archaebacterias are extremophiles.
古细菌是嗜极生物。
archaebacterias thrive in extreme environments.
古菌在极端环境中繁衍生息。
researchers study archaebacterias for potential biotechnological applications.
研究人员研究古菌以寻找潜在的生物技术应用。
archaebacterias play a crucial role in the ecosystem.
古菌在生态系统中扮演着重要角色。
some archaebacterias can survive without oxygen.
一些古菌可以在没有氧气的情况下生存。
scientists discovered new species of archaebacterias.
科学家发现了新的古菌物种。
archaebacterias are often found in hot springs.
古菌通常在温泉中发现。
the study of archaebacterias can provide insights into early life on earth.
对古菌的研究可以为我们提供关于地球早期生命的见解。
archaebacterias are distinct from bacteria and eukaryotes.
古菌与细菌和真核生物不同。
many archaebacterias are extremophiles.
许多古菌是极端生物。
understanding archaebacterias could lead to advances in medicine.
了解古菌可能会推动医学的进步。
archaebacterias are extremophiles.
古细菌是嗜极生物。
archaebacterias thrive in extreme environments.
古菌在极端环境中繁衍生息。
researchers study archaebacterias for potential biotechnological applications.
研究人员研究古菌以寻找潜在的生物技术应用。
archaebacterias play a crucial role in the ecosystem.
古菌在生态系统中扮演着重要角色。
some archaebacterias can survive without oxygen.
一些古菌可以在没有氧气的情况下生存。
scientists discovered new species of archaebacterias.
科学家发现了新的古菌物种。
archaebacterias are often found in hot springs.
古菌通常在温泉中发现。
the study of archaebacterias can provide insights into early life on earth.
对古菌的研究可以为我们提供关于地球早期生命的见解。
archaebacterias are distinct from bacteria and eukaryotes.
古菌与细菌和真核生物不同。
many archaebacterias are extremophiles.
许多古菌是极端生物。
understanding archaebacterias could lead to advances in medicine.
了解古菌可能会推动医学的进步。
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