![]() Mars, 100 million miles further from the Sun than Earth is a bit less hostile to life with days of searing heat and nights of deep cold like our moon, but also with an atmosphere that is overwhelmingly made up of carbon dioxide with just tiny traces of oxygen. James Lovelock ,who turned 101 in 2021 came up with his accidental discovery when NASA asked him back in the 1960s to see if his inventions could detect life on the other planets by looking at their atmospheres.ĬURWOOD: Venus, our nearest neighbor at 25 million miles closer to the Sun than Earth, is literally a hot mess with steady surface temperatures of nearly 900 degrees Fahrenheit, and an atmosphere of mostly carbon dioxide laced with bits of sulfur droplets. Simply put, the Gaia hypothesis says the whole Earth system acts like it is alive and uses mechanisms that living creatures use to stay alive by constantly regulating temperature, chemical and physical inputs and outputs, and adapting through evolution. Thanks to the suggestion of a friend, James Lovelock called it the Gaia Hypotheses, after the Greek Goddess who symbolizes Earth. But we humans do have the power to observe, and thanks to the observations of a genius named James Lovelock there is a hypothesis that could unlock a whole systems approach to protecting the amazing life forms that have arisen on Earth. Our guesses come from models run on supercomputers, but among their weaknesses they are poor at modeling clouds, and water vapor is our most prevalent greenhouse gas. Right now, we are guessing that a more than a 2-degree centigrade rise in average global surface temperatures over preindustrial levels will literally start toasting civilization, and the climate disruption we already can see and feel comes from little more than a one-degree rise. But modern humans have never lived through a major shift in the climate, so we can only speculate what might happen if the Goldilocks range of temperatures we need to survive are ever knocked out of whack. We do understand which molecules reflect the sun’s heat and which ones can trap it. The big unanswered questions are why and exactly how. ![]() When it comes to Earth’s climate there are still huge gaps in our knowledge of how the Earth stays neither too hot nor too cold to support life. Some day we may be able to explain in more scientific terms what is now the mystery of love, as unromantic that might sound, much as after millennia of observing birds fly, humans finally figured out the physics of how the birds do it so we could make wings to carry ourselves. But science cannot explain precisely what love is or even the exact process that creates, shares and enjoys love. Consider, for example, that few of us would dispute the existence of love, though hopefully all of us have experienced it. And some of that good sense comes from the humility of knowing that there are so many amazing things that accepted science still doesn’t understand. Indeed, so many discoveries like radioactivity and antibiotics came when researchers were looking for something else in their laboratories and then, fortunately, had the good sense to pay attention when they got unexpected results. A book in which the author coins the Medea hypothesis, that is, a tendency that life may have to compromise the habitability of its planet.CURWOOD: It’s Living on Earth, I’m Steve CurwoodĬURWOOD: One of the most fascinating aspects of science is the way its knowledge base is always changing, and new discoveries can come almost, if not entirely, by accident. A review article that presents what can be inferred from geological evidence of the early surface conditions of Mars. A review article that discusses the early subsurface habitability of Mars and the idea that finding traces of ancient subsurface Martian life might be one of the best chances we have to learn more about the origin of life on Earth and elsewhere. ![]() The Martian subsurface as a potential window into the origin of life. ![]() A review article that presents a set of possible long-term trajectories of Martian habitability and discusses how to evaluate the respective likelihood of those scenarios based on geological evidence. ![]()
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