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The Sulfur Cycle01:22

The Sulfur Cycle

41.6K
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...
41.6K
Vesicular Tubular Clusters01:45

Vesicular Tubular Clusters

2.4K
After budding out from the ER membrane, some COPII vesicles lose their coat and fuse with one another to form larger vesicles and interconnected tubules called vesicular tubular clusters or VTCs. These clusters constitute a compartment at the ER-Golgi interface known as ERGIC (Endoplasmic Reticulum Golgi Intermediate Compartment). The ERGIC is a mobile membrane-bound cargo transport system that sorts proteins secreted from ER and delivers them to the Golgi.
With the help of motor proteins such...
2.4K
Sulfur Assimilation01:20

Sulfur Assimilation

554
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...
554
Microbial Mats01:25

Microbial Mats

67
Microbial communities forming biofilms and mats represent complex, spatially structured ecosystems where metabolic processes are stratified according to light, oxygen, and nutrient gradients. Biofilms are initial colonization stages, only a few millimeters thick, while mature microbial mats can reach centimeter-scale thickness and display intricate vertical organization. Their structural and functional heterogeneity allows microorganisms to occupy distinct ecological niches within a few...
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Microbes and the Sulfur Cycle01:29

Microbes and the Sulfur Cycle

123
Sulfur is a vital element in Earth's biogeochemical systems. It transitions through various inorganic states, including sulfate (SO₄²⁻), elemental sulfur (S⁰), and sulfide (S²⁻). Abiotic and biological mechanisms across oxic and anoxic environments intricately mediate these transformations. Sulfate, the most oxidized form of sulfur, is predominantly stored in rocks, marine sediments, and oceanic waters, acting as a long-term reservoir in the global sulfur...
123
Microbes and Other Elemental Cycles01:24

Microbes and Other Elemental Cycles

89
Microbial activity plays a pivotal role in the biogeochemical cycling of iron and manganese, especially at the redox gradients characteristic of stratified aquatic environments. These cycles are driven by microbial transformations between oxidized and reduced forms of the metals, allowing organisms to exploit them for metabolic energy and structural purposes.Iron Cycling Across Redox GradientsIn neutral, oxygen-rich surface waters, iron is predominantly found in its oxidized, insoluble ferric...
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Updated: May 1, 2026

Multimodal Optical Microscopy Methods Reveal Polyp Tissue Morphology and Structure in Caribbean Reef Building Corals
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Multimodal Optical Microscopy Methods Reveal Polyp Tissue Morphology and Structure in Caribbean Reef Building Corals

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火山中气旋是火山中的中气旋.

Pinaki Chakraborty1, Gustavo Gioia, Susan W Kieffer

  • 1Department of Geology, University of Illinois, Urbana, Illinois 61801, USA. chakrabo@illinois.edu

Nature
|March 28, 2009
PubMed
概括
此摘要是机器生成的。

一个火山中气旋,一个旋转的上风,导致强大的火山羽毛失去对称性,形成明显的形状. 这种现象解释了在喷发中观察到的水龙头,尘埃魔鬼和闪电罩.

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Sexual Crosses with the Mucoromycete Phycomyces blakesleeanus
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Data Processing Methods for 3D Seismic Imaging of Subsurface Volcanoes: Applications to the Tarim Flood Basalt
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科学领域:

  • * * 火山学 关于火山的研究
  • * 大气科学 大气科学
  • * 流体动力学 流体动力学

背景情况:

  • * 古典的火山羽毛模型假定轴对称,没有旋转.
  • *强烈的火山羽毛由垂直柱和水平雨组成.
  • *以前的模型没有考虑羽毛状动态中的旋转效应.

研究的目的:

  • * 为了研究强烈的火山羽毛上升的水力动力学效应.
  • * 介绍和解释"火山间气旋"的概念.
  • *为了统一解释火山羽毛中观察到的各种现象.

主要方法:

  • *分析了1991年皮纳图博火山爆发的卫星图像.
  • * 流体动力学原理应用于羽毛状物行为的应用.
  • * 模型预测与多次喷发的观测数据的比较.

主要成果:

  • * 确定了由羽毛的上游潮引起的"火山间气旋".
  • *使用来自皮纳图博山的卫星数据确认了羽旋转.
  • * 在多次喷发中观察到轴对称和叶状雨形状的损失.
  • *将中气旋与水龙头,尘埃魔鬼和闪电罩的形成联系起来.

结论:

  • *火山中气旋是强烈的火山羽流动力学的关键因素.
  • *这个概念统一了以前不同的羽毛现象的解释.
  • *旋转显著改变了羽毛结构和相关的危险.