. This method of energy production is predominant among organisms dwelling in regions deprived of sunlight.
Hydrogen Sulfide Chemosynthesis[edit | edit source]
For many oceanic microorganisms, the oxidation of hydrogen sulfide (H₂S) or ammonia is the primary energy source. This can transpire in environments both with and without the presence of oxygen.
Chemoautotrophs[edit | edit source]
Organisms employing chemosynthesis, known as chemoautotrophs, exhibit vast phylogenetic diversity. Notable groups encompass:
- Sulfur-Oxidizing Bacteria: Including gamma and epsilon proteobacteria.
- Aquificaeles: A group of bacteria prevalent in high-temperature aquatic environments.
- Methanogenic Archaea: Organisms specialized in producing methane.
- Neutrophilic Iron-Oxidizing Bacteria: Bacteria that oxidize iron under neutral pH conditions.
Ecological Significance[edit | edit source]
Oceanic Regions[edit | edit source]
A multitude of microorganisms in the ocean's aphotic zones resort to chemosynthesis for biomass production. They can be mainly classified into:
- Hydrogen Sites: Rare oceanic sites abundant in hydrogen molecules (H₂) where the reaction between CO2 and H2 yields methane (CH4), furnishing sufficient energy for biomass production.
- Hydrogen Sulfide or Ammonia Sites: In these typical oceanic settings, energy for chemosynthesis arises from oxidation reactions involving hydrogen sulfide or ammonia.
Symbiotic Associations[edit | edit source]
Numerous chemosynthetic microorganisms engage in symbiotic relationships with heterotrophs that respire the organic compounds they produce. These symbiotic pairings enhance the survivability and efficiency of both organisms in nutrient-limited or extreme environments.
Chemosynthetic Habitats[edit | edit source]
Remarkable ecosystems, such as hydrothermal vents, methane clathrates, cold seeps, whale falls, and isolated cave waters, can sustain vast populations of fauna due to the secondary production stemming from chemosynthesis.
Astrobiological Implications[edit | edit source]
Considering the adaptability and resilience of chemosynthetic organisms on Earth, scientists hypothesize the potential existence of similar life forms in extraterrestrial environments. Planetary bodies such as Mars or Jupiter's moon, Europa, which may harbor subterranean or subsurface water reservoirs, could potentially support life through chemosynthesis, expanding our understanding of potential habitats for life beyond Earth.
See Also[edit | edit source]
External links[edit | edit source]
Search WikiMD
Ad.Tired of being Overweight? Try W8MD's physician weight loss program.
Semaglutide (Ozempic / Wegovy and Tirzepatide (Mounjaro / Zepbound) available.
Advertise on WikiMD
|
WikiMD's Wellness Encyclopedia |
| Let Food Be Thy Medicine Medicine Thy Food - Hippocrates |
Translate this page: - East Asian
中文,
日本,
한국어,
South Asian
हिन्दी,
தமிழ்,
తెలుగు,
Urdu,
ಕನ್ನಡ,
Southeast Asian
Indonesian,
Vietnamese,
Thai,
မြန်မာဘာသာ,
বাংলা
European
español,
Deutsch,
français,
Greek,
português do Brasil,
polski,
română,
русский,
Nederlands,
norsk,
svenska,
suomi,
Italian
Middle Eastern & African
عربى,
Turkish,
Persian,
Hebrew,
Afrikaans,
isiZulu,
Kiswahili,
Other
Bulgarian,
Hungarian,
Czech,
Swedish,
മലയാളം,
मराठी,
ਪੰਜਾਬੀ,
ગુજરાતી,
Portuguese,
Ukrainian
Medical Disclaimer: WikiMD is not a substitute for professional medical advice. The information on WikiMD is provided as an information resource only, may be incorrect, outdated or misleading, and is not to be used or relied on for any diagnostic or treatment purposes. Please consult your health care provider before making any healthcare decisions or for guidance about a specific medical condition. WikiMD expressly disclaims responsibility, and shall have no liability, for any damages, loss, injury, or liability whatsoever suffered as a result of your reliance on the information contained in this site. By visiting this site you agree to the foregoing terms and conditions, which may from time to time be changed or supplemented by WikiMD. If you do not agree to the foregoing terms and conditions, you should not enter or use this site. See full disclaimer.
Credits:Most images are courtesy of Wikimedia commons, and templates Wikipedia, licensed under CC BY SA or similar.
Contributors: Prab R. Tumpati, MD
