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Synthetic Biology for Terraformation Lessons from Mars, Earth, and the Microbiome

Núria Conde–Pueyo, Blai Vidiella, Josep Sardanyés, Miguel Berdugo, Fernando T. Maestre, Vı́ctor de Lorenzo, Ricard V. Solé

2020Life53 citationsDOIOpen Access PDF

Abstract

What is the potential for synthetic biology as a way of engineering, on a large scale, complex ecosystems? Can it be used to change endangered ecological communities and rescue them to prevent their collapse? What are the best strategies for such ecological engineering paths to succeed? Is it possible to create stable, diverse synthetic ecosystems capable of persisting in closed environments? Can synthetic communities be created to thrive on planets different from ours? These and other questions pervade major future developments within synthetic biology. The goal of engineering ecosystems is plagued with all kinds of technological, scientific and ethic problems. In this paper, we consider the requirements for terraformation, i.e., for changing a given environment to make it hospitable to some given class of life forms. Although the standard use of this term involved strategies for planetary terraformation, it has been recently suggested that this approach could be applied to a very different context: ecological communities within our own planet. As discussed here, this includes multiple scales, from the gut microbiome to the entire biosphere.

Topics & Concepts

Synthetic biologyBiosphereEcologyContext (archaeology)AstrobiologyMicrobiomeMars Exploration ProgramEcosystemScale (ratio)BiologyEnvironmental resource managementEnvironmental ethicsGeographyEnvironmental scienceBioinformaticsPaleontologyCartographyPhilosophySpace Science and Extraterrestrial LifeEarth Systems and Cosmic EvolutionSpaceflight effects on biology
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