The core region of the high Atacama Desert in Chile is the second driest place on Earth. The driest place on Earth is the McMurdo Dry Valleys of Antarctica, at which meteorologists have yet to measure any precipitation and where, in spite of the freezing conditions, no snow or ice remains on the ground. The high Atacama Desert receives an average of 1–5 millimeters (0.04–0.20 inches) of precipitation per year. A few small regions of the Atacama Desert have gone 500 years without receiving any precipitation.

Astronomers have taken advantage of the hyperarid, high-elevation plateaus and mountaintops of the Atacama Desert to build some of the largest and best telescopes in the world. Figure 1 shows part of the Atacama Large Millimeter Array at 16,500 feet elevation. Figure 2 shows one of the four optical telescopes of the Paranal Observatory at 8,645 feet elevation that compose the Very Large Telescope.

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Figure 1: The Atacama Large Millimeter Array. Image credit: ALMA (ESO/NASOJ/NRAO)

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Figure 2: The Paranal Observatory and the surrounding landscape. Image credit: European Southern Observatory

Of interest to astrobiologists is the question of whether life can survive and possibly evolve in hyperarid conditions. Of interest to Bible scholars is the question of the degree to which God has filled Earth with life (Psalm 104; Isaiah 45:18).

To address the first question, a team of 45 researchers from four European countries, the United States, and Chile selected four sites for biological studies that were little affected by human contamination: one coastal site in the Atacama Desert that receives occasional fog and rain, and three farther inland sites where the water content in the surface soils is below 1 percent by weight.1 The researchers looked for the following four signs of microbial activity:

  1. Biomolecules indicative of potentially active cells
  2. Chemical changes in the soil after an exceptional rainfall event that would be indicative of soil microbial activity
  3. Replication rate measurements of genomes of uncultivated bacteria reconstructed from selected samples
  4. Known microbial community patterns specific to the soil microenvironment and depth

At none of the four sites did the research team find evidence for permanently metabolically active microbes. However, the traces of microbial life that they found were more than what they would expect from cells and spores picked up by atmospheric winds from wetter habitats and sporadically deposited on the Atacama Desert soils.

At the three inland sites, atmospheric deposition over millions of years has resulted in the soils possessing very high salt concentrations. Thus, it came as no surprise to the researchers that the only microbes they found at the three inland sites were extremophile microbes—microbes able to survive under hyperarid, hypersaline conditions. They noted that these extremophile microbes became metabolically active following a rainfall event, became increasingly less metabolically active in the days and weeks following the rainfall event, and then entered a long period of dormancy where no metabolic activity could be measured.

Based on their findings, the research team concluded that the range of hyperarid environments temporarily habitable for terrestrial life is greater than what ecologists had previously thought.2 They also concluded that their findings might provide some hope that such extremophiles may be found on Mars, and perhaps even on some exoplanets.3

The research teams conclusions need to be taken with a grain of salt (pun intended). Their first field study was conducted after a major El Niño event triggered one of the biggest rainfall events in the Atacama Desert. The coastal site received 33 millimeters (1.30 inches) of rain, while the inland sites received 8 millimeters (0.31 inches) of rain. For the two later field studies, two 7 millimeter (0.28 inch) rainfall events occurred at the coastal site. Therefore, the geographical extent of the Atacama Desert microbes and the average metabolic activity of these extremophile microbes might be a lot less than what the research team observed.

The extremophiles the researchers found in the Atacama Desert are extreme in two independent ways. They are able to live in environments that are both extremely arid and extremely salty. As such, these microbes must expend a lot of their metabolic activity, genomic resources, and cellular machinery on repairing the ongoing severe damage they experience from their arid, salty environment.

In order to survive under such inhospitable conditions, the Atacama Desert microbes are designed to operate at extremely low average metabolic rates. Therefore, they need to draw very little energy from their environments. However, the very low energy processing capability of these microbes means that their capacity for adaptation or evolution is very limited.

The need for extensive specialized repair machinery, the need to devote much of the available metabolic energy to damage repair, and the very limited capacity for adaptation and evolution led another team of researchers to conclude that extremophiles are irrelevant to the origin of life.4 Their point was that as intractable as a naturalistic explanation for mesophilic life is, naturalistic explanations of extremophilic life are orders of magnitude more intractable.

In the case of the Atacama Desert extremophiles, it is yet even more intractable owing to the fact that the Atacama Desert extremophile microbes are extreme in two distinctly independent ways. Thus, the Atacama Desert extremophile microbes dash, rather than provide, any hope that indigenous extremophiles may be found on Mars and on some exoplanets. Nevertheless, just like winds deposit microbes from wet habitats onto the Atacama Desert, meteoroids have transported microbes from Earth to Mars, where the remains of such microbes eventually will be found.

Given that the few Atacama Desert microbes that have been found in the deserts most arid regions are living at the extreme edge of conceivable viability, why are they even there? The answer, I believe, is found in Psalm 104 and Isaiah 45:18. The relevant part of Isaiah 45:18 states:

He who fashioned and made the earth, he founded it; he did not create it to be empty, but formed it to be inhabited. . . .

Psalm 104 is a creation psalm that states that God has packed Earth with his creatures, putting diverse life in parts of the world that we humans would otherwise consider completely inhospitable. The microbes in the Atacama Desert testify to God’s almighty creative handiwork in that he has filled Earth with all manner of life.

Endnotes
  1. Dirk Schulze-Makuch et al., “Transitory Microbial Habitat in the Hyperarid Atacama Desert,” Proceedings of the National Academy of Sciences, USA 115 (March 2018): 2670–75, doi:10.1073/pnas.1714341115.
  2. Schulze-Makuch et al., “Transitory Microbial Habitat,” 2670.
  3. Schulze-Makuch et al., “Transitory Microbial Habitat,” 2670.
  4. H. James Cleaves II and John H. Chalmers, Extremophiles May Be Irrelevant to the Origin of Life, Astrobiology 4 (March 2004): 1–9, doi:10.1089/153110704773600195.

Check out more from Dr. Hugh Ross @Reasons.org

About The Author

Dr. Hugh Ross

Reasons to Believe emerged from my passion to research, develop, and proclaim the most powerful new reasons to believe in Christ as Creator, Lord, and Savior and to use those new reasons to reach people for Christ. I also am eager to equip Christians to engage, rather than withdraw from or attack, educated non-Christians. One of the approaches I’ve developed, with the help of my RTB colleagues, is a biblical creation model that is testable, falsifiable, and predictive. I enjoy constructively integrating all 66 books of the Bible with all the science disciplines as a way to discover and apply deeper truths. 1 Peter 3:15–16 sets my ministry goal, "Always be prepared to give an answer to everyone who asks you to give the reason for the hope that you have. But do this with gentleness and respect, keeping a clear conscience." Hugh Ross launched his career at age seven when he went to the library to find out why stars are hot. Physics and astronomy captured his curiosity and never let go. At age seventeen he became the youngest person ever to serve as director of observations for Vancouver's Royal Astronomical Society. With the help of a provincial scholarship and a National Research Council (NRC) of Canada fellowship, he completed his undergraduate degree in physics (University of British Columbia) and graduate degrees in astronomy (University of Toronto). The NRC also sent him to the United States for postdoctoral studies. At Caltech he researched quasi-stellar objects, or "quasars," some of the most distant and ancient objects in the universe. Not all of Hugh's discoveries involved astrophysics. Prompted by curiosity, he studied the world’s religions and "holy books" and found only one book that proved scientifically and historically accurate: the Bible. Hugh started at religious "ground zero" and through scientific and historical reality-testing became convinced that the Bible is truly the Word of God! When he went on to describe for others his journey to faith in Jesus Christ, he was surprised to discover how many people believed or disbelieved without checking the evidence. Hugh's unshakable confidence that God's revelations in Scripture and nature do not, will not, and cannot contradict became his unique message. Wholeheartedly encouraged by family and friends, communicating that message as broadly and clearly as possible became his mission. Thus, in 1986, he founded science-faith think tank Reasons to Believe (RTB). He and his colleagues at RTB keep tabs on the frontiers of research to share with scientists and nonscientists alike the thrilling news of what's being discovered and how it connects with biblical theology. In this realm, he has written many books, including: The Fingerprint of God, The Creator and the Cosmos, Beyond the Cosmos, A Matter of Days, Creation as Science, Why the Universe Is the Way It Is, and More Than a Theory. Between writing books and articles, recording podcasts, and taking interviews, Hugh travels the world challenging students and faculty, churches and professional groups, to consider what they believe and why. He presents a persuasive case for Christianity without applying pressure. Because he treats people's questions and comments with respect, he is in great demand as a speaker and as a talk-radio and television guest. Having grown up amid the splendor of Canada's mountains, wildlife, and waterways, Hugh loves the outdoors. Hiking, trail running, and photography are among his favorite recreational pursuits - in addition to stargazing. Hugh lives in Southern California with his wife, Kathy, and two sons.



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