the trochozoan embryo develops through distinct larval stages.
环节动物门胚胎经历独特的幼虫阶段发育。
trochozoan larvae are characterized by their ciliary bands.
环节动物门幼虫以纤毛带为特征。
researchers study trochozoan development to understand metazoan evolution.
研究人员研究环节动物门发育以理解后生动物演化。
the trochozoan body plan includes a segmented body structure.
环节动物门身体结构包括分节的身体。
many trochozoan species inhabit marine environments.
许多环节动物门物种栖息在海洋环境中。
trochozoan phylogeny has been clarified through molecular studies.
分子研究阐明了环节动物门系统发育。
the trochozoan group includes annelids and mollusks.
环节动物门类群包括环节动物和软体动物。
trochozoan metazoans exhibit bilateral symmetry.
环节动物门后生动物表现出双侧对称。
comparative anatomy reveals trochozoan evolutionary relationships.
比较解剖学揭示了环节动物门的演化关系。
trochozoan classification continues to evolve with new data.
环节动物门分类随着新数据继续发展。
the trochozoan larva undergoes metamorphosis into adult form.
环节动物门幼虫经历变态成为成体形态。
trochozoan embryos show spiral cleavage patterns.
环节动物门胚胎呈现螺旋卵裂模式。
the trochozoan embryo develops through distinct larval stages.
环节动物门胚胎经历独特的幼虫阶段发育。
trochozoan larvae are characterized by their ciliary bands.
环节动物门幼虫以纤毛带为特征。
researchers study trochozoan development to understand metazoan evolution.
研究人员研究环节动物门发育以理解后生动物演化。
the trochozoan body plan includes a segmented body structure.
环节动物门身体结构包括分节的身体。
many trochozoan species inhabit marine environments.
许多环节动物门物种栖息在海洋环境中。
trochozoan phylogeny has been clarified through molecular studies.
分子研究阐明了环节动物门系统发育。
the trochozoan group includes annelids and mollusks.
环节动物门类群包括环节动物和软体动物。
trochozoan metazoans exhibit bilateral symmetry.
环节动物门后生动物表现出双侧对称。
comparative anatomy reveals trochozoan evolutionary relationships.
比较解剖学揭示了环节动物门的演化关系。
trochozoan classification continues to evolve with new data.
环节动物门分类随着新数据继续发展。
the trochozoan larva undergoes metamorphosis into adult form.
环节动物门幼虫经历变态成为成体形态。
trochozoan embryos show spiral cleavage patterns.
环节动物门胚胎呈现螺旋卵裂模式。
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