Showing posts with label Astronomy. Show all posts
Showing posts with label Astronomy. Show all posts
Tuesday, May 08, 2007
Is there anybody out there?
This piece in November promised a lot more and I have failed to deliver on my promise so far. This is my first attempt to catch up with what I had promised. This post will deal with the chemicals that one finds in asteroids that land on Earth and with it questions the possibility that the raw materials for life on Earth could have started by the availability of these chemicals and also discuss the possibility of panspermia.
First, I will start with astronomical spectroscopy. This is the method by which chemists identify the compounds present in space. When light or any electromagnetic radiation is passed through a sample, the sample absorbs and emits certain wavelengths of light better than others and the wavelengths that are emitted and absorbed can be used as a fingerprint analysis of the chemical nature of the compound itself. Unfortunately, the science is not as simple* as I mention here but will suffice for the discussion that follows.
There have been many meteors that have hit the Earth's surface and some of these impacts have been seen as the reason for major climate change in the Earth. The interest in astronomical spectroscopy was purely to understand the physical and chemical nature of the universe around us. But as soon as astronomical spectroscopy developed into a reliable science, it stood to reason that it could lead us to understand how life on Earth originated and whether there are traces of life elsewhere in the universe. Afterall, if life evolved on Earth, the chemicals responsible for life should have been present on Earth before that (and possibly elsewhere) and hence the chemical nature of these meteors became important to biology as well, but all these studies have not been localized to the meteors alone.
The interstellar medium is divided into the dense and diffuse kind. The diffuse interstellar medium is cold and icy material that is not too dense and is made up of neutral and charged ions of compounds of C, H, and N, and also contain compounds such as naphthalene, which are aromatic compounds. In the dense interstellar compounds, the temperature is close to 10K to 200K (freezing point is 273K) important compounds such as hydrogen gas, carbon monooxide, water, carbon dioxide, methane, methanol, ammonia and hydrogen disulfide were found among others. That is, it has a source for H, C, N, O, and S. Later, in some clouds they have also found organic acids and higher alcohols such as ethanol (pure delight!).
The meteorites that have hit close to home were found to be quite rich in the lower and higher organic compounds of the classes mentioned above but were also found to have trace quantities of natural as well as unnatural amino acids (natural defined as biologically natural), purines, and pyrimidines (the base compound in DNA and RNA). In addition trace quantities of phosphonates and other P containing compounds were also found (also found in DNA and RNA). What was also interesting is that some of these amino acids was found to be chiral in nature (like in biological systems). In other words, there is a way in space to make optically active compounds and not synthsize all the isomers in equal quantities. It is actively debated whether these meteors were contaminated by biologically active components on their way to the ground even though there is evidence that says that it was not contaminated.
To summarize, the raw materials for life to start could be found in meteors and other components of space and indeed, these compounds under the right condition could lead to life anywhere. I will deal later with attempts by scientist these days to understand how life started from these raw materials.
I would like to end with panspermia and I think wikipedia has a good definition - Panspermia is the hypothesis that "seeds" of life exist already in the Universe, that life on Earth may have originated through these "seeds", and that they may deliver or have delivered life to other habitable bodies.
It is kind of a whacky theory and people either do not believe it or do not want to believe it because it is a theory like intelligent design - once you have said it, there is no way to prove it right or wrong. It is a theory which is unscientific in nature. But one of the leading scientists believing in the theory was none other than the Nobel Laurette - Francis Crick. Finding these organic chemicals in space has only led to more evidence for this hypothesis.
* Before one performs spectroscopy of a sample, one has to attempt to purify all the compounds present in the sample which is not an easy job because the chemical nature of the substance is an unknown at the beginning. A variety of chromatographic techniques are used for this. In addition, even after the spectroscopy of the individual samples are performed, it does take some time to realize the exact chemical nature of the substance being examined.
References:
Wikipedia as usual - on Origin of life and Astronomical Spectroscopy and Panspermia.
Extraterrestrial Organic Matter: A review - William M. Irvine - Origins of Life and Evolution of Biospheres - Volume 28, 1998, 365-383.**
** I can provide the pdf of this document on request.
First, I will start with astronomical spectroscopy. This is the method by which chemists identify the compounds present in space. When light or any electromagnetic radiation is passed through a sample, the sample absorbs and emits certain wavelengths of light better than others and the wavelengths that are emitted and absorbed can be used as a fingerprint analysis of the chemical nature of the compound itself. Unfortunately, the science is not as simple* as I mention here but will suffice for the discussion that follows.
There have been many meteors that have hit the Earth's surface and some of these impacts have been seen as the reason for major climate change in the Earth. The interest in astronomical spectroscopy was purely to understand the physical and chemical nature of the universe around us. But as soon as astronomical spectroscopy developed into a reliable science, it stood to reason that it could lead us to understand how life on Earth originated and whether there are traces of life elsewhere in the universe. Afterall, if life evolved on Earth, the chemicals responsible for life should have been present on Earth before that (and possibly elsewhere) and hence the chemical nature of these meteors became important to biology as well, but all these studies have not been localized to the meteors alone.
The interstellar medium is divided into the dense and diffuse kind. The diffuse interstellar medium is cold and icy material that is not too dense and is made up of neutral and charged ions of compounds of C, H, and N, and also contain compounds such as naphthalene, which are aromatic compounds. In the dense interstellar compounds, the temperature is close to 10K to 200K (freezing point is 273K) important compounds such as hydrogen gas, carbon monooxide, water, carbon dioxide, methane, methanol, ammonia and hydrogen disulfide were found among others. That is, it has a source for H, C, N, O, and S. Later, in some clouds they have also found organic acids and higher alcohols such as ethanol (pure delight!).
The meteorites that have hit close to home were found to be quite rich in the lower and higher organic compounds of the classes mentioned above but were also found to have trace quantities of natural as well as unnatural amino acids (natural defined as biologically natural), purines, and pyrimidines (the base compound in DNA and RNA). In addition trace quantities of phosphonates and other P containing compounds were also found (also found in DNA and RNA). What was also interesting is that some of these amino acids was found to be chiral in nature (like in biological systems). In other words, there is a way in space to make optically active compounds and not synthsize all the isomers in equal quantities. It is actively debated whether these meteors were contaminated by biologically active components on their way to the ground even though there is evidence that says that it was not contaminated.
To summarize, the raw materials for life to start could be found in meteors and other components of space and indeed, these compounds under the right condition could lead to life anywhere. I will deal later with attempts by scientist these days to understand how life started from these raw materials.
I would like to end with panspermia and I think wikipedia has a good definition - Panspermia is the hypothesis that "seeds" of life exist already in the Universe, that life on Earth may have originated through these "seeds", and that they may deliver or have delivered life to other habitable bodies.
It is kind of a whacky theory and people either do not believe it or do not want to believe it because it is a theory like intelligent design - once you have said it, there is no way to prove it right or wrong. It is a theory which is unscientific in nature. But one of the leading scientists believing in the theory was none other than the Nobel Laurette - Francis Crick. Finding these organic chemicals in space has only led to more evidence for this hypothesis.
* Before one performs spectroscopy of a sample, one has to attempt to purify all the compounds present in the sample which is not an easy job because the chemical nature of the substance is an unknown at the beginning. A variety of chromatographic techniques are used for this. In addition, even after the spectroscopy of the individual samples are performed, it does take some time to realize the exact chemical nature of the substance being examined.
References:
Wikipedia as usual - on Origin of life and Astronomical Spectroscopy and Panspermia.
Extraterrestrial Organic Matter: A review - William M. Irvine - Origins of Life and Evolution of Biospheres - Volume 28, 1998, 365-383.**
** I can provide the pdf of this document on request.
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