eucoelom formation
真体腔形成
eucoelom development
真体腔发育
true eucoelom
真体腔
eucoelom cavity
真体腔腔
eucoelomate animals
真体腔动物
eucoelom structure
真体腔结构
having eucoelom
具有真体腔
eucoelomic cavity
真体腔功能
eucoelom function
真体腔内膜
eucoelom lining
the earthworm possesses a true eucoelom that functions as a hydrostatic skeleton.
蚯蚓拥有一个真正的真体腔,起到流体静力骨骼的作用。
eucoelomate animals have a fluid-filled body cavity lined with mesoderm.
真体腔动物的体腔充满液体,由中胚层衬里。
during embryonic development, the eucoelom forms from mesodermal pouches.
在胚胎发育过程中,真体腔从中胚层囊发育形成。
the presence of a eucoelom allows for greater organ development and protection.
真体腔的存在使得器官能够更充分地发育并受到保护。
arthropods and mollusks represent advanced eucoelomate phyla in the animal kingdom.
节肢动物和软体动物代表了动物界中较为高级的真体腔动物门。
scientists study eucoelom formation to understand evolutionary biology.
科学家研究真体腔的形成以了解进化生物学。
the eucoelom provides cushioning and insulation for internal organs.
真体腔为内部器官提供缓冲和绝缘保护。
comparison of pseudocoelom and eucoelom reveals significant anatomical differences.
假体腔和真体腔的比较揭示了解剖学上的显著差异。
eucoelom development is a key characteristic distinguishing protostomes and deuterostomes.
真体腔发育是原口动物和后口动物的关键特征区分。
the evolutionary advantage of a true eucoelom includes improved circulation and locomotion.
真正体腔的进化优势包括改善循环和运动能力。
researchers examined the eucoelom structure using advanced microscopy techniques.
研究人员使用先进显微镜技术检查真体腔结构。
segmentation in annelids is closely associated with their eucoelom organization.
环节动物的分段与其真体腔组织密切相关。
the function of the eucoelom involves facilitating complex physiological processes.
真体腔的功能涉及促进复杂的生理过程。
many marine invertebrates exhibit a well-developed eucoelom with specialized compartments.
许多海洋无脊椎动物表现出具有专门隔室的发达真体腔。
understanding eucoelom characteristics helps classify organisms within the animal kingdom.
理解真体腔特征有助于对动物界中的生物进行分类。
eucoelom formation
真体腔形成
eucoelom development
真体腔发育
true eucoelom
真体腔
eucoelom cavity
真体腔腔
eucoelomate animals
真体腔动物
eucoelom structure
真体腔结构
having eucoelom
具有真体腔
eucoelomic cavity
真体腔功能
eucoelom function
真体腔内膜
eucoelom lining
the earthworm possesses a true eucoelom that functions as a hydrostatic skeleton.
蚯蚓拥有一个真正的真体腔,起到流体静力骨骼的作用。
eucoelomate animals have a fluid-filled body cavity lined with mesoderm.
真体腔动物的体腔充满液体,由中胚层衬里。
during embryonic development, the eucoelom forms from mesodermal pouches.
在胚胎发育过程中,真体腔从中胚层囊发育形成。
the presence of a eucoelom allows for greater organ development and protection.
真体腔的存在使得器官能够更充分地发育并受到保护。
arthropods and mollusks represent advanced eucoelomate phyla in the animal kingdom.
节肢动物和软体动物代表了动物界中较为高级的真体腔动物门。
scientists study eucoelom formation to understand evolutionary biology.
科学家研究真体腔的形成以了解进化生物学。
the eucoelom provides cushioning and insulation for internal organs.
真体腔为内部器官提供缓冲和绝缘保护。
comparison of pseudocoelom and eucoelom reveals significant anatomical differences.
假体腔和真体腔的比较揭示了解剖学上的显著差异。
eucoelom development is a key characteristic distinguishing protostomes and deuterostomes.
真体腔发育是原口动物和后口动物的关键特征区分。
the evolutionary advantage of a true eucoelom includes improved circulation and locomotion.
真正体腔的进化优势包括改善循环和运动能力。
researchers examined the eucoelom structure using advanced microscopy techniques.
研究人员使用先进显微镜技术检查真体腔结构。
segmentation in annelids is closely associated with their eucoelom organization.
环节动物的分段与其真体腔组织密切相关。
the function of the eucoelom involves facilitating complex physiological processes.
真体腔的功能涉及促进复杂的生理过程。
many marine invertebrates exhibit a well-developed eucoelom with specialized compartments.
许多海洋无脊椎动物表现出具有专门隔室的发达真体腔。
understanding eucoelom characteristics helps classify organisms within the animal kingdom.
理解真体腔特征有助于对动物界中的生物进行分类。
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