bunodont teeth
稜齒
bunodont molars
稜齒臼齒
bunodont dentition
稜齒齒列
bunodont pattern
稜齒模式
bunodont morphology
稜齒形態學
bunodont characteristics
稜齒特徵
bunodont species
稜齒物種
bunodont mammals
稜齒哺乳動物
bunodont adaptation
稜齒適應性
bunodont development
稜齒發育
bunodont teeth are characteristic of omnivorous mammals that consume both plants and animals.
稜齒是雜食性哺乳動物的特徵,牠們同時攝取植物和動物。
the bunodont dentition of pigs allows them to process a varied diet effectively.
豬的稜齒牙列使其能有效處理多樣化的飲食。
humans possess bunodont molars adapted for grinding both vegetable matter and meat.
人類擁有適應於磨碎植物和肉類的稜齒磨牙。
the evolutionary development of bunodont teeth represents an adaptation to diverse food sources.
稜齒的演化發展代表了對多樣化食物來源的適應。
comparative anatomy reveals that bunodont dental patterns differ significantly from carnivorous counterparts.
比較解剖學顯示,稜齒牙齒模式與食肉動物的牙齒模式有顯著差異。
some primates exhibit bunodont features in their premolar and molar structures.
一些靈長類動物在前臼齒和臼齒結構中表現出稜齒特徵。
the bunodont morphology of bear teeth reflects their omnivorous feeding habits.
熊的稜齒牙齒形態反映了牠們的雜食性飲食習慣。
dental studies have classified these specimens as having typical bunodont characteristics.
牙科研究已將這些標本分類為具有典型的稜齒特徵。
the adaptation of bunodont dentition enabled certain species to exploit multiple food niches.
稜齒牙列的適應使某些物種能夠利用多種食物生態位。
fossil evidence suggests that bunodont teeth evolved multiple times across different mammalian lineages.
化石證據表明,稜齒牙齒在不同哺乳動物演化支中多次獨立演化。
bunodont cusp patterns provide efficient grinding surfaces for tough plant materials.
稜齒的牙尖模式為堅硬的植物材料提供了高效的磨碎表面。
the functional morphology of bunodont teeth supports their role in mechanical food processing.
稜齒的機能形態支持其在機械性食物處理中的作用。
bunodont teeth
稜齒
bunodont molars
稜齒臼齒
bunodont dentition
稜齒齒列
bunodont pattern
稜齒模式
bunodont morphology
稜齒形態學
bunodont characteristics
稜齒特徵
bunodont species
稜齒物種
bunodont mammals
稜齒哺乳動物
bunodont adaptation
稜齒適應性
bunodont development
稜齒發育
bunodont teeth are characteristic of omnivorous mammals that consume both plants and animals.
稜齒是雜食性哺乳動物的特徵,牠們同時攝取植物和動物。
the bunodont dentition of pigs allows them to process a varied diet effectively.
豬的稜齒牙列使其能有效處理多樣化的飲食。
humans possess bunodont molars adapted for grinding both vegetable matter and meat.
人類擁有適應於磨碎植物和肉類的稜齒磨牙。
the evolutionary development of bunodont teeth represents an adaptation to diverse food sources.
稜齒的演化發展代表了對多樣化食物來源的適應。
comparative anatomy reveals that bunodont dental patterns differ significantly from carnivorous counterparts.
比較解剖學顯示,稜齒牙齒模式與食肉動物的牙齒模式有顯著差異。
some primates exhibit bunodont features in their premolar and molar structures.
一些靈長類動物在前臼齒和臼齒結構中表現出稜齒特徵。
the bunodont morphology of bear teeth reflects their omnivorous feeding habits.
熊的稜齒牙齒形態反映了牠們的雜食性飲食習慣。
dental studies have classified these specimens as having typical bunodont characteristics.
牙科研究已將這些標本分類為具有典型的稜齒特徵。
the adaptation of bunodont dentition enabled certain species to exploit multiple food niches.
稜齒牙列的適應使某些物種能夠利用多種食物生態位。
fossil evidence suggests that bunodont teeth evolved multiple times across different mammalian lineages.
化石證據表明,稜齒牙齒在不同哺乳動物演化支中多次獨立演化。
bunodont cusp patterns provide efficient grinding surfaces for tough plant materials.
稜齒的牙尖模式為堅硬的植物材料提供了高效的磨碎表面。
the functional morphology of bunodont teeth supports their role in mechanical food processing.
稜齒的機能形態支持其在機械性食物處理中的作用。
探索常見搜尋詞彙