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    HomeScienceExtreme Heat Likely To Wipe Out Humans and Mammals in “Triple Whammy”

    Extreme Heat Likely To Wipe Out Humans and Mammals in “Triple Whammy”

    A pioneering study warns of an impending mass extinction event due to unprecedented global heat, which could endanger nearly all mammals in about 250 million years.

    A study predicts a mass extinction of mammals in 250 million years due to extreme heat from the formation of a supercontinent. The research highlights the lethal combination of a hotter sun, increased CO2, and continental effects, underscoring the importance of landmass layouts in evaluating the habitability of exoplanets.

    Unprecedented heat is likely to lead to the next mass extinction since the dinosaurs died out, eliminating nearly all mammals in some 250 million years’ time, according to a new study.

    The research, published on September 25 in the journal Nature Geoscience and led by the University of Bristol, presents the first-ever supercomputer climate models of the distant future and demonstrates how climate extremes will dramatically intensify when the world’s continents eventually merge to form one hot, dry and largely uninhabitable supercontinent.

    Factors Contributing to Extreme Temperatures

    The findings project how these high temperatures are set to further increase, as the sun becomes brighter, emitting more energy and warming the Earth. Tectonic processes, occurring in the Earth’s crust and resulting in supercontinent formation would also lead to more frequent volcanic eruptions which produce huge releases of carbon dioxide into the atmosphere, further warming the planet.

    Mammals, including humans, have survived historically thanks to their ability to adjust to weather extremes, especially through adaptations such as fur and hibernating in the cold, as well as short spells of warm weather hibernation.

    While mammals have evolved to lower their cold temperature survivable limit, their upper-temperature tolerance has generally remained constant. This makes exposure to prolonged excessive heat much harder to overcome and the climate simulations, if realized, would ultimately prove unsurvivable.

    Implications for Mammals

    Lead author Dr. Alexander Farnsworth, Senior Research Associate at the University of Bristol, said: “The newly-emerged supercontinent would effectively create a triple whammy, comprising the continentality effect, hotter sun and more CO2 in the atmosphere, of increasing heat for much of the planet. The result is a mostly hostile environment devoid of food and water sources for mammals.

    “Widespread temperatures of between 40 to 50 degrees Celsius, and even greater daily extremes, compounded by high levels of humidity would ultimately seal our fate. Humans – along with many other species – would expire due to their inability to shed this heat through sweat, cooling their bodies.”

    Although human-induced climate change and global warming is likely to be a growing cause of heat stress and mortality in some regions, research suggests the planet should largely remain habitable until this seismic landmass change in the deep future. But when the supercontinent forms, findings indicate only somewhere between 8% and 16% of land would be habitable for mammals.

    Addressing Current Climate Crisis

    Co-author Dr. Eunice Lo, Research Fellow in Climate Change and Health at the University of Bristol said: “It is vitally important not to lose sight of our current Climate Crisis, which is a result of human emissions of greenhouse gases. While we are predicting an uninhabitable planet in 250 million years, today we are already experiencing extreme heat that is detrimental to human health. This is why it is crucial to reach net-zero emissions as soon as possible.”

    Methodology and Future Predictions

    The international team of scientists applied climate models, simulating temperature, wind, rain, and humidity trends for the next supercontinent – called Pangea Ultima – expected to form in the next 250 million years. To estimate the future level of CO2 the team used models of tectonic plate movement, ocean chemistry, and biology to map out inputs and outputs of CO2.

    The future CO2 calculations were led by Professor Benjamin Mills at the University of Leeds, who said: “We think CO2 could rise from around 400 parts per million (ppm) today to more than 600 ppm many millions of years in the future. Of course, this assumes that humans will stop burning fossil fuels, otherwise, we will see those numbers much, much sooner.”

    Dr. Farnsworth, also a visiting Professor at the Tibetan Plateau Earth System, Environment and Resources (TPESER), at the Chinese Academy of Sciences Institute of Tibetan Plateau Research said: “The outlook in the distant future appears very bleak. Carbon dioxide levels could be double current levels. With the Sun also anticipated to emit about 2.5% more radiation and the supercontinent being located primarily in the hot, humid tropics, much of the planet could be facing temperatures of between 40 to 70 °C.

    “This work also highlights that a world within the so-called ‘habitable zone’ of a solar system may not be the most hospitable for humans depending on whether the continents are dispersed, as we have today, or in one large supercontinent.”

    Relevance to Exoplanet Research

    In addition, the research illustrates the importance of tectonics and continental layouts when conducting research into planets beyond our solar system, called exoplanets. Although the Earth will still be within the habitable zone in 250 million years’ time, for mammals the formation of a supercontinent with elevated carbon dioxide will make most of the world uninhabitable. The findings suggest the landmass layout for a distant world could be a key factor when determining how liveable it is for humans.

    Reference: “Climate extremes likely to drive land mammal extinction during next supercontinent assembly” by Alexander Farnsworth, Y. T. Eunice Lo, Paul J. Valdes, Jonathan R. Buzan, Benjamin J. W. Mills, Andrew S. Merdith, Christopher R. Scotese and Hannah R. Wakeford, 25 September 2023, Nature Geoscience.
    DOI: 10.1038/s41561-023-01259-3

    The research formed part of a funded project, funded by the UK Research and Innovation Natural Environment Research Council (UKRI NERC) looking at the climates of supercontinents and mass extinctions.

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