the ferns exhibit specialized structures called antheridiophores.
蕨类植物表现出称为“雄配子体”的特殊结构。
antheridiophores are responsible for producing sperm in some plants.
在一些植物中,“雄配子体”负责产生精子。
the study focused on the morphology and function of antheridiophores in ferns.
这项研究侧重于蕨类植物“雄配子体”的形态和功能。
antheridiophores are often found clustered together on the fern frond.
雄配子体通常在蕨叶上成群结聚地生长。
the presence of antheridiophores indicates a specific type of reproduction in plants.
存在“雄配子体”表明植物具有特定类型的繁殖方式。
antheridiophores are a key feature distinguishing ferns from other plant groups.
雄配子体是将蕨类植物与其他植物群区分开来的关键特征。
the evolution of antheridiophores played a significant role in fern diversification.
雄配子体的进化在蕨类植物的多样化过程中发挥了重要作用。
scientists continue to investigate the complex mechanisms underlying antheridiophore development.
科学家们继续研究“雄配子体”发育背后的复杂机制。
antheridiophores offer valuable insights into the evolutionary history of plants.
雄配子体为我们了解植物的进化历史提供了宝贵见解。
the ferns exhibit specialized structures called antheridiophores.
蕨类植物表现出称为“雄配子体”的特殊结构。
antheridiophores are responsible for producing sperm in some plants.
在一些植物中,“雄配子体”负责产生精子。
the study focused on the morphology and function of antheridiophores in ferns.
这项研究侧重于蕨类植物“雄配子体”的形态和功能。
antheridiophores are often found clustered together on the fern frond.
雄配子体通常在蕨叶上成群结聚地生长。
the presence of antheridiophores indicates a specific type of reproduction in plants.
存在“雄配子体”表明植物具有特定类型的繁殖方式。
antheridiophores are a key feature distinguishing ferns from other plant groups.
雄配子体是将蕨类植物与其他植物群区分开来的关键特征。
the evolution of antheridiophores played a significant role in fern diversification.
雄配子体的进化在蕨类植物的多样化过程中发挥了重要作用。
scientists continue to investigate the complex mechanisms underlying antheridiophore development.
科学家们继续研究“雄配子体”发育背后的复杂机制。
antheridiophores offer valuable insights into the evolutionary history of plants.
雄配子体为我们了解植物的进化历史提供了宝贵见解。
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