the euglenoidian flagellate moves using its whip-like flagellum.
鞭毛藻以鞭毛方式移动。
euglenoidian organisms exhibit both plant-like and animal-like characteristics.
藻类生物表现出植物和动物的双重特征。
scientists study euglenoidian morphology to understand cellular evolution.
科学家研究藻类形态以了解细胞进化。
the euglenoidian species can perform photosynthesis in light.
该藻类物种在光照下可以进行光合作用。
euglenoidian cells contain chloroplasts for energy production.
藻类细胞含有叶绿体用于能量产生。
researchers classify euglenoidian taxonomy based on flagella structure.
研究人员根据鞭毛结构对藻类进行分类。
the euglenoidian movement is characterized by its gliding motion.
藻类的运动特征是滑行。
euglenoidian photosynthesis occurs in the presence of sunlight.
藻类光合作用在阳光下进行。
the euglenoidian flagellate thrives in freshwater environments.
这种鞭毛藻在淡水环境中茁壮成长。
euglenoidian characteristics include a flexible pellicle.
藻类的特征包括灵活的外膜。
the euglenoidian organism can switch between autotrophic and heterotrophic nutrition.
该藻类生物可以在自养和异养营养之间切换。
euglenoidian research provides insights into early eukaryotic evolution.
藻类研究为了解早期真核生物进化提供了见解。
the euglenoidian flagellate moves using its whip-like flagellum.
鞭毛藻以鞭毛方式移动。
euglenoidian organisms exhibit both plant-like and animal-like characteristics.
藻类生物表现出植物和动物的双重特征。
scientists study euglenoidian morphology to understand cellular evolution.
科学家研究藻类形态以了解细胞进化。
the euglenoidian species can perform photosynthesis in light.
该藻类物种在光照下可以进行光合作用。
euglenoidian cells contain chloroplasts for energy production.
藻类细胞含有叶绿体用于能量产生。
researchers classify euglenoidian taxonomy based on flagella structure.
研究人员根据鞭毛结构对藻类进行分类。
the euglenoidian movement is characterized by its gliding motion.
藻类的运动特征是滑行。
euglenoidian photosynthesis occurs in the presence of sunlight.
藻类光合作用在阳光下进行。
the euglenoidian flagellate thrives in freshwater environments.
这种鞭毛藻在淡水环境中茁壮成长。
euglenoidian characteristics include a flexible pellicle.
藻类的特征包括灵活的外膜。
the euglenoidian organism can switch between autotrophic and heterotrophic nutrition.
该藻类生物可以在自养和异养营养之间切换。
euglenoidian research provides insights into early eukaryotic evolution.
藻类研究为了解早期真核生物进化提供了见解。
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