ceratopsid horns
角龙角
finding ceratopsids
发现角龙
large ceratopsid
大型角龙
ceratopsid fossils
角龙化石
early ceratopsids
早期角龙
ceratopsid skull
角龙头骨
studying ceratopsids
研究角龙
ceratopsid frill
角龙颈盾
ceratopsid evolution
角龙演化
ceratopsid diet
角龙食性
the ceratopsid fossils revealed a surprising amount of detail about their frills.
角龙类化石揭示了关于它们头盾的惊人细节。
paleontologists study ceratopsid cranial morphology to understand evolutionary relationships.
古生物学家研究角龙类的颅骨形态来理解进化关系。
several ceratopsid species possessed elaborate horns for display and defense.
许多角龙类的物种拥有华丽的角用于展示和防御。
ceratopsid herbivores likely grazed on low-growing vegetation during the cretaceous period.
角龙类草食性动物在白垩纪期间可能吃低矮的植被。
the discovery of a new ceratopsid species expands our knowledge of dinosaur diversity.
发现一种新的角龙类物种扩大了我们对恐龙多样性的认识。
researchers are analyzing ceratopsid bone microstructure to determine growth rates.
研究人员正在分析角龙类的骨骼微结构以确定生长速度。
ceratopsid footprints provide insights into their herding behavior and movement patterns.
角龙类的足迹为我们提供了对它们的群居行为和运动模式的见解。
the robust ceratopsid skull offered protection against predators and intraspecific combat.
强壮的角龙类头骨可以保护它们免受掠食者和种内战斗的伤害。
geographic distribution of ceratopsid fossils indicates their preferred habitats.
角龙类化石的地理分布表明了它们的首选栖息地。
phylogenetic analyses place ceratopsids within the ornithischian dinosaur clade.
系统发育分析将角龙类置于鸟臀目恐龙类群中。
the size range among ceratopsid species varied considerably.
角龙类物种之间的尺寸范围差异很大。
ceratopsid horns
角龙角
finding ceratopsids
发现角龙
large ceratopsid
大型角龙
ceratopsid fossils
角龙化石
early ceratopsids
早期角龙
ceratopsid skull
角龙头骨
studying ceratopsids
研究角龙
ceratopsid frill
角龙颈盾
ceratopsid evolution
角龙演化
ceratopsid diet
角龙食性
the ceratopsid fossils revealed a surprising amount of detail about their frills.
角龙类化石揭示了关于它们头盾的惊人细节。
paleontologists study ceratopsid cranial morphology to understand evolutionary relationships.
古生物学家研究角龙类的颅骨形态来理解进化关系。
several ceratopsid species possessed elaborate horns for display and defense.
许多角龙类的物种拥有华丽的角用于展示和防御。
ceratopsid herbivores likely grazed on low-growing vegetation during the cretaceous period.
角龙类草食性动物在白垩纪期间可能吃低矮的植被。
the discovery of a new ceratopsid species expands our knowledge of dinosaur diversity.
发现一种新的角龙类物种扩大了我们对恐龙多样性的认识。
researchers are analyzing ceratopsid bone microstructure to determine growth rates.
研究人员正在分析角龙类的骨骼微结构以确定生长速度。
ceratopsid footprints provide insights into their herding behavior and movement patterns.
角龙类的足迹为我们提供了对它们的群居行为和运动模式的见解。
the robust ceratopsid skull offered protection against predators and intraspecific combat.
强壮的角龙类头骨可以保护它们免受掠食者和种内战斗的伤害。
geographic distribution of ceratopsid fossils indicates their preferred habitats.
角龙类化石的地理分布表明了它们的首选栖息地。
phylogenetic analyses place ceratopsids within the ornithischian dinosaur clade.
系统发育分析将角龙类置于鸟臀目恐龙类群中。
the size range among ceratopsid species varied considerably.
角龙类物种之间的尺寸范围差异很大。
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