Detectability of Future Earth

This special issue of the journal Futures features papers that examine the future of Earth and civilization from an astrobiological perspective, particularly focused on the extent to which human activities could be detectable across interstellar distances. As the guest editor of this special issue, my paper “Introduction: Detectability of future Earth” provides a synthesis of all the contributions in the volume.

This collection of papers demonstrates an important connection between futures studies and the search for extraterrestrial intelligence. The first issue is to examine possible future trajectories for human civilization: our growth in population and energy consumption will eventually face limits, even with advances in technology. This hybridization of the planet with technology is uncharted territory in Earth’s history, with an uncertain future or trajectory. The second issue is whether or not any other civilizations in the galaxy have already passed through this trajectory by achieving a sustainable hybridization of technology with their own planet. Evidence of such civilizations would be good news for humanity, as this would mean that our own future includes viable options for longevity. But if the search for extraterrestrial life turns up nothing, then this may indicate that energy-intensive civilizations might not be sustainable at all on a galactic scale. Our challenge as a species is to critically examine our possible futures and identify strategies for increasing the longevity of our civilization.

The collection of papers from this special issue on the Detectability of Future Earth is available on the Futures website.


Jacob Haqq-Misra (2019) Introduction: Detectability of future Earth, Futures 106: 1-3.
This special issue emphasizes the connection between the unfolding future of the Anthropocene with the search for extraterrestrial civilizations.

Brendan Mullan & Jacob Haqq-Misra (2019) Population growth, energy use, and the implications for the search for extraterrestrial intelligence, Futures 106: 4-17.
Limits to growth in population and energy consumption could occur within 2-3 centuries, which might imply that energy-intensive extraterrestrial civilizations are also rare.

Gina Riggio (2019) Earth in Human Hands, by David Grinspoon., Futures 106: 18-19.
This book review highlights Grinspoon’s observation that we are entering a new epoch of planetary self-awareness.

Julia DeMarines (2019) Light of the Stars: Alien Worlds and the Fate of the Earth, by Adam Frank., Futures 106: 20.
This book review highlights the connections between the future of Earth and the possibility of extraterrestrial civilizations.

Carl L. DeVito (2019) On the Meaning of Fermi’s paradox, Futures 106: 21-23.
This mathematical treatment of the Fermi paradox suggests that civilizations in the galaxy may emerge very slowly.

S. Stoney Simons & Jacob Haqq-Misra (2019) A trip to the moon might constrain the Fermi Paradox, Futures 106: 24-32.
Building a lunar observatory at mid-infrared wavelengths could help to improve the search for biosignatures.

Jacob Haqq-Misra (2019) Policy options for the radio detectability of Earth, Futures 106: 33-36.
Earth’s future radio detectability depends upon the risks we assume about the possibility of extraterrestrial contact.

Sanjoy M. Som (2019) Common identity as a step to civilization longevity, Futures 106: 37-43.
Civilization can extend it’s longevity through early-childhood psychology education based upon the “overview effect” of observing Earth from space.

AbSciCon Session: Life in the Anthropocene

This year at AbSciCon I will be convening a poster session titled “Life in the Anthropocene: The Future of Earth’s Biosphere.” Understanding the future of civilization is one of the goals of astrobiology research, and I welcome a broad range of interdisciplinary perspectives to generate lively discussion at this session.

Life in the Anthropocene: The Future of Earth’s Biosphere

Organizer: Jacob Haqq-Misra (Blue Marble Space Institute of Science)

Summary: The distant future of Earth’s biosphere will be shaped by the balance among factors such as orbital variations in solar insolation, cycles in glacial coverage, the carbonate-silicate cycle, and the resonating effects of anthropogenic climate change. Even longer geologic timescales will force the climate to adapt to a steadily brightening sun by drawing down atmospheric carbon dioxide until habitable conditions no longer remain. This poster session invites contributions that consider potential threats or challenges to the future of civilization, life, and climate from factors that will affect the Earth system over the next 100,000 to million years or longer.

http://www.hou.usra.edu/meetings/abscicon2015/program/topics/

Feel free to contact me if you have any questions regarding the suitability of your abstract for this session, and please share this session information with any of your interested colleagues.