Assessing the potential of polyculture to accelerate algal biofuel production

Deborah T. Newby; Teresa J. Mathews; Ron C. Pate; Michael H. Huesemann; Todd W. Lane; Bradley D. Wahlen; Shovon Mandal; Robert K. Engler; Kevin P. Feris; Jon B. Shurin

doi:10.1016/j.algal.2016.09.004

Assessing the potential of polyculture to accelerate algal biofuel production

Deborah T. Newby
, Teresa J. Mathews
, Ron C. Pate
, Michael H. Huesemann
, Todd W. Lane
, Bradley D. Wahlen
, Shovon Mandal
, Robert K. Engler
, Kevin P. Feris
, Jon B. Shurin

Biodiversity and Ecosystem Health

Research output: Contribution to journal › Review article › peer-review

65 Scopus citations

Abstract

To date, the algal biofuel industry has focused on the cultivation of monocultures of highly productive algal strains, but scaling up production remains challenging. Algal monocultures are difficult to maintain because they are easily contaminated by wild algal strains, grazers, and pathogens. In contrast, theory suggests that polycultures (multispecies assemblages) can promote both ecosystem stability and productivity. A greater understanding of species interactions and how communities change with time needs to be developed. Ultimately a predictive model of community interactions is needed to harness the capacity of biodiversity to enhance productivity of algal polycultures at industrial scales. Here we review the agricultural and ecological literature to explore opportunities for increased annual biomass production through the use of algal polycultures. We discuss case studies where algal polycultures have been successfully maintained for industries other than the biofuel industry, as well as the few studies that have compared biomass production of algal polycultures to that of monocultures. Assemblages that include species with complementary traits are of particular promise. These assemblages have the potential to increase crop productivity and stability presumably by utilizing natural resources (e.g. light, nutrients, and water) more efficiently via tighter niche packing. Therefore, algal polycultures show promise for enhancing biomass productivity, enabling sustainable production and reducing overall production costs.

Original language	English
Pages (from-to)	264-277
Number of pages	14
Journal	Algal Research
Volume	19
DOIs	https://doi.org/10.1016/j.algal.2016.09.004
State	Published - Nov 1 2016

Funding

This authors gratefully acknowledge partial funding support from the DOE/EERE Bioenergy Technologies Office . Furthermore, each Department of Energy National Laboratory acknowledge their respective contractor and contract number. Idaho National Laboratory is managed by Battelle Energy Alliance, LLC (DE-AC07-05ID14517). The Oak Ridge National Laboratory is managed by UT-Battelle (DE-AC05-00OR22725). Sandia National Laboratories, is operated by Sandia Corporation, a Lockheed Martin Company (DE-AC04-94AL85000). The Pacific Northwest National Laboratory is operated by Battelle Memorial Institute (DE-AC05-76RLO 1830). The United States Government retains and the publisher, by accepting the article for publication, acknowledges that the United States Government retains a non-exclusive, paid-up, irrevocable, world-wide license to publish or reproduce the published form of this manuscript, or allow others to do so, for United States Government purposes. The Department of Energy will provide public access to these results of federally sponsored research in accordance with the DOE Public Access Plan ( http://energy.gov/downloads/doe-public-access-plan ).

Keywords

Algal biofuel
Algal polyculture
Culture resilience
Overyielding

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10.1016/j.algal.2016.09.004

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title = "Assessing the potential of polyculture to accelerate algal biofuel production",

abstract = "To date, the algal biofuel industry has focused on the cultivation of monocultures of highly productive algal strains, but scaling up production remains challenging. Algal monocultures are difficult to maintain because they are easily contaminated by wild algal strains, grazers, and pathogens. In contrast, theory suggests that polycultures (multispecies assemblages) can promote both ecosystem stability and productivity. A greater understanding of species interactions and how communities change with time needs to be developed. Ultimately a predictive model of community interactions is needed to harness the capacity of biodiversity to enhance productivity of algal polycultures at industrial scales. Here we review the agricultural and ecological literature to explore opportunities for increased annual biomass production through the use of algal polycultures. We discuss case studies where algal polycultures have been successfully maintained for industries other than the biofuel industry, as well as the few studies that have compared biomass production of algal polycultures to that of monocultures. Assemblages that include species with complementary traits are of particular promise. These assemblages have the potential to increase crop productivity and stability presumably by utilizing natural resources (e.g. light, nutrients, and water) more efficiently via tighter niche packing. Therefore, algal polycultures show promise for enhancing biomass productivity, enabling sustainable production and reducing overall production costs.",

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AB - To date, the algal biofuel industry has focused on the cultivation of monocultures of highly productive algal strains, but scaling up production remains challenging. Algal monocultures are difficult to maintain because they are easily contaminated by wild algal strains, grazers, and pathogens. In contrast, theory suggests that polycultures (multispecies assemblages) can promote both ecosystem stability and productivity. A greater understanding of species interactions and how communities change with time needs to be developed. Ultimately a predictive model of community interactions is needed to harness the capacity of biodiversity to enhance productivity of algal polycultures at industrial scales. Here we review the agricultural and ecological literature to explore opportunities for increased annual biomass production through the use of algal polycultures. We discuss case studies where algal polycultures have been successfully maintained for industries other than the biofuel industry, as well as the few studies that have compared biomass production of algal polycultures to that of monocultures. Assemblages that include species with complementary traits are of particular promise. These assemblages have the potential to increase crop productivity and stability presumably by utilizing natural resources (e.g. light, nutrients, and water) more efficiently via tighter niche packing. Therefore, algal polycultures show promise for enhancing biomass productivity, enabling sustainable production and reducing overall production costs.

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Assessing the potential of polyculture to accelerate algal biofuel production

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Keywords

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