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Erschienen in:
Introduction and General Background Kapitel lesen Erstes Kapitel lesen

2022 | OriginalPaper | Buchkapitel

4. Environmental and Health Risks

verfasst von : Pratima Bajpai

Erschienen in: Fourth Generation Biofuels

Verlag: Springer Nature Singapore

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Abstract

Genetically engineered algae offer the promise of producing fuel, food, and other valuable products with reduced necessities for land and freshwater. High-throughput genetic engineering methods are becoming more and more efficient and economical and several microalgal strains have been examined for biofuel production. But genetically modified microalgae ecosystems because of their minute size, fast growth, and huge number can easily attack the ecosystems. This chapter discusses environmental and health risks of genetically engineered algae.

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Vorheriges Kapitel Residue from Biofuel Extraction
Nächstes Kapitel Regulations on Cultivation and Processing of Genetically Modified Algae
Literatur
B. Abdullah, S.A.F. Syed Muhammad, Z. Shokravi, S. Ismail, K.A. Kassim, A.N. Mahmood, M.M.A. Aziz, Fourth generation biofuel: a review on risks and mitigation strategies. Renew. Sustain. Energy Rev. 107, 37–50 (2019)CrossRef
O.M. Adeniyi, U. Azimov, A. Burluka, Algae biofuel: current status and future applications. Renew. Sustain. Energy Rev. 90, 316–335 (2018)CrossRef
J. Assuncao, A. Guedes, F.X. Malcata, Biotechnological and pharmacological applications of biotoxins and other bioactive molecules from dinoflagellates. Mar. Drugs 15, 393 (2017)CrossRef
T.A. Beacham, J.B. Sweet, M.J. Allen, Large scale cultivation of genetically modified microalgae: a new era for environmental risk assessment. Algal Res. 25, 90–100 (2017)CrossRef
A. Bhutkar, Synthetic biology: navigating the challenges ahead. J Biolaw Bus 2005(8), 19–29 (2005)
M.L. Campbell, Assessing biosecurity risk associated with the importation of nonindigenous microalgae. Environ. Res. 111, 989–998 (2011)CrossRef
W.L. Chu, Strategies to enhance production of microalgal biomass and lipids for biofuel feedstock. Eur J Phycol 52, 419–437 (2017)CrossRef
C.E. de Farias Silva, A. Bertucco, Bioethanol from microalgae and cyanobacteria: a review and technological outlook. Process Biochem 51, 1833–1842 (2016)CrossRef
C. Enzing, A. Nooijen, G. Eggink, J. Springer, R.H. Wijffels, Algae and genetic modification: research, production and risks. Research report, Technopolis Group, Amsterdam
S. Genitsaris, K.A. Kormas, M. Moustaka-Gouni, Airborne algae and cyanobacteria: occurrence and related health effects. Front. Biosci. 3, 772–787 (2011)
A. Ghosh, S. Khanra, M. Mondal, G. Halder, O.N. Tiwari, S. Saini, Progress toward isolation of strains and genetically engineered strains of microalgae for production of biofuel and other value added chemicals: a review. Energy Convers. Manag. 113, 104–118 (2016)CrossRef
N. Goldenfeld, C. Woese, Biology’s next revolution. Nature 445, 369 (2007)CrossRef
J. Gressel, C. Neal Stewart, L.V. Giddings, A.J. Fischer, J.C. Streibig, N.R. Burgos, A. Trewavas, A. Merotto, C.J. Leaver, K. Ammann, V. Moses, A. Lawton-Rauh, Overexpression of epsps transgene in weedy rice: insufficient evidence to support speculations about biosafety. New Phytol. 202, 360–362 (2014)
K. Hegde, N. Chandra, S.J. Sarma, S.K. Brar, V.D. Veeranki, Genetic engineering strategies for enhanced biodiesel production. Mol. Biotechnol. 57, 606–624 (2015)CrossRef
W.J. Henley, R.W. Litaker, L. Novoveska, C.S. Duke, H.D. Quemada, R.T. Sayre, Initial risk assessment of genetically modified (GM) microalgae for commodity-scale biofuel cultivation. Algal Res. 2, 66–77 (2013)CrossRef
S.K. Hess, B. Lepetit, P.G. Kroth, S. Mecking, Production of chemicals from microalgae lipids—status and perspectives. Eur. J. Lipid Sci. Technol. 120 (2018)
J.P. Hewett, A.K. Wolfe, R.A. Bergmann, S.C. Stelling, K.L. Davis, Human health and environmental risks posed by synthetic biology R&D for energy applications: a literature analysis. Appl. Biosaf. 21, 177–184 (2016)CrossRef
S, Jeon, J.M. Lim, H.G. Lee, S.E. Shin, N.K. Kang, Y.I. Kang, Current status and perspectives of genome editing technology for microalgae. Biotechnol. Biofuels 10 (2017)
J.M. Jeschke, F. Keesing, R.S. Ostfeld, Novel organisms: comparing invasive species, GMOs, and emerging pathogens. Ambio 42, 541–548 (2013)CrossRef
S. Katsanevakis, I. Wallentinus, A. Zenetos, E. Leppakoski, M.E. Cinar, B. Ozturk, Impacts of invasive alien marine species on ecosystem services and biodiversity: a pan-European review. Aquat. Invasions 9, 391–423 (2014)CrossRef
T. Kuiken, G. Dana, K. Oye, D. Rejeski, Shaping ecological risk research for synthetic biology. J. Environ. Stud. Sci. 4, 191–199 (2014)CrossRef
S. Lu, L. Li, G. Zhou, Genetic modification of wood quality for second-generation biofuel production. GM Crops 1, 230–236 (2010)CrossRef
Y. Maeda, T. Yoshino, T. Matsunaga, M. Matsumoto, T. Tanaka, Marine microalgae for production of biofuels and chemicals. Curr. Opin. Biotechnol. 50, 111–120 (2018)CrossRef
G.N. Mandel, Gaps, inexperience, inconsistencies, and overlaps: crisis in the regulation of genetically modified plants and animals. William Mary Law Rev. 45, 2167 (2003)
S. Mazard, A. Penesyan, M. Ostrowski, I.T. Paulsen, S. Egan, Tiny microbes with a big impact: the role of cyanobacteria and their metabolites in shaping our future. Mar. Drugs 14 (2016)
M.Y. Menetrez, An overview of algae biofuel production and potential environmental impact. Environ. Sci. Technol. 46, 7073–7085 (2012)CrossRef
N. Misra, P.K. Panda, B.K. Parida, B.K. Mishra, Way forward to achieve sustainable and cost-effective biofuel production from microalgae: a review. Int. J. Environ. Sci. Technol. 13, 2735–2756 (2016)CrossRef
R. Radakovits, R.E. Jinkerson, A. Darzins, M.C. Posewitz, Genetic engineering of algae for enhanced biofuel production. Eukaryot. Cell 9, 486–501 (2010)CrossRef
A. Raybould, The bucket and the searchlight: formulating and testing risk hypotheses about the weediness and invasiveness potential of transgenic crops. Environ. Biosaf. Res. 9, 123–133 (2010)CrossRef
J.N. Rosenberg, G.A. Oyler, L. Wilkinson, M.J. Betenbaugh, A green light for engineered algae: redirecting metabolism to fuel a biotechnology revolution. Curr. Opin. Biotechnol. 19, 430–436 (2008)CrossRef
M. Serif, B. Lepetit, K. Weisert, P.G. Kroth, C. Rio Bartulos, A fast and reliable strategy to generate TALEN-mediated gene knockouts in the diatom Phaeodactylum tricornutum. Algal Res 23, 186–195 (2017)CrossRef
N.K. Sharma, S.P. Tiwari, K. Tripathi, A.K. Rai, Sustainability and cyanobacteria (bluegreen algae): facts and challenges. J. Appl. Phycol. 23, 1059–1081 (2011)CrossRef
Y.S. Shin, J. Jeong, T.H.T. Nguyen, J.Y.H. Kim, E. Jin, S.J. Sim, Targeted knockout of phospholipase A2 to increase lipid productivity in Chlamydomonas reinhardtii for biodiesel production. Bioresour. Technol. 271, 368–374 (2019)CrossRef
I. Sizova, A. Greiner, M. Awasthi, S. Kateriya, P. Hegemann, Nuclear gene targeting in Chlamydomonas using engineered zinc-finger nucleases. Plant J. 73, 873–882 (2013)CrossRef
A.A. Snow, V.H. Smith, Genetically engineered algae for biofuels: a key role for ecologists. Bioscience 62, 765–768 (2012)CrossRef
D. Stukenberg, S. Zauner, G. Dell’Aquila, U.G. Maier,. Optimizing CRISPR/cas9 for the diatom Phaeodactylum tricornutum. Front Plant. Sci. 9 (2018).
S.J. Szyjka, S. Mandal, N.G. Schoepp, B.M. Tyler, C.B. Yohn, Y.S. Poon, S. Villareal, M.D. Burkart, J.B. Shurin, S.P. Mayfield, Evaluation of phenotype stability and ecological risk of a genetically engineered alga in open pond production. Algal Res. 24, 378–386 (2017)CrossRef
K. Takahashi, Y. Ide, J. Hayakawa, Y. Yoshimitsu, I. Fukuhara, J. Abef et al., Lipid productivity in TALEN-induced starchless mutants of the unicellular green alga Coccomyxa sp. strain Obi. Algal Res. 32, 300–307 (2018).
J.B. Tucker, R.A. Zilinskas, The promise and perils of synthetic biology. New Atlantis 25–45 (2006)
P.K. Usher, A.B. Ross, M.A. Camargo-Valero, A.S. Tomlin, W.F. Gale, An overview of the potential environmental impacts of large-scale microalgae cultivation. Biofuels 5, 331–349 (2014)CrossRef
E.D. Van Asselt, M.P.M. Meuwissen, M. Van Asseldonk, P. Sterrenburg, M.J.B. Mengelers, H.J. Van der Fels-Klerx, Approach for a pro-active emerging risk system on biofuel by-products in feed. Food Policy 2011(36), 421–429 (2011)CrossRef
Q. Wang, Y. Lu, Y. Xin, L. Wei, S. Huang, J. Xu, Genome editing of model oleaginous microalgae Nannochloropsis spp. by CRISPR/Cas9. Plant J. 88, 1071–1081 (2016)
R.H. Wijffels, O. Kruse, K.J. Hellingwerf, Potential of industrial biotechnology with cyanobacteria and eukaryotic microalgae. Curr. Opin. Biotechnol. 24, 405–413 (2013)CrossRef
O. Wright, G.-B. Stan, T. Ellis, Building-in biosafety for synthetic biology. Microbiology 159, 1221–1235 (2013)CrossRef
A.K. Zeraatkar, H. Ahmadzadeh, A.F. Talebi, N.R. Moheimani, M.P. McHenry, Potential use of algae for heavy metal bioremediation, a critical review. J. Environ. Manag. 181, 817–831 (2016)CrossRef
Metadaten
Titel
Environmental and Health Risks
verfasst von
Pratima Bajpai
Copyright-Jahr
2022
Verlag
Springer Nature Singapore
Buch
Fourth Generation Biofuels

Print ISBN: 978-981-19-2000-4

Electronic ISBN: 978-981-19-2001-1

Copyright-Jahr: 2022

DOI
https://doi.org/10.1007/978-981-19-2001-1_4