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author Silliman, Brian R
Hensel, Marc J S
Temmink, Ralph J M
Paxton, Avery B
Wieczynski, Daniel J
Gibert, Jean P
Johnston, David W
Noonan, Devon
Ferris, William N
Hay, Mark E
Paalman, Tiffany
Cutshaw, Christy
Borsuk, Mark
Angelini, Christine
Dalton, Laura E
van de Koppel, Johan
van Belzen, Jim
Strong, Benjamin
Bertness, Mark D
Angelini, Thomas E
Gutierrez, Andrea W
Thomsen, Mads S
Kaynor, Tigerlily
Olander, Lydia
Cassar, Nicolas
Stoorvogel, Marte M
Bouma, Tjeerd J
Wear, Stephanie
van der Heide, Tjisse
Daleo, Pedro
Parker, Shannon
Aithal, Akash
Gittman, Rachel K
Silliman, Parker
Wade, Eric
Rungta, Dhruv
Qiu, Tong
He, Liyin
Cerino, David S
He, Qiang
von Windheim, Jesko
Nordone, Shila K
author_facet Silliman, Brian R
Hensel, Marc J S
Temmink, Ralph J M
Paxton, Avery B
Wieczynski, Daniel J
Gibert, Jean P
Johnston, David W
Noonan, Devon
Ferris, William N
Hay, Mark E
Paalman, Tiffany
Cutshaw, Christy
Borsuk, Mark
Angelini, Christine
Dalton, Laura E
van de Koppel, Johan
van Belzen, Jim
Strong, Benjamin
Bertness, Mark D
Angelini, Thomas E
Gutierrez, Andrea W
Thomsen, Mads S
Kaynor, Tigerlily
Olander, Lydia
Cassar, Nicolas
Stoorvogel, Marte M
Bouma, Tjeerd J
Wear, Stephanie
van der Heide, Tjisse
Daleo, Pedro
Parker, Shannon
Aithal, Akash
Gittman, Rachel K
Silliman, Parker
Wade, Eric
Rungta, Dhruv
Qiu, Tong
He, Liyin
Cerino, David S
He, Qiang
von Windheim, Jesko
Nordone, Shila K
Silliman, Brian R
Hensel, Marc J S
Temmink, Ralph J M
Paxton, Avery B
Wieczynski, Daniel J
Gibert, Jean P
Johnston, David W
Noonan, Devon
Ferris, William N
Hay, Mark E
Paalman, Tiffany
Cutshaw, Christy
Borsuk, Mark
Angelini, Christine
Dalton, Laura E
van de Koppel, Johan
van Belzen, Jim
Strong, Benjamin
Bertness, Mark D
Angelini, Thomas E
Gutierrez, Andrea W
Thomsen, Mads S
Kaynor, Tigerlily
Olander, Lydia
Cassar, Nicolas
Stoorvogel, Marte M
Bouma, Tjeerd J
Wear, Stephanie
van der Heide, Tjisse
Daleo, Pedro
Parker, Shannon
Aithal, Akash
Gittman, Rachel K
Silliman, Parker
Wade, Eric
Rungta, Dhruv
Qiu, Tong
He, Liyin
Cerino, David S
He, Qiang
von Windheim, Jesko
Nordone, Shila K
collection PubMed - marine biology
contents Ecosystem technology (ecotech): Harnessing natural processes to address global challenges. Silliman, Brian R Hensel, Marc J S Temmink, Ralph J M Paxton, Avery B Wieczynski, Daniel J Gibert, Jean P Johnston, David W Noonan, Devon Ferris, William N Hay, Mark E Paalman, Tiffany Cutshaw, Christy Borsuk, Mark Angelini, Christine Dalton, Laura E van de Koppel, Johan van Belzen, Jim Strong, Benjamin Bertness, Mark D Angelini, Thomas E Gutierrez, Andrea W Thomsen, Mads S Kaynor, Tigerlily Olander, Lydia Cassar, Nicolas Stoorvogel, Marte M Bouma, Tjeerd J Wear, Stephanie van der Heide, Tjisse Daleo, Pedro Parker, Shannon Aithal, Akash Gittman, Rachel K Silliman, Parker Wade, Eric Rungta, Dhruv Qiu, Tong He, Liyin Cerino, David S He, Qiang von Windheim, Jesko Nordone, Shila K Ecosystem Climate Change Conservation of Natural Resources Biodiversity Humans Ecology Biotechnology Over the past 80 years, biotechnology has advanced agriculture, health care, and economic development by harnessing biological processes from the organism inward, i.e., from the organ system to the molecular scale. Today's global challenges, including biodiversity loss, climate change, and pollution, demand a complementary technological expansion inspired by processes operating from the organism outward, i.e., at the levels of populations, communities, ecosystems, and the biosphere. Here, we present the components of this technological expansion through ecosystem technology, or ecotech. We propose a framework for ecotech to integrate elements of ecology, engineering, and earth science and to function as a practical and conceptual convergence accelerator. Ecotech will advance critical environmental solutions by uniting independently evolving technologies, generating diverse fields of inquiry (e.g., ecomimicry, ecosystem materials science, ecosystem sensing and signaling), and inspiring innovation. To harness this innovation to improve nature restoration, carbon storage, water quality, ecosystem energy, and infrastructure resistance to disasters, ecotech is guided by cross-cutting actions to ensure scalability, equity, and accountability. When integrated into strategies across nongovernmental organizations, business, and governments, ecotech offers a pathway to advance climate adaptation, biodiversity recovery, and economic diversification and growth. By uniting ecology, engineering, and earth sciences at scale, ecotech transforms technology into a tool to confront humanity's most urgent existential needs and secure a livable future.
format Artículo científico
id pubmed_42090486
institution PubMed
language en
publishDate 2026
publisher Science advances
record_format pubmed
spellingShingle Ecosystem technology (ecotech): Harnessing natural processes to address global challenges.
Silliman, Brian R
Hensel, Marc J S
Temmink, Ralph J M
Paxton, Avery B
Wieczynski, Daniel J
Gibert, Jean P
Johnston, David W
Noonan, Devon
Ferris, William N
Hay, Mark E
Paalman, Tiffany
Cutshaw, Christy
Borsuk, Mark
Angelini, Christine
Dalton, Laura E
van de Koppel, Johan
van Belzen, Jim
Strong, Benjamin
Bertness, Mark D
Angelini, Thomas E
Gutierrez, Andrea W
Thomsen, Mads S
Kaynor, Tigerlily
Olander, Lydia
Cassar, Nicolas
Stoorvogel, Marte M
Bouma, Tjeerd J
Wear, Stephanie
van der Heide, Tjisse
Daleo, Pedro
Parker, Shannon
Aithal, Akash
Gittman, Rachel K
Silliman, Parker
Wade, Eric
Rungta, Dhruv
Qiu, Tong
He, Liyin
Cerino, David S
He, Qiang
von Windheim, Jesko
Nordone, Shila K
Ecosystem
Climate Change
Conservation of Natural Resources
Biodiversity
Humans
Ecology
Biotechnology
Ecosystem technology (ecotech): Harnessing natural processes to address global challenges. Silliman, Brian R Hensel, Marc J S Temmink, Ralph J M Paxton, Avery B Wieczynski, Daniel J Gibert, Jean P Johnston, David W Noonan, Devon Ferris, William N Hay, Mark E Paalman, Tiffany Cutshaw, Christy Borsuk, Mark Angelini, Christine Dalton, Laura E van de Koppel, Johan van Belzen, Jim Strong, Benjamin Bertness, Mark D Angelini, Thomas E Gutierrez, Andrea W Thomsen, Mads S Kaynor, Tigerlily Olander, Lydia Cassar, Nicolas Stoorvogel, Marte M Bouma, Tjeerd J Wear, Stephanie van der Heide, Tjisse Daleo, Pedro Parker, Shannon Aithal, Akash Gittman, Rachel K Silliman, Parker Wade, Eric Rungta, Dhruv Qiu, Tong He, Liyin Cerino, David S He, Qiang von Windheim, Jesko Nordone, Shila K Ecosystem Climate Change Conservation of Natural Resources Biodiversity Humans Ecology Biotechnology Over the past 80 years, biotechnology has advanced agriculture, health care, and economic development by harnessing biological processes from the organism inward, i.e., from the organ system to the molecular scale. Today's global challenges, including biodiversity loss, climate change, and pollution, demand a complementary technological expansion inspired by processes operating from the organism outward, i.e., at the levels of populations, communities, ecosystems, and the biosphere. Here, we present the components of this technological expansion through ecosystem technology, or ecotech. We propose a framework for ecotech to integrate elements of ecology, engineering, and earth science and to function as a practical and conceptual convergence accelerator. Ecotech will advance critical environmental solutions by uniting independently evolving technologies, generating diverse fields of inquiry (e.g., ecomimicry, ecosystem materials science, ecosystem sensing and signaling), and inspiring innovation. To harness this innovation to improve nature restoration, carbon storage, water quality, ecosystem energy, and infrastructure resistance to disasters, ecotech is guided by cross-cutting actions to ensure scalability, equity, and accountability. When integrated into strategies across nongovernmental organizations, business, and governments, ecotech offers a pathway to advance climate adaptation, biodiversity recovery, and economic diversification and growth. By uniting ecology, engineering, and earth sciences at scale, ecotech transforms technology into a tool to confront humanity's most urgent existential needs and secure a livable future.
title Ecosystem technology (ecotech): Harnessing natural processes to address global challenges.
topic Ecosystem
Climate Change
Conservation of Natural Resources
Biodiversity
Humans
Ecology
Biotechnology
url https://pubmed.ncbi.nlm.nih.gov/42090486/