eucoelomate animal
节肢动物
being eucoelomate
成为节肢动物
true eucoelomate
真正的节肢动物
eucoelomate body
节肢动物身体
is eucoelomate
是节肢动物
were eucoelomate
曾经是节肢动物
eucoelomate features
节肢动物特征
as eucoelomate
作为节肢动物
eucoelomate structure
节肢动物结构
class eucoelomate
节肢动物类
the eucoelomate phylum demonstrates advanced body segmentation.
节约腔动物门类的门展示了先进的身体分节。
many eucoelomate species exhibit bilateral symmetry.
许多节约腔动物物物种表现出双侧对称性。
eucoelomate development involves coelom formation during gastrulation.
节约腔动物物的发展涉及在胚内膜形成期间的节约腔形成。
annelids are a well-known group of eucoelomate invertebrates.
环节动物是众所知晓的节约腔无脊椎动物群体。
the presence of a true coelom distinguishes eucoelomates from pseudocoelomates.
真正的节约腔的存在将节约腔动物物与假节约腔动物物区分开来。
chordates are also eucoelomates, sharing key developmental features.
脊索动物也是节约腔动物物,共享关键发育特征。
researchers study eucoelomate evolution to understand body plan diversity.
研究人员研究节约腔动物物进化以了解身体结构的多样性。
the complete digestive system is a characteristic of most eucoelomates.
完整的消化系统是大多数节约腔动物物的一个特征。
eucoelomate circulatory systems often include closed loops.
节约腔动物物的循环系统通常包括闭合环路。
mollusks represent a diverse group within the eucoelomate category.
软体动物代表了节约腔动物物类别中的一个多样化群体。
understanding eucoelomate anatomy is crucial for comparative zoology.
理解节约腔动物物解剖学对于比较动物学至关重要。
eucoelomate animal
节肢动物
being eucoelomate
成为节肢动物
true eucoelomate
真正的节肢动物
eucoelomate body
节肢动物身体
is eucoelomate
是节肢动物
were eucoelomate
曾经是节肢动物
eucoelomate features
节肢动物特征
as eucoelomate
作为节肢动物
eucoelomate structure
节肢动物结构
class eucoelomate
节肢动物类
the eucoelomate phylum demonstrates advanced body segmentation.
节约腔动物门类的门展示了先进的身体分节。
many eucoelomate species exhibit bilateral symmetry.
许多节约腔动物物物种表现出双侧对称性。
eucoelomate development involves coelom formation during gastrulation.
节约腔动物物的发展涉及在胚内膜形成期间的节约腔形成。
annelids are a well-known group of eucoelomate invertebrates.
环节动物是众所知晓的节约腔无脊椎动物群体。
the presence of a true coelom distinguishes eucoelomates from pseudocoelomates.
真正的节约腔的存在将节约腔动物物与假节约腔动物物区分开来。
chordates are also eucoelomates, sharing key developmental features.
脊索动物也是节约腔动物物,共享关键发育特征。
researchers study eucoelomate evolution to understand body plan diversity.
研究人员研究节约腔动物物进化以了解身体结构的多样性。
the complete digestive system is a characteristic of most eucoelomates.
完整的消化系统是大多数节约腔动物物的一个特征。
eucoelomate circulatory systems often include closed loops.
节约腔动物物的循环系统通常包括闭合环路。
mollusks represent a diverse group within the eucoelomate category.
软体动物代表了节约腔动物物类别中的一个多样化群体。
understanding eucoelomate anatomy is crucial for comparative zoology.
理解节约腔动物物解剖学对于比较动物学至关重要。
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