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The Sulfur Cycle01:22

The Sulfur Cycle

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Sulfur, an important element in the chemical makeup of proteins, is recycled through the atmosphere and aquatic and terrestrial environments. Found in the atmosphere as sulfur dioxide (SO2), sulfur is released by decaying organisms, weathered rocks, geothermal vents, volcanos, and burning fossil fuels. It is deposited into the ecosystem, cycled through the biotic community, and either released back into the atmosphere as gas or deposited in marine sediment for long-term storage and eventual...
46.2K
Sulfur Assimilation01:20

Sulfur Assimilation

72
Sulfur is an essential element in biological systems, contributing to synthesizing key biomolecules, including amino acids such as cysteine and methionine, and cofactors such as coenzyme A and biotin. Microorganisms primarily assimilate sulfur as sulfate (SO₄²⁻) from the environment, which must undergo a series of biochemical transformations before it can be incorporated into cellular components. As sulfate is highly oxidized, it must undergo assimilatory sulfate reduction to...
72
The Carbon Cycle01:14

The Carbon Cycle

39.7K
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.
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What are Biogeochemical Cycles?00:54

What are Biogeochemical Cycles?

34.2K
The most common elements in organic molecules, carbon, hydrogen, oxygen, nitrogen, sulfur, and phosphorus, are only available in the ecosystem in limited amounts. Therefore, these nutrients must be recycled through both biotic and abiotic components of the ecosystem, in processes generally called biogeochemical cycles.
34.2K
Metabolism of Chemolithotrophs01:15

Metabolism of Chemolithotrophs

167
Chemolithotrophs are microorganisms that obtain energy by oxidizing inorganic molecules such as hydrogen gas (H₂), ammonia (NH₃), reduced sulfur compounds (H₂S, S²⁻), and ferrous iron (Fe²⁺). Unlike heterotrophic organisms that rely on organic carbon, chemolithotrophs transfer electrons from these inorganic donors to the electron transport chain (ETC), generating a proton motive force (PMF) that drives ATP synthesis through oxidative phosphorylation.
167
Carbon-dioxide Fixation01:28

Carbon-dioxide Fixation

84
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...
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Organic carbon burial during OAE2 driven by changes in the locus of organic matter sulfurization.

Nature communications·2018
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Updated: Sep 10, 2025

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology
10:43

Unraveling the Unseen Players in the Ocean - A Field Guide to Water Chemistry and Marine Microbiology

Published on: November 5, 2014

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海洋有机硫循环

Morgan Reed Raven1

  • 1Department of Earth Science, University of California, Santa Barbara, California, USA;

Annual review of marine science
|August 25, 2025
PubMed
概括

有机硫 (OS) 来自海洋生物,地质过程和无氧硫化. 对于全球碳循环和气候见解来说,了解这些多样化的运行系统来源及其环境转变至关重要.

科学领域:

  • 海洋化学
  • 生物地质化学
  • 有机地化学

背景情况:

  • 海洋有机硫主要由初级生产者生产.
  • 其他OS来源包括生物硫化和地质气候.
  • 这些不同的OS源具有不同的特性,影响它们的环境命运.

研究的目的:

  • 审查海洋有机硫的来源,运输和转化.
  • 连接海洋表面的海洋循环与更长寿命的水库
  • 突出OS流对碳循环和气候的影响.

主要方法:

  • 关于海洋OS循环的文献审查.
  • 分析粒子流动和有机物质的动态.
  • 综合有关操作系统来源和转换的知识.

主要成果:

  • 确定了三种主要的海洋OS来源:生物,生物和地质.
  • 突出OS源属性如何影响其环境命运,形成反抗性的有机物质和煤化物.
  • 建立了表面海洋生物循环和深层长寿水库之间的联系.

结论:

  • 了解多种OS来源及其转化是海洋有机物动态的关键.

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  • 在不同的时间尺度上,海洋系统流动对碳循环和气候产生重大影响.
  • 为了预测未来的气候情况,对海洋操作系统的进一步研究至关重要.