studying neogastropods
研究新腹足类动物
observing neogastropods
观察新腹足类动物
neogastropods thrive
新腹足类动物茁壮成长
protecting neogastropods
保护新腹足类动物
neogastropods evolved
新腹足类动物进化了
neogastropods adapt
新腹足类动物适应
neogastropods reproduce
新腹足类动物繁殖
neogastropods migrated
新腹足类动物迁徙
neogastropods habitat
新腹足类动物栖息地
neogastropods survived
新腹足类动物幸存
marine neogastropods are found in oceans worldwide, from shallow reefs to deep-sea trenches.
海洋新腹足目软体动物分布于世界各地的海洋中,从浅礁到深海海沟。
predatory neogastropods use their specialized radula to drill holes in shells of their prey.
掠食性新腹足目软体动物使用它们特化的齿舌在猎物的壳上钻孔。
tropical neogastropods display vibrant colors and intricate patterns on their shells.
热带新腹足目软体动物的壳上呈现出鲜艳的色彩和复杂的图案。
fossil neogastropods provide important evidence for dating geological strata.
新腹足目软体动物化石为地质地层年代测定提供了重要证据。
some neogastropods produce deadly venom used for hunting and defense.
一些新腹足目软体动物会产生致命的毒液用于捕猎和防御。
neogastropods inhabit various marine environments including sandy bottoms and rocky coastlines.
新腹足目软体动物栖息在多种海洋环境中,包括沙底和岩石海岸线。
the diversity of neogastropods makes them a focus of marine biological studies.
新腹足目软体动物的多样性使它们成为海洋生物学研究的重点。
cone snails are among the most dangerous neogastropods due to their potent neurotoxins.
由于其强效的神经毒素,芋螺是最危险的新腹足目软体动物之一。
neogastropods and bivalves often compete for similar food resources in marine ecosystems.
新腹足目软体动物和双壳类动物在海洋生态系统中经常竞争相似的食物资源。
scientists study neogastropods to understand evolutionary adaptations in mollusks.
科学家研究新腹足目软体动物以了解软体动物的进化适应性。
many neogastropods are carnivorous, feeding on other mollusks and small marine organisms.
许多新腹足目软体动物是肉食性的,以其他软体动物和小型海洋生物为食。
the shell morphology of neogastropods varies greatly across different species.
不同物种的新腹足目软体动物壳形态差异很大。
collecting rare neogastropods has become a popular hobby among shell enthusiasts.
收集稀有的新腹足目软体动物已成为贝壳爱好者中流行的爱好。
environmental changes significantly impact neogastropods population dynamics in coastal regions.
环境变化显著影响沿海地区新腹足目软体动物的种群动态。
studying neogastropods
研究新腹足类动物
observing neogastropods
观察新腹足类动物
neogastropods thrive
新腹足类动物茁壮成长
protecting neogastropods
保护新腹足类动物
neogastropods evolved
新腹足类动物进化了
neogastropods adapt
新腹足类动物适应
neogastropods reproduce
新腹足类动物繁殖
neogastropods migrated
新腹足类动物迁徙
neogastropods habitat
新腹足类动物栖息地
neogastropods survived
新腹足类动物幸存
marine neogastropods are found in oceans worldwide, from shallow reefs to deep-sea trenches.
海洋新腹足目软体动物分布于世界各地的海洋中,从浅礁到深海海沟。
predatory neogastropods use their specialized radula to drill holes in shells of their prey.
掠食性新腹足目软体动物使用它们特化的齿舌在猎物的壳上钻孔。
tropical neogastropods display vibrant colors and intricate patterns on their shells.
热带新腹足目软体动物的壳上呈现出鲜艳的色彩和复杂的图案。
fossil neogastropods provide important evidence for dating geological strata.
新腹足目软体动物化石为地质地层年代测定提供了重要证据。
some neogastropods produce deadly venom used for hunting and defense.
一些新腹足目软体动物会产生致命的毒液用于捕猎和防御。
neogastropods inhabit various marine environments including sandy bottoms and rocky coastlines.
新腹足目软体动物栖息在多种海洋环境中,包括沙底和岩石海岸线。
the diversity of neogastropods makes them a focus of marine biological studies.
新腹足目软体动物的多样性使它们成为海洋生物学研究的重点。
cone snails are among the most dangerous neogastropods due to their potent neurotoxins.
由于其强效的神经毒素,芋螺是最危险的新腹足目软体动物之一。
neogastropods and bivalves often compete for similar food resources in marine ecosystems.
新腹足目软体动物和双壳类动物在海洋生态系统中经常竞争相似的食物资源。
scientists study neogastropods to understand evolutionary adaptations in mollusks.
科学家研究新腹足目软体动物以了解软体动物的进化适应性。
many neogastropods are carnivorous, feeding on other mollusks and small marine organisms.
许多新腹足目软体动物是肉食性的,以其他软体动物和小型海洋生物为食。
the shell morphology of neogastropods varies greatly across different species.
不同物种的新腹足目软体动物壳形态差异很大。
collecting rare neogastropods has become a popular hobby among shell enthusiasts.
收集稀有的新腹足目软体动物已成为贝壳爱好者中流行的爱好。
environmental changes significantly impact neogastropods population dynamics in coastal regions.
环境变化显著影响沿海地区新腹足目软体动物的种群动态。
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