studying xanthophyceae
研究金藻类
xanthophyceae species
金藻类物种
xanthophyceae classification
金藻类分类
xanthophyceae research
金藻类研究
observing xanthophyceae
观察金藻类
xanthophyceae samples
金藻类样本
analyzing xanthophyceae
分析金藻类
xanthophyceae under microscope
显微镜下的金藻类
xanthophyceae characteristics
金藻类特征
xanthophyceae identification
金藻类鉴定
xanthophyceae, commonly known as yellow-green algae, serve as important primary producers in freshwater ecosystems.
黄绿藻作为淡水生态系统中重要的初级生产者发挥着关键作用。
marine biologists have discovered extensive populations of xanthophyceae thriving in coastal waters around the world.
海洋生物学家在全球沿海水域发现了大量繁盛的黄绿藻种群。
the distinctive pigment composition of xanthophyceae allows them to photosynthesize efficiently in various light conditions.
黄绿藻独特的色素组成使其能够在不同光照条件下进行高效光合作用。
researchers study xanthophyceae cell wall composition to understand their evolutionary adaptations to aquatic environments.
研究人员通过研究黄绿藻的细胞壁组成来了解其对水生环境的进化适应。
xanthophyceae contribute significantly to nutrient cycling in both marine and freshwater habitats.
黄绿藻对海洋和淡水栖息地的营养循环具有重要贡献。
environmental factors such as salinity changes can dramatically affect xanthophyceae growth patterns in coastal ecosystems.
盐度变化等环境因素能够显著影响沿海生态系统中黄绿藻的生长模式。
the taxonomic classification of xanthophyceae continues to evolve as molecular studies reveal new phylogenetic relationships.
随着分子研究揭示新的系统发育关系,黄绿藻的分类学分类仍在不断发展。
plankton communities often include various species of xanthophyceae that form the base of aquatic food chains.
浮游生物群落通常包括各种黄绿藻物种,它们构成水生食物链的基础。
climate change may alter the distribution and abundance of xanthophyceae in marine environments worldwide.
气候变化可能会改变全球海洋环境中黄绿藻的分布和丰度。
laboratory cultivation of xanthophyceae requires careful control of light, temperature, and nutrient levels.
黄绿藻的实验室培养需要仔细控制光照、温度和营养水平。
xanthophyceae blooms can indicate nutrient enrichment in aquatic ecosystems and may signal environmental imbalance.
黄绿藻水华可以指示水体富营养化,并可能预示环境失衡。
scientists are investigating potential biotechnological applications of xanthophyceae due to their unique metabolic products.
由于黄绿藻独特的代谢产物,科学家正在研究其潜在的生物技术应用。
studying xanthophyceae
研究金藻类
xanthophyceae species
金藻类物种
xanthophyceae classification
金藻类分类
xanthophyceae research
金藻类研究
observing xanthophyceae
观察金藻类
xanthophyceae samples
金藻类样本
analyzing xanthophyceae
分析金藻类
xanthophyceae under microscope
显微镜下的金藻类
xanthophyceae characteristics
金藻类特征
xanthophyceae identification
金藻类鉴定
xanthophyceae, commonly known as yellow-green algae, serve as important primary producers in freshwater ecosystems.
黄绿藻作为淡水生态系统中重要的初级生产者发挥着关键作用。
marine biologists have discovered extensive populations of xanthophyceae thriving in coastal waters around the world.
海洋生物学家在全球沿海水域发现了大量繁盛的黄绿藻种群。
the distinctive pigment composition of xanthophyceae allows them to photosynthesize efficiently in various light conditions.
黄绿藻独特的色素组成使其能够在不同光照条件下进行高效光合作用。
researchers study xanthophyceae cell wall composition to understand their evolutionary adaptations to aquatic environments.
研究人员通过研究黄绿藻的细胞壁组成来了解其对水生环境的进化适应。
xanthophyceae contribute significantly to nutrient cycling in both marine and freshwater habitats.
黄绿藻对海洋和淡水栖息地的营养循环具有重要贡献。
environmental factors such as salinity changes can dramatically affect xanthophyceae growth patterns in coastal ecosystems.
盐度变化等环境因素能够显著影响沿海生态系统中黄绿藻的生长模式。
the taxonomic classification of xanthophyceae continues to evolve as molecular studies reveal new phylogenetic relationships.
随着分子研究揭示新的系统发育关系,黄绿藻的分类学分类仍在不断发展。
plankton communities often include various species of xanthophyceae that form the base of aquatic food chains.
浮游生物群落通常包括各种黄绿藻物种,它们构成水生食物链的基础。
climate change may alter the distribution and abundance of xanthophyceae in marine environments worldwide.
气候变化可能会改变全球海洋环境中黄绿藻的分布和丰度。
laboratory cultivation of xanthophyceae requires careful control of light, temperature, and nutrient levels.
黄绿藻的实验室培养需要仔细控制光照、温度和营养水平。
xanthophyceae blooms can indicate nutrient enrichment in aquatic ecosystems and may signal environmental imbalance.
黄绿藻水华可以指示水体富营养化,并可能预示环境失衡。
scientists are investigating potential biotechnological applications of xanthophyceae due to their unique metabolic products.
由于黄绿藻独特的代谢产物,科学家正在研究其潜在的生物技术应用。
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