Exploring the Amazing: Intelligence and Organization in Lower Life Forms

It is commonly accepted that humans are the most advanced life form on the planet Earth. However, when one looks at our ecosystem, it is clear that numerous life forms show amazing talents and abilities which certainly could be construed as intelligent. Recent research efforts are finding remarkable capabilities even within the most primitive of life forms, prokaryotic bacteria. This article will examine the apparently inherent phenomenon of intelligence and advanced organization in life forms inhabiting the Earth.

Many biologists believe that dolphins are the second most intelligent species on Earth after humans. They are blessed with large, complex brains that support self-awareness and the processing of “complex emotions” according to dolphin expert Lori Marino. The highly developed emotional center is facilitated by communication and a social lifestyle. [1] Other animals also show well-developed intelligence. As reported by Bryan Johnson in “Top Ten Smartest Animals,” chimpanzees have the best memories of the animal kingdom besides humans, exhibit organized thought, can communicate with humans, use tools, and perform math on computers. Elephants demonstrate incredible memories, self-recognition, and artistic expression. They also can communicate, use tools, and display emotions. Crows are very social and can count, distinguish between different shapes, learn by observation, and use tools. The octopus displays short and long term memory, observational learning, and the ability to solve problems. Even the Portia Labiata Jumping Spider, despite its tiny size, can solve problems, is capable of learning, and demonstrates cognitive abilities. [2]

In large groups, animals often show highly organized behavior. In a video clip released November 2011, thousands of starlings put on a spectacular artistic display, which can be viewed in the links provided in the references. [3,4] Certain species of fish exhibit similar behavior. [5] Colonies of ants, bees, and termites are known to be very highly organized. A website hosted by Bryn Mawr University shows how very simple behavior by the ants leads to a complex social organization despite having no direction from a leader. Ants are capable of performing any of three primary jobs: guarding the nest, cleaning up debris, and foraging for food. Any individual worker ant can perform all three tasks, yet in a given colony, 50% of the ants forage, 25% clean, and 25% patrol. The ants manage this distribution of labor by secreting a chemical which identifies the type of work they are doing; therefore, they can identify what other ants are doing. If an ant is a forager and too many foragers are encountered, the ant automatically switches to one of the other two tasks, so the distribution of work always balances out. [6] Ant colonies are capable of solving problems, for instance, the ability to dispose of dead bodies at the maximum distance from entrances to the colony [7] and “The Traveling Salesman Problem:” determining how to stop at multiple destinations in the shortest distance. [8]

This type of behavior is described by scientists as “emergence,” or the concept that complex group behavior is possible from the simple actions or behaviors of individuals despite not having a leader. [9] Human beings will also tend to produce spontaneous order in the absence of a leader or other direction, for instance, behavior at a traffic circle (roundabout). [10] Even the simplest life forms demonstrate emergence according to Valerie Brown in her article “Bacteria ‘R’ Us.” Vibrio fischeri, a marine bacteria, are capable of producing a bioluminescent chemical when enough of them are gathered together, a phenomenon called “quorum sensing.” They exhibit this talent in symbiosis with bobtail squid, exchanging a protected environment for helping the bobtail squid hide from predators. She further goes on to mention two other forms of emergent behaviors, “swarming,” or the ability for a colony to move as a unit, and the development of fruiting bodies, which consist of a group of bacteria merging together into a spore in order to survive harsh conditions. [11]

Brown notes that bacteria have been demonstrated to have a wide variety of chemical communications with one another to the point where biologist Herbert Levine describes it as a language. He even proposed that their communications allow them to engage in intentional behavior, a form of intelligence. Brown gives the example of bacteria that have antibiotic resistant genes actively advertising that capability to other bacteria. She adds that bacteria are capable of telling the difference between “self” and “other,” and between their relatives and strangers, suggesting that they may even think. Reporting on an article written by Marc van Duijn, et.al at the University of Groningen in The Netherlands: “The presence of ‘the basic processes of cognition, such as perception, memory and action’ in bacteria can now be ‘plausibly defended.’” She also shares University of Chicago microbial geneticist James Shapiro’s thoughts about their capability for information management: “‘(they) have ways of acquiring information both from the outside and the inside…and they can do appropriate things on the basis of that information. So they must have some way to compute the proper outcome.’” Shapiro concludes “‘… Our status as the only sentient beings on the planet is dissolving as we learn more about how smart even the smallest living cells can be.’” [12]

Emergent behavior in bacteria appears to have profound implications with respect to the human organism. According to Brown, 90% of the cells in the human body are bacteria, and biologists are finding these bacteria have remarkable talents. They “...communicate in sophisticated ways, take concerted action, influence human physiology, alter human thinking, and work together to bioengineer the environment.” She further reports that biologists are finding that bacteria in our digestive system even influence our mental health. A study performed with lab mice injected with a type of bacteria associated with food poisoning showed that the resulting gut infection led to anxiety in the test mice, and conjectured the same effect happens in humans through transmission from the bowel via the nervous system to the brain areas involved with emotions. A different type of bacteria was demonstrated to improve moods in mice through activation of neurons producing serotonin. Quoting Brown: “The phrase ‘gut feeling’ is probably, literally true.” These findings may have profound implications on the treatment of diseases. [13]

Brown suggests that the remarkable abilities of bacteria are throwing evolution into question. Bacteria typically reproduce by cloning. When bacteria come in contact with one another, they can swap some of their genetic material by a process called “conjugation,” and any bacterium may freely swap with any other. She suggests that bacteria control their own evolution:

“Microbes also appear to take a much more active role in their own evolution than the so-called “higher” animals. This flies in the face of the more radical versions of Darwinism, which posit that the environment, and nothing else, selects genes, and that there is no intelligence, divine or otherwise, behind evolution — especially not in the form of organisms themselves making intentional changes to their heritable scaffolding.”

Brown finally poses an incredible thought: could bacteria be the ultimate architect of life on earth? [14]

Bacteria emerged 3.8 billion years ago, about 700 million years after the formation of the earth. It then took nearly 3 billion years for multicellular life to form (one billion years ago). About 550 million years ago was the “Cambrian Explosion,” where complex animals formed seemingly at once, such as worms, arthropods, and fish. [15] Molecular biologist Sean Carroll notes that the genetic material required for this burst had been in existence long prior to the Cambrian Explosion. [16] Given the remarkable capabilities seen in modern bacteria, it is easy to further speculate that bacteria may have been the architect for the DNA that sparked the Cambrian Explosion. After all, bacteria developed all of the complex chemicals and processes required for life. Quoting Valerie Brown:

“…bacteria are supreme code monkeys that probably perfected the packages of genes and the regulation necessary to produce just about every form of life, trading genetic information among themselves long before there was anything resembling a eukaryotic cell…” [17]

Biologist Rupert Sheldrake proposes a concept that appears to relate to emergence. These biological fields, morphogenic fields, are organizing fields that, he proposes, are specific to and govern the evolution of a species. These fields support a collective, instinctive memory that all individuals of a species may draw upon and contribute to, as he relates:

“For example, if rats of a particular breed learn a new trick in Harvard, then rats of that breed should be able to learn the same trick faster all over the world… There is already evidence from laboratory experiments (discussed in A New Science of Life) that this actually happens.” [18]

Psychologist Carl Jung proposed a very similar concept, “Collective Intelligence,” which describes a collective, instinctive memory. [19] These concepts may explain a particular ant colony behavior. Bryn Mawr University found that older ant colonies handle external disturbances better than newer colonies in existence only a year or two, despite the life span of an ant being only one year. [20]

Is it possible that bacteria, with its amazing talents, could be responsible for morphogenic fields and collective intelligence? Quoting Valerie Brown:

“…(bacteria) constitute a kind of distributed awareness encompassing the whole planet. That not only are bacteria in a given local environment busy texting each other like mad, but the entire planet may consist of a giant Microbial World Wide Web.”

Whether or not this is true, it is clear, that bacteria are much more influential in the ecosystem than ever imagined and that humans are the superior species needs to be reevaluated. [21]

Emergence, advanced organization, and intelligence are inherent phenomenon of life and are exhibited in life forms at all points on the evolutionary tree. In fact, prokaryotic bacteria, one of the simplest life forms, show both emergence and intelligence and may well be a force behind these talents in higher life forms. This may well prove to be one of nature’s greatest ironies; that only through the smallest of creatures does mankind enjoy its perch as the most advanced life form on our planet. In order to protect our fragile ecosystem, humanity needs to understand the interdependencies of all life forms and, more importantly, revere life for the miracle that it is. Perhaps then, mankind through its own form of emergent behavior will make its next evolutionary and transcendent leap. Quoting Aristotle: “In all things of nature there is something of the marvelous.”

References:

[1] http://news.discovery.com/animals/dolphin-intelligence-explained.html

[2] http://www.toptenz.net/top-10-smartest-animals.php

[3] http://whyevolutionistrue.wordpress.com/2011/11/04/a-murmuration-of-starlings/

[4] http://www.wired.com/wiredscience/2011/11/starling-flock/

[5] See 3.

[6] http://serendip.brynmawr.edu/complexity/models/antcolonies/page2.html

[7] http://en.wikipedia.org/wiki/Emergence

[8] www.reuters.com/article/2012/01/17/us-feature-sciences-most-beautiful-theor-idUSTRE80E04Y20120117

[9] Ibid.

[10] See 7.

[11] http://www.miller-mccune.com/science/bacteria-r-us-23628/