Tag: magnetotactic bacteria

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Magnetotactic Bacteria Finding Their Way

Magnetotactic Bacteria Finding Their Way

Before GPS, people found their way with a compass. Many still do. Did you know that finding your way is possible, even if you don’t have any eyes or ears, or even a brain, as long as you have a compass? Magnetotactic bacteria (MTB) use the magnetic field of planet Earth to know which way to go. To do that, they have to build a compass. Realize that these are single-cell organisms that live in marine or freshwater habitats.

Inside the cells of all living things, there are subunits called organelles that perform various functions. MTB have organelles called magnetosomes that contain magnetic crystals. They build the magnetosomes by digesting iron and combining the iron with sulfur to form iron sulfide or with oxygen to form iron oxide. The iron oxide is also known as magnetite, and it’s a powerful magnet.

The bacteria form chains of these magnetic crystals inside their cells. The magnetosome chain acts as a compass needle aligning the MTB to Earth’s magnetic field. In this way, the magnetotactic bacteria can “know” the direction to move. Why do these bacteria need to know directions? They are anaerobic bacteria, meaning that they survive without oxygen. Oxygen can be deadly to them, so they need to find an area away from it. Rather than blindly going around in circles looking for a safe place, they move in a straight line to their anaerobic safe zone.

In 1963, an Italian scientist first noticed certain bacteria aligning and moving in the direction of the north pole. It wasn’t until 2007 that scientists paid much attention to that observation. Without eyes, ears, or a brain, magnetotactic bacteria can find where they need to go. But without a brain, how can they know to do this? And how can a single-cell bacterium build the magnetosome organelles? These magnetic crystals are difficult for humans to create in a laboratory. In fact, scientists have found that the magnetite produced by bacteria is better for some applications than what the scientists can produce in the laboratory. For that reason, they are looking to find a way to mass-produce MTB to obtain their magnetosomes.

Who taught the magnetotactic bacteria this fantastic skill? Did one of them figure it out and then pass that knowledge on to future generations? We don’t think so. A better explanation is that the Master Designer programmed the skill into them.

You can read a scientific paper on MTB at THIS LINK. Leading evolutionary biologist J.B.S. Haldane (1892-1964) once said that if you could find a magnetic mechanism as part of a living organism, it would disprove evolution. You can read more about Haldane and his statement at THIS LINK.

— Roland Earnst © 2020

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Scientists and God: A Different View

Scientists and God
J. B. S. Haldane in 1914

In each issue of our printed publication, we have a feature called Scientists and God, in which we quote from a leading scientist who is also a believer in God. Today I would like to do something a little different. I want to quote the words of a leading scientist who was not a believer.

J. B. S. Haldane (1892–1964) was a British geneticist and evolutionary biologist. He was also an outspoken atheist and a Marxist. Because of the political controversy caused by his Marxist ideology, he left England in 1956 and spent the remainder of his life in India.

Haldane was a brilliant man who made contributions in the areas of genetics, evolutionary biology, and mathematics. In many ways, he was ahead of his time. He proposed the central ideas of in vitro fertilization. He was the first to suggest human cloning. In fact, he coined the use of the term “clone” for that purpose. He also helped to create the science of population genetics.

Haldane proposed correctly that sickle-cell disease gives immunity to malaria. He prepared gene maps for color-blindness and hemophilia. Nobel Prize winning biologist Peter Medawar called Haldane “the cleverest man I ever knew.”

In 1929, Haldane introduced the “Primordial Soup Theory,” which said that life began on the early Earth in a chemical soup where the elements of life came together. That theory became the leading concept of abiogenesis–the idea of life coming from non-living matter by a natural process. Haldane’s theory led to the famous Miller-Urey experiment in 1952. In that experiment, Stanley Miller created a sealed container with the chemicals thought to have been part of the early atmosphere of Earth. He subjected the chemicals to an electric spark and collected some amino acids which are the building blocks of proteins. The news media went wild over “creating life in the laboratory,” but that was an example of media exaggeration–or as it would be called today “fake news.”

Incidentally, science has since shown that the Miller-Urey experiment did not emulate the conditions or chemicals of the early Earth and therefore is not a valid demonstration of the first step in abiogenesis. However, it is still shown to students in school textbooks because science has not produced anything better, and it is easy to understand. Today’s attempts at abiogenesis are far more complex, proving that it takes great intelligence and carefully controlled lab conditions to produce even the basic building blocks of life. In other words, it takes intelligence to create life, which has been our message for many years.

Haldane wrote numerous books presenting his ideas and defending Darwinism. In 1949 he debated British ornithologist Douglas Dewar on the topic “Is Evolution a Myth?” In that debate, Haldane said that evolution would not be capable of producing “various mechanisms, such as the wheel and magnet, which would be useless till fairly perfect.” In other words, if those mechanisms could be found in living organisms it would be an indication that evolution did not create those organisms.

Since that debate, we have found magnets in anaerobic bacteria which are considered to be the most “primitive” forms of life. The sightless, single-celled magnetotactic bacteria consume iron and produce magnets which they use to guide them to anaerobic areas that are safe for them to live. The magnets they produce are better for some scientific purposes than what humans can produce in the laboratory. Turtles, birds, and other more advanced animals also use magnets for navigation. Wheels can also be found in living organisms. As Janine M. Benyus (another Darwinist) wrote in her book titled Biomimicry, “Even the wheel, which we always took to be a uniquely human creation, has been found in the tiny rotary motor that propels the flagellum of the world’s most ancient bacteria.”

So wheels and magnets are found in the most “primitive” and “ancient” of single-celled bacteria. If that 1949 debate were taking place today, I doubt if J. B. S. Haldane would say that those mechanisms could disprove evolution. On the subject of Scientists and God, there are many views. Our view is that those mechanisms found in bacteria indicate an intelligent Creator who understood magnets and wheels long before humans did.
–Roland Earnst © 2017