Techno–ecological synergies of solar energy for global sustainability

Authors

Rebecca Hernandez, University of California, Davis
Alona Armstrong, Lancaster University
Jennifer Burney, University of California, San Diego
Greer Ryan, Center for Biological Diversity - Tucson, AZ
Kara Moore-O'Leary, U.S. Fish and Wildlife Service, Pacific Southwest Region, Sacramento, CA
Ibrahima Diedhiou, University of Thies, Senegal
Steven Grodsky, University of California, Davis
Leslie Saul-Gershenz, University of California, Davis
Rob Davis, Fresh Energy, Saint Paul, MN
Jordan Macknick, National Renewable Energy Laboratory, Golden, CO
Dustin Mulvaney, San Jose State University
Garvin Heath, National Renewable Energy Laboratory
Shane Easter, Wells Fargo, San Francisco
Madison Hoffacker, University of California, Davis
Michael Allen, University of California, Riverside
Daniel Kammen, University of California, Berkeley

Publication Date

July 2019

Document Type

Article

Publication Title

Nature Sustainability

Volume

2

Issue

7

DOI

10.1038/s41893-019-0309-z

First Page

560

Last Page

568

Abstract

The strategic engineering of solar energy technologies—from individual rooftop modules to large solar energy power plants—can confer significant synergistic outcomes across industrial and ecological boundaries. Here, we propose techno–ecological synergy (TES), a framework for engineering mutually beneficial relationships between technological and ecological systems, as an approach to augment the sustainability of solar energy across a diverse suite of recipient environments, including land, food, water, and built-up systems. We provide a conceptual model and framework to describe 16 TESs of solar energy and characterize 20 potential techno–ecological synergistic outcomes of their use. For each solar energy TES, we also introduce metrics and illustrative assessments to demonstrate techno–ecological potential across multiple dimensions. The numerous applications of TES to solar energy technologies are unique among energy systems and represent a powerful frontier in sustainable engineering to minimize unintended consequences on nature associated with a rapid energy transition.

Keywords

climate-change mitigation, climate sciences, energy efficiency, energy justice, energy policy

Comments

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Recommended Citation

Rebecca Hernandez, Alona Armstrong, Jennifer Burney, Greer Ryan, Kara Moore-O'Leary, Ibrahima Diedhiou, Steven Grodsky, Leslie Saul-Gershenz, Rob Davis, Jordan Macknick, Dustin Mulvaney, Garvin Heath, Shane Easter, Madison Hoffacker, Michael Allen, and Daniel Kammen. "Techno–ecological synergies of solar energy for global sustainability" Nature Sustainability (2019): 560-568. https://doi.org/10.1038/s41893-019-0309-z