微藻诱变育种的研究进展
摘要
微藻本身结构简单、形态微小且分布广泛,种类繁多,能有效利用太阳能将H_2O、CO_2和无机盐转化为有机质,近年来也越来越受到人们的重视。但目前微藻种类较为单一,机动性较弱,对微藻进行诱变育种,以期获得新的优良性状,不失为一种简便、直接、快速的微藻育种方法。本文通过微藻诱变育种的研究,以获得高性能目的的微藻。
引文
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[8]Santori G,di Nicola G,Mogie M,et al.A review analyzing the industrial biodiesel production practice starting from vegetable oil refining[J].Applied Energy,2012,92:109~132
[9]袁莎.两种富油微藻的选育[D].广西民族大学,2017:68
[10]Greenspan P,Mayer E P,Fowler S D.Nile red:a selective fluorescent stain for intracellular lipid droplets[J].Journal of Cell Biology,1985,100(3):965~973
[2]仲松,张庆庆,孙平平.紫外诱变原生质体选育高产L-乳酸菌株的研究[J].安徽工程大学学报,2011,26(1):28~31
[3]Queiroz A G Franca L,Ponte M x.The life cycle assessment of biodiesel from palm oil(“dende”)in the Amazon[J].Biomass and Bioenergy,2012,36:50~59
[4]宁进军.用于工业烟道气二氧化碳固定的油藻育种研究[D].中南大学,2012:66
[5]Smedes F,Thomasen T K.Evaluation of the Bligh&Dyer lipid determination method[J].Marine Pollution Bulletin,1996,32(8):681~687
[6]Rios S D,Clavero E,Salvado J,et al.Dynamic Microfiltration in microalgae harvesting for biodiesel Production[J].Industrial and Engineering ChemistryResearch,2011,50(4):2455~2460
[7]Sathya Selva Bala V,Thiruvengadarayi k V,Senthil Kumar P,et al.Removal of free faty acids in Pongamia Pinhata(Karanja)oi1 using divinylbenzene-styren copolymer resins for bioxdesel production[J].Biomass and Bioenergy,2012,37:335~341
[8]Santori G,di Nicola G,Mogie M,et al.A review analyzing the industrial biodiesel production practice starting from vegetable oil refining[J].Applied Energy,2012,92:109~132
[9]袁莎.两种富油微藻的选育[D].广西民族大学,2017:68
[10]Greenspan P,Mayer E P,Fowler S D.Nile red:a selective fluorescent stain for intracellular lipid droplets[J].Journal of Cell Biology,1985,100(3):965~973