摘要
研究了NaNO3对两种杜氏藻Dunaliella salina和Dunaliella parva生长速度、色素积累的影响和NaNO3的吸收规律,结果表明,NaNO3浓度为1.5mmol/L时,D.salina生长最快,最高密度76.4×104cell/mL;对照组为16.3×104cell/mL;低氮有利于D.salinaβ-胡萝卜素积累,β-胡萝卜素最大值105mg/g出现在0.5mmol/L NaNO3的样中,对照组为45mg/g;较高的NaNO3有利于叶绿素a的合成;藻液pH值开始3-5d急剧上升,后在波动中下降。对D.parva来说,NaNO3浓度为2.5mmol/L时生长最快,细胞最高密度为295×104cell/mL,对照组为15×104cell/mL;在实验范围内,NaNO3浓度越高,β-胡萝卜素含量越高,β-胡萝卜素最大值为37.5mg/g,叶绿素最大值为65mg/g;建立了两种杜氏藻对NaNO3利用的动力学方程。
The effects of NaNO3 on the growth, pigment accumulation of two Dunaliella species and assimilated patterns of NaNO3 by two Dunaliella species were investigated. The optical growth of D. salina was observed in 1.5 mmol/L NaNO3 and the highest cell density was detected to be 76.4 ×10^4 cell/mL, the control group only had the maximum cell density of 16.3×10^4 cell/mL. Low N content was favorable to the accumulation of β-carotene of D. salina. The maximum β-carotene of 105 mg/g occurred in 0.5 mmol/L NaNO3 media and the control group had the minimum β-carotene of 45 mg/g. The pH values of D. salina media rose up rapidly in the first 3-5 days, then declined zigzagly. The optical growth of D. parva occurred in media with NaNO3 2.5 mmol/L and the maximum cell density was found to be 295×10^4cell/mL and the control group had the minimum cell density of 15 ×10^4 cell/mL. The maximum β-carotene of 37. 5 mg/g of D. parva was observed in media with 2.5 mraol/L NaNO3 and the maximum Chl a content of 65 mg/g was detected in the same media. The assimilated equations of NaNO2 by two Dunaliella species were set up.
出处
《海洋湖沼通报》
CSCD
北大核心
2006年第4期113-120,共8页
Transactions of Oceanology and Limnology
基金
863计划项目(863-819-04-10)资助
关键词
杜氏藻
硝酸盐
生长
Β-胡萝卜素
利用规律
Dunaliella
nitrate salinity
growth
β-carotene
assimilated equations
