Argument from abiogenesis

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Abiogenesis is the study of the origin of life on Earth. There is currently no widely-accepted theory of abiogenesis, but it is an ongoing area of research.

The term "abiogenesis" comes from Greek roots: the prefix "a-" (without), "bio" (life), and "genesis" (beginning), i.e., the origin of life from non-life. In this broadest sense, abiogenesis can include religious creation myths. More commonly, however, it refers to the scientific study of the origin of life.


Abiogenesis and evolution

While evolution explains how self-replicating entities change over time, abiogenesis is the study of how self-replicators arose in the first place, and how evolution got started. It is thus related to evolution, but distinct.

Creationists often claim that since scientists do not know how life started, that this makes the theory of evolution invalid or baseless. This is untrue: just as it is not necessary to know the history of the internal combustion engine to understand how an automobile works, evolutionary biologists can study how populations evolve today without necessarily knowing how life arose.

Abiogenesis and spontaneous generation

Creationists often claim that Louis Pasteur disproved abiogenesis by showing that flies do not appear on meat if the meat is sealed from outside contamination. In fact, Pasteur disproved the theory of spontaneous generation, the idea that fully-formed modern flies spontaneously arise from meat.

Current models of abiogenesis make no such claim. Rather, researchers try to figure out which organic molecules could have been formed under the conditions of the early Earth, how they might have combined to form RNA, DNA, cell membranes, metabolism, etc.

A multitude of hypotheses

Since life is believed to have arisen about 3.5 billion years ago, it is very difficult to find fossil remains of the earliest life forms: many chemicals thought to have played a part in the origin of life do not last that long under the conditions under which they may be found; the rocks where they might otherwise be found might have been contaminated by geologic processes, and many of them may have been subducted into the mantle. Nonetheless, there are numerous hypotheses as to how life could have arisen.

Some researchers believe that life arose on the surface of the globe, perhaps as an oily film on the surface of the ocean, or in tidal pools. The surface is, after all, where most living beings live today. Others argue that the surface of the early earth was bombarded with ultraviolet rays that would have broken down organic molecules almost as soon as they were formed, and thus these molecules could not have accumulated in sufficient concentrations to permit interesting reactions to take place.

It is also possible that life arose deep under the ocean, protected from ultraviolet rays, around hydrothermal vents that provided heat for chemicals to form and react with each other.

Some of the chemicals required for life may have fallen to earth in meteorites. Many chemicals, including sugar and alcohol, can form in gas clouds in outer space, and may therefore have been part of the composition of the earth from the very beginning. Others may have fallen to earth later. Meteorites known as carbonaceous chondrites contain many types of organic molecule, even after falling through the atmosphere and crashing to earth.

It is hypothesized that minerals, including clays, may have played a role in the origin of life: if certain amino acids become attached to the surface of a piece of clay, the clay in effect holds it in place, allowing another amino acid to become attached to the first.

Other minerals have microscopic pores, which may have been filled with interacting molecules, thus in effect playing the role of a cell wall. However, it is known that lipids can spontaneously form hollow spheres in water. Thus, it is not clear whether metabolism came before cell membranes or vice-versa.

It is possible that we will never know exactly how life arose on Earth, but it may be possible to come up with a handful of likely scenarios.

The Urey-Miller experiment

In 1951, Harold Urey and his graduate student Stanley Miller conducted a seminal experiment: they filled a glass vessel with water, methane, ammonia, and hydrogen, by which they hoped to model the ocean and early atmosphere of the Earth. Two electrodes in the vessel produced sparks, simulating lightning. The vessel was connected by a tube to a condenser and a second chamber, from which samples could be withdrawn and analyzed.

Within a few days, the water turned yellow, and dark "muck" had appeared on the walls of the vessel. This turned out to contain glycine, an amino acid. Later on, several other amino acids and other organic molecules.

Later experiments not only confirmed the results of the Urey-Miller experiment, but expanded on it, showing that organic molecules are easy to synthesize under a wide variety of conditions, including different atmospheric compositions and energy sources.

Miller and Urey did not create life in the lab, nor does anyone claim that they did. They did, however, demonstrate that molecules essential to living beings can form naturally under likely conditions of early earth.

Later results

One common creationist argument is that the Urey-Miller experiment only created a few of the amino acids used by life. Another is that the gases used by Miller and Urey were different from those present on primordial earth.

According to a paper published in Science in 2008, scientists were able to reanalyze the residues from one of the original experiments, and found several amino acids that instruments in the 1950s were not sensitive enough to detect. In other words, Miller and Urey were more successful than they realized.

The paper also argues that the atmosphere used in that experiment may have been locally realistic. That is, that mixture of gases would not occur throughout the planet, but only near volcanic eruptions.

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