Picochlorum celeri as a model system for robust outdoor algal growth in seawater

Picochlorum celeri as a model system for robust outdoor algal growth in seawater

Abstract With fast growth rates, broad halotolerance and the ability to thrive at high temperatures, algae in the genus Picochlorum are emerging as promising biomass producers. Recently, we isolated a remarkably productive strain, Picochlorum celeri, that attains > 40 g m−2 day−1 productivities u...

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Main Authors: Anagha Krishnan, Maria Likhogrud, Melissa Cano, Scott Edmundson, Jenna B. Melanson, Michael Huesemann, John McGowen, Joseph C. Weissman, Matthew C. Posewitz
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-91106-5
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spelling doaj-29dfffa23cca41a6a95a3a20b0b6a63b2021-06-06T11:38:32ZengNature Publishing GroupScientific Reports2045-23222021-06-0111111310.1038/s41598-021-91106-5Picochlorum celeri as a model system for robust outdoor algal growth in seawaterAnagha Krishnan0Maria Likhogrud1Melissa Cano2Scott Edmundson3Jenna B. Melanson4Michael Huesemann5John McGowen6Joseph C. Weissman7Matthew C. Posewitz8Department of Chemistry, Colorado School of MinesCorporate Strategic Research, ExxonMobilDepartment of Chemistry, Colorado School of MinesMarine and Coastal Research Laboratory, Pacific Northwest National LaboratoryDepartment of Chemistry, Colorado School of MinesMarine and Coastal Research Laboratory, Pacific Northwest National LaboratoryArizona Center for Algae Technology and Innovation, Arizona State UniversityCorporate Strategic Research, ExxonMobilDepartment of Chemistry, Colorado School of MinesAbstract With fast growth rates, broad halotolerance and the ability to thrive at high temperatures, algae in the genus Picochlorum are emerging as promising biomass producers. Recently, we isolated a remarkably productive strain, Picochlorum celeri, that attains > 40 g m−2 day−1 productivities using simulated outdoor light. To test outdoor productivities, Picochlorum celeri was cultivated in 820 L raceway ponds at the Arizona Center for Algae Technology and Innovation. Picochlorum celeri demonstrated the highest outdoor biomass productivities reported to date at this testbed averaging ~ 31 g m−2 day−1 over four months with a monthly (August) high of ~ 36 g m−2 day−1. Several single day productivities were > 40 g m−2 day−1. Importantly for sustainability, Picochlorum celeri achieved these productivities in saline water ranging from seawater to 50 parts per thousand sea salts, without any biocides or pond crashes, for over 143 days. Lastly, we report robust genetic engineering tools for future strain improvements.https://doi.org/10.1038/s41598-021-91106-5
collection DOAJ
language English
format Article
sources DOAJ
author Anagha Krishnan
Maria Likhogrud
Melissa Cano
Scott Edmundson
Jenna B. Melanson
Michael Huesemann
John McGowen
Joseph C. Weissman
Matthew C. Posewitz
spellingShingle Anagha Krishnan
Maria Likhogrud
Melissa Cano
Scott Edmundson
Jenna B. Melanson
Michael Huesemann
John McGowen
Joseph C. Weissman
Matthew C. Posewitz
Picochlorum celeri as a model system for robust outdoor algal growth in seawater
Scientific Reports
author_facet Anagha Krishnan
Maria Likhogrud
Melissa Cano
Scott Edmundson
Jenna B. Melanson
Michael Huesemann
John McGowen
Joseph C. Weissman
Matthew C. Posewitz
author_sort Anagha Krishnan
title Picochlorum celeri as a model system for robust outdoor algal growth in seawater
title_short Picochlorum celeri as a model system for robust outdoor algal growth in seawater
title_full Picochlorum celeri as a model system for robust outdoor algal growth in seawater
title_fullStr Picochlorum celeri as a model system for robust outdoor algal growth in seawater
title_full_unstemmed Picochlorum celeri as a model system for robust outdoor algal growth in seawater
title_sort picochlorum celeri as a model system for robust outdoor algal growth in seawater
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract With fast growth rates, broad halotolerance and the ability to thrive at high temperatures, algae in the genus Picochlorum are emerging as promising biomass producers. Recently, we isolated a remarkably productive strain, Picochlorum celeri, that attains > 40 g m−2 day−1 productivities using simulated outdoor light. To test outdoor productivities, Picochlorum celeri was cultivated in 820 L raceway ponds at the Arizona Center for Algae Technology and Innovation. Picochlorum celeri demonstrated the highest outdoor biomass productivities reported to date at this testbed averaging ~ 31 g m−2 day−1 over four months with a monthly (August) high of ~ 36 g m−2 day−1. Several single day productivities were > 40 g m−2 day−1. Importantly for sustainability, Picochlorum celeri achieved these productivities in saline water ranging from seawater to 50 parts per thousand sea salts, without any biocides or pond crashes, for over 143 days. Lastly, we report robust genetic engineering tools for future strain improvements.
url https://doi.org/10.1038/s41598-021-91106-5
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