the neogastropod
新腹足類
neogastropod species
新腹足類物種
a neogastropod
一種新腹足類
neogastropod evolution
新腹足類演化
neogastropod taxonomy
新腹足類分類學
studying neogastropods
研究新腹足類
neogastropod classification
新腹足類分類
marine neogastropod
海洋新腹足類
neogastropod phylogeny
新腹足類演化關係
neogastropod morphology
新腹足類形態學
the neogastropod species exhibits complex predatory behavior that distinguishes it from other marine mollusks.
新腹足類物種表現出複雜的捕食行為,使其與其他海洋軟體動物區別開來。
fossil neogastropod shells provide valuable information about ancient marine ecosystems and environmental conditions.
新腹足類化石的殼提供了有關古代海洋生態系統和環境條件的重要資訊。
researchers study neogastropod phylogeny to understand evolutionary relationships among gastropods.
研究人員研究新腹足類的演化關係,以了解腹足類動物之間的演化關係。
the neogastropod diversity in this coastal region has declined significantly due to pollution and habitat loss.
由於污染和棲息地的喪失,這個沿海地區的新腹足類多樣性已大幅下降。
neogastropod morphology varies greatly among different families, reflecting diverse ecological adaptations.
不同新腹足類科的形態變化很大,反映了多樣的生態適應。
the museum's collection includes rare neogastropod specimens from the cretaceous period that are millions of years old.
博物館的收藏包括來自白堊紀、已有數百萬年歷史的稀有新腹足類標本。
climate change affects neogastropod habitat distribution, forcing populations to migrate to cooler waters.
氣候變化影響新腹足類的棲息地分布,迫使種群遷移到較冷的水域。
scientists are studying neogastropod feeding mechanisms to understand how they select and capture prey.
科學家正在研究新腹足類的進食機制,以了解它們如何選擇和捕獲獵物。
the neogastropod radula contains specialized teeth for drilling holes in the shells of their prey.
新腹足類的舌齒包含專門用於在獵物殼上鑽孔的特化牙齒。
neogastropod taxonomy has been revised multiple times as genetic data provides new insights into classification.
隨著基因數據提供了分類的新見解,新腹足類的分類學已多次修訂。
deep-sea exploration has revealed new neogastropod species previously unknown to marine biologists.
深海探測已經揭示了以前海洋生物學家未知的新腹足類物種。
the neogastropod nervous system shows advanced adaptations that enable sophisticated behaviors and decision-making.
新腹足類的神經系統顯示出先進的適應能力,使其能夠進行複雜的行為和決策。
the neogastropod
新腹足類
neogastropod species
新腹足類物種
a neogastropod
一種新腹足類
neogastropod evolution
新腹足類演化
neogastropod taxonomy
新腹足類分類學
studying neogastropods
研究新腹足類
neogastropod classification
新腹足類分類
marine neogastropod
海洋新腹足類
neogastropod phylogeny
新腹足類演化關係
neogastropod morphology
新腹足類形態學
the neogastropod species exhibits complex predatory behavior that distinguishes it from other marine mollusks.
新腹足類物種表現出複雜的捕食行為,使其與其他海洋軟體動物區別開來。
fossil neogastropod shells provide valuable information about ancient marine ecosystems and environmental conditions.
新腹足類化石的殼提供了有關古代海洋生態系統和環境條件的重要資訊。
researchers study neogastropod phylogeny to understand evolutionary relationships among gastropods.
研究人員研究新腹足類的演化關係,以了解腹足類動物之間的演化關係。
the neogastropod diversity in this coastal region has declined significantly due to pollution and habitat loss.
由於污染和棲息地的喪失,這個沿海地區的新腹足類多樣性已大幅下降。
neogastropod morphology varies greatly among different families, reflecting diverse ecological adaptations.
不同新腹足類科的形態變化很大,反映了多樣的生態適應。
the museum's collection includes rare neogastropod specimens from the cretaceous period that are millions of years old.
博物館的收藏包括來自白堊紀、已有數百萬年歷史的稀有新腹足類標本。
climate change affects neogastropod habitat distribution, forcing populations to migrate to cooler waters.
氣候變化影響新腹足類的棲息地分布,迫使種群遷移到較冷的水域。
scientists are studying neogastropod feeding mechanisms to understand how they select and capture prey.
科學家正在研究新腹足類的進食機制,以了解它們如何選擇和捕獲獵物。
the neogastropod radula contains specialized teeth for drilling holes in the shells of their prey.
新腹足類的舌齒包含專門用於在獵物殼上鑽孔的特化牙齒。
neogastropod taxonomy has been revised multiple times as genetic data provides new insights into classification.
隨著基因數據提供了分類的新見解,新腹足類的分類學已多次修訂。
deep-sea exploration has revealed new neogastropod species previously unknown to marine biologists.
深海探測已經揭示了以前海洋生物學家未知的新腹足類物種。
the neogastropod nervous system shows advanced adaptations that enable sophisticated behaviors and decision-making.
新腹足類的神經系統顯示出先進的適應能力,使其能夠進行複雜的行為和決策。
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