Bacteria: Difference between revisions

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<blockquote>
Bacteria are a singled-celled life form. Along with archea, bacteria are prokaryotic, meaning their cells do not have a distinct nucleus with a membrane. Bacteria reproduce uniparentally (from just one parent), when a cell divides into two, or when a small bud leaves the cell and eventually becomes the size of its parent.<ref>Lynn Margulis and Mark Chapman, ''Kingdoms & Domains: An Illustrated Guide to the Phyla of Life on Earth'' (Academic Press, 2009), 47.</ref> Due to global bacteria's extensive cooperation and gene-sharing, scientists and scholars have sometimes referred to bacteria as an example of "decentralized democracy" or anarchy.
As we move from a purely medical view of microbes to an
understanding of them as our ancestors, as planetary elders, our
emotions also change, from fear and loathing to respect and awe.
Bacteria invented fermentation, the wheel in the form of the
proton rotary motor, sulfur breathing, photosynthesis, and
nitrogen fixation, long before our evolution. They are not only
highly social beings, but behave as a sort of worldwide
decentralized democracy. Cells basically remain separate, but can
connect and trade genes with organisms of even exceedingly
different backgrounds. Realizing that human individuals also
remain basically separate but can connect and trade knowledge
with very different others may be taking a step toward the ancient
wisdom of the microcosm.
-Lynn Margulis and Dorian Sagan, ''Microcosmos: Four Billion Years of Evolution from Our Microbian Ancestors''<ref>Quoted in Graham Purchase, ''Anarchism & Environmental Survival'' (Tucson: See Sharp Press, 1994), 20.</ref>
</blockquote>


For the first billion (out of a total 3.8 billion) years of life on Earth, all life was bacteria.<ref>Ernst Mayr, ''what evolution is'' (London: Weidenfeld & Nicolson, 2002), 48.</ref> Bacteria are prokaryotic, meaning their cells do not have a distinct nucleus with a membrane. They reproduce uniparentally (from just one parent), when a cell divides into two, or when a small bud leaves the cell and eventually becomes the size of its parent.<ref>Lynn Margulis and Mark Chapman, ''Kingdoms & Domains: An Illustrated Guide to the Phyla of Life on Earth'' (Academic Press, 2009), 47.</ref>
Through a process known as ''horizontal gene transfer'', bacteria cells around the world so extensively swap genes with other that the biologists Sorin Sonea and Maurice Panisset referred to the world's bacteria as a giant superorganism.<ref>David Quamm, ''The Tangled Tree: A Radical New History of Life'' (New York: Simon & Schuster, 2018), part V.</ref> The swapping of genes has allowed bacteria to survive in a variety of extreme climates for billions of years. A team led by Bill Martin found that some 80 percent of genes in the bacteria genome had at some point arrived through horizontal gene transfer.<ref>Quamm, ''The Tangled Tree'', Part VI.</ref>


Bacteria have played a number of beneficial roles for other life-forms. They invented photosynthesis. They are crucial for humans' digestive systems, and for soil maintenance in forests and on farms. Many antibiotics come from bacteria. Biologists Lynn Margulis and Mark Chapman argue, "Life on Earth would die out faster if organisms in the Superkingdom Prokarya [Bacteria] became extinct than if any of the other life-forms disappeared."<ref>Margulis and Chapman, ''Kingdoms & Domains'', 41, 46.</ref>  
Examining this gene swapping, Margulis and Sagan stress that bacteria function as "a sort of worldwide decentralized democracy." They argue that a global, environmentally-aware, free federation inspired by the global decentralized networks effectively formed by bacteria. Graham Purchase comments, "This vision has much in common with that of many prominent 19th century anarchist thinkers, notably Elisee Reclus and Peter Kropotkin."<ref>Graham Purchase, ''Anarchism & Environmental Survival'' (Tucson: See Sharp Press, 1994), 20.</ref>


Bacteria trade genes with each other through a process known as "horizontal" or "lateral transfer." The swapping of genes has allowed bacteria to survive in a variety of extreme climates for billions of years. Examining gene transfer, Lynn Margulis and Dorian Sagan stress that bacteria function as "a sort of worldwide decentralized democracy."<ref>Purchase, ''Anarchism & Environmental Survival'', 20.</ref> Margulis and Sagan advocate a global, environmentally-aware, free federation inspired by the global decentralized networks effectively formed by bacteria. Graham Purchase comments, "This vision has much in common with that of many prominent 19th century anarchist thinkers, notably Elisee Reclus and Peter Kropotkin."<ref>Purchase, ''Anarchism & Environmental Survival'', 20.</ref>
Bacteria have played a number of beneficial roles for other life-forms. They invented photosynthesis. They are crucial for humans' digestive systems, and for soil maintenance in forests and on farms. Many antibiotics come from bacteria. Reportedly, "Life on Earth would die out faster if organisms in the Superkingdom Prokarya [Bacteria] became extinct than if any of the other life-forms disappeared."<ref>Margulis and Chapman, ''Kingdoms & Domains'', 41, 46.</ref> According to widely accepted scientific theory, bacterial cells have entered, through horizontal gene transfer over the course of roughly two billion years, into the genomes of all animal cells including human cells."<ref>Quamm, ''The Tangled Tree'', Part III.</ref>


A billion years after bacteria first appeared on Earth, bacteria symbiotically evolved into the first [[Evolution of eukaryotes|eukaryotic]] cells, which have a distinct membrane surrounded by a nucleus.<ref>Mayr, ''what evolution is'', 48.</ref>


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Revision as of 12:01, 26 December 2018

Bacteria are a singled-celled life form. Along with archea, bacteria are prokaryotic, meaning their cells do not have a distinct nucleus with a membrane. Bacteria reproduce uniparentally (from just one parent), when a cell divides into two, or when a small bud leaves the cell and eventually becomes the size of its parent.[1] Due to global bacteria's extensive cooperation and gene-sharing, scientists and scholars have sometimes referred to bacteria as an example of "decentralized democracy" or anarchy.

Through a process known as horizontal gene transfer, bacteria cells around the world so extensively swap genes with other that the biologists Sorin Sonea and Maurice Panisset referred to the world's bacteria as a giant superorganism.[2] The swapping of genes has allowed bacteria to survive in a variety of extreme climates for billions of years. A team led by Bill Martin found that some 80 percent of genes in the bacteria genome had at some point arrived through horizontal gene transfer.[3]

Examining this gene swapping, Margulis and Sagan stress that bacteria function as "a sort of worldwide decentralized democracy." They argue that a global, environmentally-aware, free federation inspired by the global decentralized networks effectively formed by bacteria. Graham Purchase comments, "This vision has much in common with that of many prominent 19th century anarchist thinkers, notably Elisee Reclus and Peter Kropotkin."[4]

Bacteria have played a number of beneficial roles for other life-forms. They invented photosynthesis. They are crucial for humans' digestive systems, and for soil maintenance in forests and on farms. Many antibiotics come from bacteria. Reportedly, "Life on Earth would die out faster if organisms in the Superkingdom Prokarya [Bacteria] became extinct than if any of the other life-forms disappeared."[5] According to widely accepted scientific theory, bacterial cells have entered, through horizontal gene transfer over the course of roughly two billion years, into the genomes of all animal cells including human cells."[6]


  1. Lynn Margulis and Mark Chapman, Kingdoms & Domains: An Illustrated Guide to the Phyla of Life on Earth (Academic Press, 2009), 47.
  2. David Quamm, The Tangled Tree: A Radical New History of Life (New York: Simon & Schuster, 2018), part V.
  3. Quamm, The Tangled Tree, Part VI.
  4. Graham Purchase, Anarchism & Environmental Survival (Tucson: See Sharp Press, 1994), 20.
  5. Margulis and Chapman, Kingdoms & Domains, 41, 46.
  6. Quamm, The Tangled Tree, Part III.
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