Astrobiology, Geobiology, and Life Beyond
The field of Astrobiology is concerned with finding biology on other planets or other solid bodies in space. Geobiology is the study of the interactions between living organisms and their geological environment. It explores how life influences geological processes and how geological factors, such as minerals and rocks, shape and affect life forms. The two fields of course overlap in many ways, as emergence of life throughout the cosmos is greatly dependent on geochemical conditions. Besides a solid surface with minerals, whether in the form of a rocky planet, dwarf planet, or meteorite, other predictors of life are gaseous atmospheres and water. Chemical reactions are the kick starter for chemistry to turn into biochemistry. These reactions could come about through meteor impacts, volcanic activity, solar rays, hydrothermal vents, and more (or a combination of things). We know that one or a combination of these things led to life emerging on our wet rocky planet of Earth, but how can we detect life on solid surfaces that are beyond our reach? Read on.
The Pool Of Possibility
What pool do we have to work with in terms of our options we have to work with? In an (observable) universe that may contain 100 billion to 200 billion galaxies, tens of billions to hundreds of billions of solar systems in each galaxy, and about 10^22 planets, the possibilities may seem endless, but when we go back to the requirements, we need to be more cautious and specific in what we're looking for. For examples, many planets in the universe are (like Neptune and Saturn in our solar system) gaseous, and therefore highly unlikely to contain life. Other planets may be solid and rocky, but lack the other necessary components such as water and gaseous atmospheres. We can even get more detailed than that, and say that some wet rocky planets may have all the necessary ingredients except carbon, which is crucial for life on Earth because of its unique ability to form complex molecules through chemical bonding. Is non carbon-based life a possibility? Yes, but there's a lot of extraterrestrial chemistry that we know nothing about that would have to be studied in order to even begin to find out. The point is, the problem complexifies with the more (necessary) questions that we ask, and since astrobiology is a multidisciplinary field that incorporates astronomy, biology, chemistry, geology, physics, and more, we need to examine these problems through a systems-approach instead of a singular approach, meaning that we need to tackle each problem within the context of other factors instead of on its own.
Life Detection Methods
In order to improve and expand our search for extraterrestrial life, we need to employ the most high-quality and cutting edge technology. Spectroscopy as a generalized technique in science is a scientific method of studying objects and materials based on color. As applied to astrobiology, it's a technique that entails examining the light released or captured by a planet's atmosphere or surface. Researchers search for distinctive patterns, like indications of water, organic compounds, or gases such as oxygen and methane, which might indicate potential biological processes. Chromatography in astrobiology is achieved through simulation experiments and analyses conducted in laboratories using Earth-based analogs or synthetic environments designed to mimic extraterrestrial conditions. Types of chromatography include gas, liquid, and ion. Gas chromatography is extensively used in astrobiology for analyzing volatile and semi-volatile organic compounds in samples related to extraterrestrial environments or analogs. Liquid chromatography is used in order to separate non-volatile and polar compounds, including biomolecules. Ion chromatography is employed to analyze ionic compounds, including inorganic ions and organic acids. Of course, direct imaging through telescopes is also employed,
Life Beyond Us: Conclusion
Some scientists, like biochemist and molecular biologist Dr. Steven Benner think that microscopic microbial life is common on wet rocky planets. Dr. Benner has said that he thinks about 90% of wet rocky planets will have microbial life on them. Other scientists who work (in some way) in astrobiology are less optimistic in terms of the figures they cite. In terms of intelligent life, it largely depends on evolutionary biology and processes in evolution that would produce an intelligent organism. The fascinating endeavor of space exploration and life detection will be an evolving puzzle throughout the 21st century and beyond, and you can contribute to it by pursuing research in one of the many relevant scientific fields that make up astrobiology.
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