ChistiY. Microalgae as sustainable cell factories. Environ Engineer Manage J, 2006; 5(3):261–274.
2.
TrentacosteEM, MartinezAM, ZenkT. The place of algae in agriculture: Policies for algal biomass production. Photosyn Res, 2014;doi:10.1007/s11120-014-9985-8.
3.
WilliamsPJ, leB, LaurensLML. Microalgae as biodiesel & biomass feedstocks: Review & analysis of the biochemistry, energetics & economics. Energy Environ Sci, 2010; 3:554–590.
4.
HochmanG, ZilbermanD. Algae farming and its bio-products. In: McCannMC, BuckeridgeMS, CarpitaMC, eds. Plants and BioEnergy. New York, NY, Springer, 2014:49–64.
5.
PienkosPT, DarzinsA. The promise and challenges of microalgal-derived biofuels. Biofuels Bioprod Bioref, 2009; 3:431–440.
6.
National Research Council of the National Academies. Committee on the Sustainable Development of Algal Biofuels. Sustainable Development of Algal Biofuels in the United States. Washington, DC: National Academy Press, 2012.
7.
BazilianM, DavisR, PienkosPT, ArentD. The energy-water-food nexus through the lens of algal systems. Ind Biotechnol, 2013; 9(4):158–162.
8.
ZhangYHP. Next generation biorefineries will solve the food, biofuels, and environmental trilemma in the energy–food–water nexus. Energy Sci Engineer, 2013; 1(1):27–41.
9.
MiaraA, PienkosP, BazilianM, et al. A strategic planning framework for algal systems: An energy-water-food nexus perspective. Ind Biotechnol, 2014; 10(3):202–211.
10.
LeuS, BoussibaS. Advances in the production of high-value products by microalgae. Ind Biotechnol, 2014; 10(3):169–183.
11.
SchurrR, KuehnleA. Crop improvement: Tools for quality control and molecular breeding. Ind Biotechnol, 2014; 10(3):237–243.
12.
GrayburnWS, TataraRA, RosentraterKA, HolbrookGP. Harvesting oil extraction, and conversion of local filamentous algae growing in wastewater into biodiesel. Int J Energ Environ, 2013; 4(2):185–190.
13.
RajkumarR, YaakobZ, TakriffMS. Potential of the micro and macro algae for biofuel production: A brief review. BioResources, 2014; 9(1):1606–1633.
14.
AdeyWH. 8June1982. Algal turf scrubber. US Patent 4,333,263.
15.
SandefurHN, MatlockMD, CostelloTA. Seasonal productivity of a periphytic algal community for biofuel feedstock generation and nutrient treatment. Ecol Engineer, 2011; 37:1476–1480.
16.
YunJ-H, SmithV, deNoyellesF, et al. Freshwater macroalgae as a biofuels feedstock: Minireview and assessment of their bioenergy potential. Ind Biotechnol, 2014; 10(3):212–220.
17.
McBrideRC, MerrickDS. Innovations in open pond algae agriculture for biofuel production. Ind Biotechnol, 2014; 10(3):162–163.
18.
McBrideRC, LopezS, MeenachC, et al. Contamination management in low cost open algae ponds for biofuel production. Ind Biotechnol, 2014; 10(3):221–227.
19.
BrownL. Rapid, automated characterization of algae using dynamic imaging particle analysis. Ind Biotechnol, 2014; 10(3):164–168.
20.
SmithVS, SturmBSM, deNoyellesFJ, BillingsSA. The ecology of algal biodiesel production. Trends Ecol Evol, 2010; 25(5):301–309.
21.
KazamiaE, AldridgeDC, SmithAG. Synthetic ecology–A way forward for sustainable algal biofuel production?. J Biotechnol, 2012; 162(1):163–169.
22.
ShurinJB, AbbottRL, DealMS, et al. Industrial-strength ecology: Trade-offs and opportunities in algal biofuel production. Ecol Lett, 2013; 16(11):1393–1404.
23.
DeguineJP, FerronP, RussellD. Crop Protection: From Agrochemistry to Agroecology. Enfield, NH: Science Publishers Inc., 2009.
24.
KazamiaE, RiseleyA, HoweC, SmithA. An engineered community approach for industrial cultivation of microalgae. Ind Biotechnol, 2014; 10(3):184–190.
25.
NalleyJ, StockenreiterM, LitchmanE. Community ecology of algal biofuels: Complementarity and trait-based approaches. Ind Biotechnol, 2014; 10(3):191–201.
26.
NovoveskáL, HenleyWJ. Lab-scale testing of a two-stage continuous culture system for microalgae. Ind Biotechnol, 2014; 10(3):228–236.
27.
StephensE, RossIL, HankamerB. Expanding the microalgal industry–continuing controversy or compelling case?. Curr Opinion Chem Biol, 2013; 17(3):444–452.
28.
JonesCS, MayfieldSP. Algae biofuels: Versatility for the future of bioenergy. Curr Opinion Biotechnol, 2012; 23(3):346–351.
