The project for the Cornell Marine Algae Biofuels Consortium officially ended on September 30, 2015, but there were many manuscripts at all stages of the publication process. As a result, there has been more publications added to the list below, and there are likely still more to follow.
2018
Altered Microbiome Leads to Significant Phenotypic and Transcriptomic Differences in a Lipid Accumulating Chlorophyte
Altered Microbiome Leads to Significant Phenotypic and Transcriptomic Differences in a Lipid Accumulating Chlorophyte. (2018) Environmental Science & Technology. [Richter LV, Mansfeldt CB, Kuan MM, Cesare AE, Menefee ST, Richardson RE, Ahner BA] https://doi.org/10.1021/acs.est.7b06581
2017
Geoengineering, marine microalgae, and climate stabilization in the 21st century
Geoengineering, marine microalgae, and climate stabilization in the 21st century. (2017) Earth's Future, 5: 278–284. [Greene, CH, ME Huntley, I Archibald, LN Gerber, DL Sills, J Granados, CM Beal, and MJ Walsh] https://doi.org/10.1002/2016EF000486
Screening for Lipids From Marine Microalgae Using Nile Red
Screening for Lipids From Marine Microalgae Using Nile Red. (2017) Consequences of Microbial Interactions with Hydrocarbons, Oils, and Lipids: Production of Fuels and Chemicals, pp 1-22. [Johnson, ZI, RR Bidigare, SK Blinebry, SL Brown, JJ Cullen, SE Loftus, DG Redalje, C Swink, BAS Van Mooy] https://doi.org/10.1007/978-3-319-31421-1_382-1
2016
Marine Microalgae: Climate, Energy, and Food Security from the Sea
Marine Microalgae: Climate, Energy, and Food Security from the Sea. (2016) Oceanography 29(4):10-15. [Greene, CH, ME Huntley, I Archibald, LN Gerber, DL Sills, J Granados, JW Tester, CM Beal, MJ Walsh, RR Bidigare, SL Brown, WP Cochlan, ZI Johnson, XG Lei, SC Machesky, DG Redalje, RE Richardson, V Kiron, V Corless] https://doi.org/10.5670/oceanog.2016.91
Algal Food and Fuel Coproduction Can Mitigate Greenhouse Gas Emissions While Improving Land and Water-Use Efficiency
Algal food and fuel coproduction can mitigate greenhouse gas emissions while improving land and water-use efficiency. (2016) Environ. Res. Lett. 11 114006. [Walsh, MJ, LN Gerber Van Doren, DL Sills, I Archibald, CM Beal, XG Lei, ME Huntley, ZI Johnson, CH Greene] https://doi.org/10.1088/1748-9326/11/11/114006
Defatted Biomass of the Microalga, Desmodesmus sp., Can Replace Fishmeal in the Feeds for Atlantic salmon
Defatted Biomass of the Microalga, Desmodesmus sp., Can Replace Fishmeal in the Feeds for Atlantic salmon. (2016) Frontiers in Marine Science, Vol. 3, pp 67. [Kiron, V, M Sørensen, M Huntley, GK Vasanth, Y Gong, D Dahle, and AM Palihawadana] https://doi.org/10.3389/fmars.2016.00067
Target Cultivation and Financing Parameters for Sustainable Production of Fuel and Feed from Microalgae
Target Cultivation and Financing Parameters for Sustainable Production of Fuel and Feed from Microalgae. (2016) Environ. Sci. Technol., 50 (7), pp 3333–3341. [Gerber, LN, JW Tester, CM Beal, ME Huntley, and DL Sills] https://doi.org/10.1021/acs.est.5b05381
2015
Creating ω-3 Fatty-Acid-Enriched Chicken Using Defatted Green Microalgal Biomass
Creating ω-3 Fatty-Acid-Enriched Chicken Using Defatted Green Microalgal Biomass. (2015) J. Agric. Food Chem., 63 (42), pp 9315-9322. [Gatrell, SK, J Kim, TJ Derksen, EV O'Neil, and XG Lei] https://doi.org/10.1021/acs.jafc.5b03137
Algal biofuel production for fuels and feed in a 100-ha facility: A comprehensive techno-economic analysis and life cycle assessment
Algal biofuel production for fuels and feed in a 100-ha facility: A comprehensive techno-economic analysis and life cycle assessment. Algal Research, 111 pp. DOI:10.1016/j.algal.2015.04.017 (2015) [Beal, CM, L Gerber, DL Sills, ME Huntley, S Machesky, MJ Walsh, JW Tester, I Archibald, J Granados and CH Greene]
Demonstrated Large-Scale Production of Marine Microalgae for Fuels and Feed
Demonstrated Large-Scale Production of Marine Microalgae for Fuels and Feed. Algal Research, 58 pp DOI:10.1016/j.algal.2015.04.016 (2015) [Huntley, M, ZI Johnson, SL Brown, DL Sills, L Gerber, I Archibald, SC Machesky, J Granados, CM Beal and CH Greene]
Techniques for Quantifying Phytoplankton Biodiversity
Techniques for Quantifying Phytoplankton Biodiversity. Annual Review of Marine Science 7. DOI: 10.1146/annurev-marine-010814-015902 (2015) [Johnson, ZI and AC Martiny]
2014
Effect of dietary defatted diatom biomass on egg production and quality of laying hens
Effect of dietary defatted diatom biomass on egg production and quality of laying hens. (2014) J. Anim. Sci. Biotechnol. 5:3. [Leng, X, K Hsu, RE Austic, and XG Lei]
Potential of defatted microalgae from the biofuel industry as an ingredient to replace corn and soybean meal in swine and poultry diets
Potential of defatted microalgae from the biofuel industry as an ingredient to replace corn and soybean meal in swine and poultry diets. (2014) J. Anim. Sci. 92:1306-14. [Gatrell, S, KK Lum, JG Kim, and XG Lei]
2013
Potential and limitation of a new defatted diatom microalgal biomass in replacing soybean meal and corn in diets for broiler chickens
Potential and limitation of a new defatted diatom microalgal biomass in replacing soybean meal and corn in diets for broiler chickens. (2013) Journal of Agriculture and Food Chemistry. 61:7341-8. [Austic, RE, A Mustafa, BY Jung, S Gatrell, and XG Lei]
Smartphones: Powerful Tools for Geoscience Education
Smartphones: Powerful Tools for Geoscience Education. (2013) EOS, Transactions American Geophysical Union 94: 433-434. [Johnson ZI and DW Johnston]
Can microalgae make pork “greener”?
Can microalgae make pork “greener”? (2013) Suis No 102, pages 14-19. [Gatrell, S, J Kim, and XG Lei]
Dual potential of microalgae as a sustainable biofuel feedstock and animal feed
Dual potential of microalgae as a sustainable biofuel feedstock and animal feed. (2013) J. Anim. Sci. Biotechnol. 4:53. [Lum, KK, J Kim, and XG Lei]
Quantitative uncertainty analysis of life cycle assessment for Algal biofuel production
Quantitative uncertainty analysis of life cycle assessment for Algal biofuel production. (2013) Environmental Science & Technology, 47, 687–694 [DL Sills, V Paramita, MJ Franke, MC Johnson, TM Akabas, CH Greene, JW Tester]
Carbon allocation under light and nitrogen resource gradients in two model marine phytoplankton
Carbon allocation under light and nitrogen resource gradients in two model marine phytoplankton. (2013) Journal of Phycology DOI 10.1111/jpy.12060 [Bittar, TB, Y Lin, LR Sassano, BJ Wheeler, SL Brown, WP Cochlan and ZI Johnson]
2012
Marine microalgae from biorefinery as a potential feed protein source for Atlantic salmon, common carp and whiteleg shrimp
Marine microalgae from biorefinery as a potential feed protein source for Atlantic salmon, common carp and whiteleg shrimp. (2012) Aquaculture Nutrition, 18(5): 521-531. [V. Kiron, W. Phromkunthong, ME Huntley, I. Archibald and G. DeScheemaker]
Air-water fluxes of N2O and CH4 during microalgae cultivation (Staurosira sp.) in an open raceway pond
Air-water fluxes of N2O and CH4 during microalgae cultivation (Staurosira sp.) in an open raceway pond. (2012) Environmental Science & Technology, 46(19): 10842-10848 [Ferrón S, D Ho, ZI Johnson, M Huntley]
2011
A suite of microplate reader-based colorimetric methods to quantify ammonium, nitrate, orthophosphate and silicate concentrations for aquatic nutrient monitoring
A suite of microplate reader-based colorimetric methods to quantify ammonium, nitrate, orthophosphate and silicate concentrations for aquatic nutrient monitoring. (2011) Journal of Environmental Monitoring 13: 370-6
[Ringuet, S, L Sassano and ZI Johnson]
2010
Geoengineering: The inescapable truth of getting to 350
Geoengineering: The inescapable truth of getting to 350. (2010) Solutions 1(5): 57-66 [Greene, CH, BC Monger and ME Huntley]