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関連する概念動画

The Colonization of Land02:22

The Colonization of Land

Changes in the environment of the early Earth drove the evolution of organisms. As prokaryotic organisms in the oceans began to photosynthesize, they produced oxygen. Eventually, oxygen saturated the oceans and entered the air, resulting in an increase in atmospheric oxygen concentration, known as the oxygen revolution approximately 2.3 billion years ago. Therefore, organisms that could use oxygen for cellular respiration had an advantage. More than 1.5 years ago, eukaryotic cells and...
Introduction to Plant Diversity02:22

Introduction to Plant Diversity

From Water to Land
The Tree of Life - Bacteria, Archaea, Eukaryotes02:40

The Tree of Life - Bacteria, Archaea, Eukaryotes

The “tree of life” describes the evolution of life and the evolutionary relationships between organisms. The root of the tree is the common ancestor to all life on Earth. All other species radiate from this point, much like the branches of a tree. The numerous tips of these branches on the tree of life represent every living, or extant, species. Extinct species, which are species that no longer exist, can be found towards the center of the tree. Currently, these organisms, both extant and...
Eukaryotic Evolution01:24

Eukaryotic Evolution

The endosymbiont theory is the most widely accepted theory of eukaryotic evolution; however, its progression is still somewhat debated. According to the nucleus-first hypothesis, the ancestral prokaryote first evolved a membrane to enclose DNA and form the nucleus. Conversely, the mitochondria-first hypothesis suggests that the nucleus was formed after endosymbiosis of mitochondria.
Contrary to the endosymbiont theory, the eukaryote-first hypothesis proposes that the simpler prokaryotic and...
Microbial Morphologies01:29

Microbial Morphologies

Bacterial and archaeal cells exhibit remarkable diversity in shape and structure, critical in their adaptability and functionality. Among bacteria, the most commonly observed shapes include cocci and bacilli. Cocci are spherical and may exist singly or in groupings such as pairs (diplococci), chains (streptococci), clusters (staphylococci), or tetrads. Bacilli, in contrast, are rod-shaped and can also occur as single cells, in pairs, or chains, depending on their environmental and genetic...
Origin of Photosynthesis01:26

Origin of Photosynthesis

Photosynthesis represents a fundamental biological process that transformed Earth's atmosphere and paved the way for complex life. Emerging roughly 3.4–3.8 billion years ago, the earliest photosynthetic organisms harnessed light energy to produce organic compounds. These anoxygenic phototrophs used electron donors like hydrogen sulfide (H₂S) or ferrous iron (Fe²⁺), rather than water, and did not release molecular oxygen (O₂) as a byproduct. Various groups, including green sulfur and purple...

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関連する実験動画

Updated: Jul 6, 2026

Layers of Symbiosis - Visualizing the Termite Hindgut Microbial Community
11:28

Layers of Symbiosis - Visualizing the Termite Hindgut Microbial Community

Published on: May 28, 2007

生きた木におけるメタンの形成:微生物の起源

J G Zeikus, J C Ward

    Science (New York, N.Y.)
    |June 14, 1974
    PubMed
    まとめ

    メタンを産生するバクテリアは,湿った土壌の健康な硬木の木で発見されました. メタノバクテリア (Methanobacterium) の属であるこれらの無酸素細菌は,木の内部でメタンの形成を担当していました.

    科学分野:

    • 環境微生物学 環境微生物学
    • 木材科学 木材科学とは
    • アナエロビック微生物学

    背景:

    • 排水不良の土壌は,しばしば無酸素状態につながります.
    • メタン (CH4) は,様々な天然源を持つ強力な温室効果ガスです.
    • 生きている木の内部でのメタンの存在と起源は完全に理解されていません.

    研究 の 目的:

    • 健康な硬木木で観察された高メタン圧力の源を調査するために.
    • 木のハートウッドのメタンの生成に責任を負う微生物を特定し,特徴づけること.

    主な方法:

    • 排水不良の場所からの硬木の木のフィールドサンプリング.
    • ハートウッドの特性 (水分,pH,匂い) の分析.
    • ハートウッドからの無酸素細菌の分離と特徴付け.
    • 微生物学的および潜在的に分子学的技術を使用して,メタン産生細菌の識別.

    主要な成果:

    • 排水不良の土壌の健康な硬木の木は,高い内部メタンの圧力を示した.
    • 影響を受けたハートウッドは水浸し,中性からアルカリ性であり,臭い臭いがしました.
    • ハートウッドには obligately無酸素細菌の多様なコミュニティが特定されました.

    さらに関連する動画

    Technique for Studying Arthropod and Microbial Communities within Tree Tissues
    05:30

    Technique for Studying Arthropod and Microbial Communities within Tree Tissues

    Published on: November 16, 2014

    Microbiota of Attine Ants' Gardens: Visualizing a Microbial Landscape by Scanning Electron Microscopy
    07:00

    Microbiota of Attine Ants' Gardens: Visualizing a Microbial Landscape by Scanning Electron Microscopy

    Published on: October 4, 2024

    関連する実験動画

    Last Updated: Jul 6, 2026

    Layers of Symbiosis - Visualizing the Termite Hindgut Microbial Community
    11:28

    Layers of Symbiosis - Visualizing the Termite Hindgut Microbial Community

    Published on: May 28, 2007

    Technique for Studying Arthropod and Microbial Communities within Tree Tissues
    05:30

    Technique for Studying Arthropod and Microbial Communities within Tree Tissues

    Published on: November 16, 2014

    Microbiota of Attine Ants' Gardens: Visualizing a Microbial Landscape by Scanning Electron Microscopy
    07:00

    Microbiota of Attine Ants' Gardens: Visualizing a Microbial Landscape by Scanning Electron Microscopy

    Published on: October 4, 2024

  • メタンの形成に起因する主な細菌は分離され,メタノバクテリアス属 (Methanobacterium) の一員として特定されました.
  • 結論:

    • 強制性無酸素細菌,特にメタノバクテリアの種は,硬木の木のハートウッド内のメタンの生産に責任があります.
    • これらの発見は,水浸し環境で育つ特定の樹種が,生物学的メタンの源として機能することを示唆しています.
    • このメタンの生産が木の健康と環境に与える生態学的役割と影響を理解するために,さらなる研究が必要である.