aquatic mastigophores
水生鞭毛虫
parasitic mastigophores
寄生鞭毛虫
marine mastigophores
海洋鞭毛虫
colonial mastigophores
群体鞭毛虫
freshwater mastigophores
淡水鞭毛虫
intestinal mastigophores
肠道鞭毛虫
solitary mastigophores
单体鞭毛虫
blood mastigophores
血液鞭毛虫
phyto mastigophores
植物性鞭毛虫
zoo mastigophores
动物性鞭毛虫
marine biologists discovered several new species of mastigophores during their expedition to the coral reef.
海洋生物学家在珊瑚礁考察期间发现了几种新的鞭毛虫新物种。
the distribution of mastigophores in coastal waters varies significantly with seasonal temperature changes.
沿海水域中鞭毛虫的分布会随着季节性温度变化而显著变化。
tropical mastigophores play a crucial role in the base of the oceanic food web.
热带鞭毛虫在海洋食物链的底层起着至关重要的作用。
microscopic mastigophores use their flagella to navigate through the water column efficiently.
显微镜下的鞭毛虫利用它们的鞭毛高效地在水柱中导航。
researchers studied the feeding behavior of mastigophores under laboratory conditions.
研究人员在实验室条件下研究了鞭毛虫的摄食行为。
the rapid reproduction rate of mastigophores can lead to algal bloom events in nutrient-rich waters.
鞭毛虫的快速繁殖率可能导致营养丰富的水域中发生藻类繁殖事件。
planktonic mastigophores contribute significantly to the carbon cycle in marine ecosystems.
浮游鞭毛虫对海洋生态系统中的碳循环有显著贡献。
taxonomists continue to revise the classification of mastigophores based on genetic analysis.
分类学家继续基于基因分析修订鞭毛虫的分类。
the unique morphology of mastigophores allows scientists to distinguish them from other protozoans.
鞭毛虫独特的形态使科学家能够将它们与其他原生动物区分开来。
heterotrophic mastigophores obtain nutrients by consuming bacteria and organic particles.
异养鞭毛虫通过摄食细菌和有机颗粒来获取营养。
the motility patterns of mastigophores were observed using high-speed video microscopy.
通过高速视频显微镜观察了鞭毛虫的运动模式。
benthic mastigophores inhabit the sediment layer where they graze on microbial communities.
底栖鞭毛虫栖息在沉积物层中,以微生物群落为食。
the population dynamics of mastigophores are influenced by water salinity and ph levels.
鞭毛虫种群动态受水体盐度和pH值的影响。
phototactic mastigophores migrate toward light sources, which affects their vertical distribution.
趋光性鞭毛虫会向光源迁移,这影响了它们的垂直分布。
aquatic mastigophores
水生鞭毛虫
parasitic mastigophores
寄生鞭毛虫
marine mastigophores
海洋鞭毛虫
colonial mastigophores
群体鞭毛虫
freshwater mastigophores
淡水鞭毛虫
intestinal mastigophores
肠道鞭毛虫
solitary mastigophores
单体鞭毛虫
blood mastigophores
血液鞭毛虫
phyto mastigophores
植物性鞭毛虫
zoo mastigophores
动物性鞭毛虫
marine biologists discovered several new species of mastigophores during their expedition to the coral reef.
海洋生物学家在珊瑚礁考察期间发现了几种新的鞭毛虫新物种。
the distribution of mastigophores in coastal waters varies significantly with seasonal temperature changes.
沿海水域中鞭毛虫的分布会随着季节性温度变化而显著变化。
tropical mastigophores play a crucial role in the base of the oceanic food web.
热带鞭毛虫在海洋食物链的底层起着至关重要的作用。
microscopic mastigophores use their flagella to navigate through the water column efficiently.
显微镜下的鞭毛虫利用它们的鞭毛高效地在水柱中导航。
researchers studied the feeding behavior of mastigophores under laboratory conditions.
研究人员在实验室条件下研究了鞭毛虫的摄食行为。
the rapid reproduction rate of mastigophores can lead to algal bloom events in nutrient-rich waters.
鞭毛虫的快速繁殖率可能导致营养丰富的水域中发生藻类繁殖事件。
planktonic mastigophores contribute significantly to the carbon cycle in marine ecosystems.
浮游鞭毛虫对海洋生态系统中的碳循环有显著贡献。
taxonomists continue to revise the classification of mastigophores based on genetic analysis.
分类学家继续基于基因分析修订鞭毛虫的分类。
the unique morphology of mastigophores allows scientists to distinguish them from other protozoans.
鞭毛虫独特的形态使科学家能够将它们与其他原生动物区分开来。
heterotrophic mastigophores obtain nutrients by consuming bacteria and organic particles.
异养鞭毛虫通过摄食细菌和有机颗粒来获取营养。
the motility patterns of mastigophores were observed using high-speed video microscopy.
通过高速视频显微镜观察了鞭毛虫的运动模式。
benthic mastigophores inhabit the sediment layer where they graze on microbial communities.
底栖鞭毛虫栖息在沉积物层中,以微生物群落为食。
the population dynamics of mastigophores are influenced by water salinity and ph levels.
鞭毛虫种群动态受水体盐度和pH值的影响。
phototactic mastigophores migrate toward light sources, which affects their vertical distribution.
趋光性鞭毛虫会向光源迁移,这影响了它们的垂直分布。
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