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Deep Sea Microbial Ecology01:18

Deep Sea Microbial Ecology

The deep ocean and its underlying sediments represent vast, largely unexplored microbial habitats that extend far beyond the sunlit photic zone. The photic (euphotic) zone typically spans the upper ~100–200 meters of pelagic waters in the open ocean, but its depth varies geographically and seasonally, where sufficient light supports photosynthetic life. Below this lies the deep sea, spanning roughly 1000–6000 meters (bathypelagic to abyssal zones), with deeper hadal trenches extending beyond...
The Carbon Cycle01:14

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Carbon is the basis of all organic matter on Earth, and is recycled through the ecosystem in two primary processes: one in which carbon is exchanged among living organisms, and one in which carbon is cycled over long periods of time through fossilized organic remains, weathering of rocks, and volcanic activity. Human activities, including increased agricultural practices and the burning of fossil fuels, has greatly affected the balance of the natural carbon cycle.
Carbon-dioxide Fixation01:28

Carbon-dioxide Fixation

Carbon dioxide fixation in prokaryotes enables the assimilation of inorganic carbon into organic molecules, supporting biosynthetic pathways, sustaining ecosystems, and contributing to the global carbon cycle. It also has industrial applications in carbon capture and bioproduct synthesis. Autotrophic organisms rely on this process to utilize CO₂ as a carbon source in diverse environments.The Calvin CycleThe Calvin cycle is the most widespread carbon fixation mechanism, primarily used by...
Carbonation Shrinkage01:24

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Atmospheric CO2 penetrates the concrete's pores and, in the presence of moisture, forms carbonic acid, which then reacts with calcium hydroxide in the hydrated cement, forming calcium carbonate. This process reduces the concrete's volume and is termed carbonation shrinkage.
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Microbes and Climate Change01:27

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Carbon Dioxide Transport in the Blood01:19

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Carbon dioxide (CO2) transport in the blood is critical to human physiology. On average, our body cells produce around 200 mL of CO2 per minute, precisely the quantity expelled by the lungs. This process involves the transportation of CO2 from the tissue cells to the lungs in three primary forms.
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Related Experiment Video

Updated: Jul 3, 2026

Monitoring Pedogenic Inorganic Carbon Accumulation Due to Weathering of Amended Silicate Minerals in Agricultural Soils.
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Monitoring Pedogenic Inorganic Carbon Accumulation Due to Weathering of Amended Silicate Minerals in Agricultural Soils.

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Carbon dioxide sequestration in deep-sea basalt.

David S Goldberg1, Taro Takahashi, Angela L Slagle

  • 1Lamont-Doherty Earth Observatory, 61 Route 9W, Palisades, NY 10964, USA. goldberg@ldeo.columbia.edu

Proceedings of the National Academy of Sciences of the United States of America
|July 16, 2008
PubMed
Summary
This summary is machine-generated.

Secure carbon dioxide sequestration in deep-sea basalt formations offers vast capacity and multiple trapping mechanisms. This method presents a promising solution for mitigating climate change by storing CO2 safely offshore.

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Area of Science:

  • Geochemistry
  • Environmental Science
  • Marine Geology

Background:

  • Anthropogenic carbon dioxide (CO2) sequestration in geological formations is critical for mitigating climate change.
  • Deep-sea basalt formations present unique advantages for CO2 storage.
  • Existing geological storage options face limitations in capacity and security.

Purpose of the Study:

  • To evaluate the potential of deep-sea basalt formations for secure CO2 sequestration.
  • To assess the capacity and safety mechanisms of basalt formations for long-term CO2 storage.
  • To identify promising locations for pilot injection programs.

Main Methods:

  • Analysis of geological and geochemical conditions in deep-sea basalt formations.
  • Modeling of CO2-water-rock interactions and mineral trapping.
  • Evaluation of geological, gravitational, and hydrate trapping mechanisms.

Main Results:

  • Deep-sea basalt formations offer vast reservoir capacities for CO2 storage.
  • Chemical reactions between CO2 and basalt form stable carbonate minerals, enhancing security.
  • Multiple trapping mechanisms significantly reduce the risk of post-injection CO2 leakage.

Conclusions:

  • Deep-sea basalt aquifers, such as those on the Juan de Fuca plate, can securely store U.S. CO2 emissions for over a century.
  • Further research, technological assessment, and economic evaluation are warranted for a pilot injection program.
  • This sequestration method provides a viable strategy for long-term carbon management.