bunodont teeth
圆齿
bunodont molars
圆齿磨牙
bunodont dentition
圆齿齿列
bunodont pattern
圆齿模式
bunodont morphology
圆齿形态
bunodont characteristics
圆齿特征
bunodont species
圆齿物种
bunodont mammals
圆齿哺乳动物
bunodont adaptation
圆齿适应性
bunodont development
圆齿发育
bunodont teeth are characteristic of omnivorous mammals that consume both plants and animals.
圆锥状牙齿是杂食性哺乳动物的特征,它们食用植物和动物。
the bunodont dentition of pigs allows them to process a varied diet effectively.
猪的圆锥状牙齿使它们能够有效地处理多样化的饮食。
humans possess bunodont molars adapted for grinding both vegetable matter and meat.
人类具有圆锥状的磨牙齿,适应于研磨植物物质和肉类。
the evolutionary development of bunodont teeth represents an adaptation to diverse food sources.
圆锥状牙齿的进化发展代表着对多样化食物来源的适应。
comparative anatomy reveals that bunodont dental patterns differ significantly from carnivorous counterparts.
比较解剖学表明,圆锥状牙齿模式与食肉动物的对应物有显着差异。
some primates exhibit bunodont features in their premolar and molar structures.
一些灵长类动物在它们的犬前牙和磨牙结构中表现出圆锥状特征。
the bunodont morphology of bear teeth reflects their omnivorous feeding habits.
熊的圆锥状牙齿形态反映了它们的杂食性进食习惯。
dental studies have classified these specimens as having typical bunodont characteristics.
牙科研究将这些标本归类为具有典型的圆锥状特征。
the adaptation of bunodont dentition enabled certain species to exploit multiple food niches.
圆锥状牙齿的适应使某些物种能够利用多个食物生态位。
fossil evidence suggests that bunodont teeth evolved multiple times across different mammalian lineages.
化石证据表明,圆锥状牙齿在不同的哺乳动物谱系中进化了多次。
bunodont cusp patterns provide efficient grinding surfaces for tough plant materials.
圆锥状尖峰模式为坚韧的植物材料提供高效的研磨表面。
the functional morphology of bunodont teeth supports their role in mechanical food processing.
圆锥状牙齿的功能形态支持它们在机械食品加工中的作用。
bunodont teeth
圆齿
bunodont molars
圆齿磨牙
bunodont dentition
圆齿齿列
bunodont pattern
圆齿模式
bunodont morphology
圆齿形态
bunodont characteristics
圆齿特征
bunodont species
圆齿物种
bunodont mammals
圆齿哺乳动物
bunodont adaptation
圆齿适应性
bunodont development
圆齿发育
bunodont teeth are characteristic of omnivorous mammals that consume both plants and animals.
圆锥状牙齿是杂食性哺乳动物的特征,它们食用植物和动物。
the bunodont dentition of pigs allows them to process a varied diet effectively.
猪的圆锥状牙齿使它们能够有效地处理多样化的饮食。
humans possess bunodont molars adapted for grinding both vegetable matter and meat.
人类具有圆锥状的磨牙齿,适应于研磨植物物质和肉类。
the evolutionary development of bunodont teeth represents an adaptation to diverse food sources.
圆锥状牙齿的进化发展代表着对多样化食物来源的适应。
comparative anatomy reveals that bunodont dental patterns differ significantly from carnivorous counterparts.
比较解剖学表明,圆锥状牙齿模式与食肉动物的对应物有显着差异。
some primates exhibit bunodont features in their premolar and molar structures.
一些灵长类动物在它们的犬前牙和磨牙结构中表现出圆锥状特征。
the bunodont morphology of bear teeth reflects their omnivorous feeding habits.
熊的圆锥状牙齿形态反映了它们的杂食性进食习惯。
dental studies have classified these specimens as having typical bunodont characteristics.
牙科研究将这些标本归类为具有典型的圆锥状特征。
the adaptation of bunodont dentition enabled certain species to exploit multiple food niches.
圆锥状牙齿的适应使某些物种能够利用多个食物生态位。
fossil evidence suggests that bunodont teeth evolved multiple times across different mammalian lineages.
化石证据表明,圆锥状牙齿在不同的哺乳动物谱系中进化了多次。
bunodont cusp patterns provide efficient grinding surfaces for tough plant materials.
圆锥状尖峰模式为坚韧的植物材料提供高效的研磨表面。
the functional morphology of bunodont teeth supports their role in mechanical food processing.
圆锥状牙齿的功能形态支持它们在机械食品加工中的作用。
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