Space Ecology

Space Ecology

What fundamental rules govern the self-sustainability of ecosystems for long-term space settlement?


In order to truly become an interplanetary species, with a long-lasting, sustainable future in space, it is critical to uncover the universal rules governing the performance of different types of ecosystems with various features and conditions. We set out to synthesize current models to develop a unifying theoretical framework of ecosystem functioning, allowing us to move outside known case studies and enable predictive design of the initial phase of space settlement and their subsequent evolution.

Key accomplishments

  • Launched a Universal Space Ecology course

Project contact: 

Hikaru Furukawa

Funding years:

2018-2019

Team members

Hikaru Furukawa

ASU School of Earth and Space Exploration

Project lead
Astrobiology

Sara Walker

ASU School of Earth and Space Exploration

Astrobiology

Jordan Okie

ASU School of Earth and Space Exploration

Ecology

John Malloy

ASU School of Earth and Space Exploration

Astrobiology

Alexa Drew

ASU School of Earth and Space Exploration

Astrobiology

Harrison Smith

Earth and Life Science Institute, Tokyo Japan

Geological Sciences

Manfred Laubichler

Michael Barton

Pilar Vergeli

Tess Calvert

Subscribe for Interplanetary Updates