The Rise of Slime: Marine Evolution in Reverse

In summary, this article discusses the alarming trend of advanced ocean life struggling to survive while primitive organisms such as algae, bacteria, and jellyfish thrive and spread. Scientists are concerned that this pattern is a sign of evolution in reverse, returning to the primeval seas of millions of years ago. Marine ecologist and paleontologist Jeremy B.C. Jackson refers to this as "the rise of slime." Some experts suggest that this is a result of human interference in the natural ecosystem, leading to nutrient enrichment and disruption of ecological succession. They argue that this is not evolution in reverse, but rather succession in reverse. They recommend further research and suggest reading works by ecologists such as Ramon Margalef and Eugene Odum for more information on this
  • #1
marcus
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http://www.latimes.com/news/local/la-me-ocean30jul30,0,7764272.story?page=1


"...In many places — the atolls of the Pacific, the shrimp beds of the Eastern Seaboard, the fiords of Norway — some of the most advanced forms of ocean life are struggling to survive while the most primitive are thriving and spreading. Fish, corals and marine mammals are dying while algae, bacteria and jellyfish are growing unchecked. Where this pattern is most pronounced, scientists evoke a scenario of evolution running in reverse, returning to the primeval seas of hundreds of millions of years ago.

Jeremy B.C. Jackson, a marine ecologist and paleontologist at the Scripps Institution of Oceanography in La Jolla, says we are witnessing "the rise of slime."..."
 
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Lyngbya Majuscula grows in long dark filaments. It is a strain of cyanobacteria. Very primitive. harks back to before multicell life.

would like to get some comment on this article from bio people
 
  • #3
marcus said:
http://www.latimes.com/news/local/la-me-ocean30jul30,0,7764272.story?page=1"...In many places — the atolls of the Pacific, the shrimp beds of the Eastern Seaboard, the fiords of Norway — some of the most advanced forms of ocean life are struggling to survive while the most primitive are thriving and spreading. Fish, corals and marine mammals are dying while algae, bacteria and jellyfish are growing unchecked. Where this pattern is most pronounced, scientists evoke a scenario of evolution running in reverse, returning to the primeval seas of hundreds of millions of years ago. Jeremy B.C. Jackson, a marine ecologist and paleontologist at the Scripps Institution of Oceanography in La Jolla, says we are witnessing "the rise of slime."..."
Nothing new under the sun of ecology theory--what we have here is the classic interference of humans on ecology succession--nutrient enriched ecosystems are kept in a state of low maturity (e.g., less species diversity) with high rate of energy flow and destruction of homeostatic mechanisms. The species that suffer the most are those with a low reproductive rate, species such as algae, bacteria dominate. My only argument with J. Jackson is his use of term "evolution running in reverse"--this is not the case, cases of nutrient enrichment as discussed in this article is "succession running in reverse". If I may suggest an excellent classic work on this topic by Ramon Margalef, "Perspectives in Ecological Theory", 1968, U. of Chicago Press. Of course any of the Ecology textbooks by Eugene Odum. Both of these ecologists take a cybernetic approach to ecological theory, which should be of interest to a physicist.
 

What is "The Rise of Slime: Marine Evolution in Reverse" about?

"The Rise of Slime: Marine Evolution in Reverse" is a scientific phenomenon that describes the sudden emergence and domination of slime-like organisms in marine ecosystems. It is believed to be a result of environmental changes that favor the growth of these organisms.

How does this phenomenon affect marine life?

This phenomenon has a significant impact on marine life, as it alters the balance of the ecosystem. The rise of slime can lead to the displacement or extinction of other marine species, as well as changes in food webs and nutrient cycles.

What factors contribute to the rise of slime in marine environments?

There are several factors that can contribute to the rise of slime in marine environments. These include changes in ocean temperatures, pollution, overfishing, and the introduction of non-native species. These factors can create a more favorable environment for slime-like organisms to thrive.

Is this phenomenon reversible?

It is possible for the rise of slime to be reversed, but it would require significant changes in the environmental conditions. This can include reducing pollution and regulating fishing practices to allow for the recovery of other marine species.

What are the potential implications of "The Rise of Slime" for humans?

The rise of slime can have potential implications for humans, as it can impact fisheries and coastal economies. It can also affect human health if the organisms involved are toxic or harmful. Additionally, it can disrupt recreational activities such as swimming and boating. Therefore, it is crucial to understand and monitor this phenomenon to mitigate its potential effects on humans.

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