eucoelom formation
真體腔形成
eucoelom development
真體腔發育
true eucoelom
真體腔
eucoelom cavity
真體腔腔
eucoelomate animals
真體腔動物
eucoelom structure
真體腔結構
having eucoelom
具有真體腔
eucoelomic cavity
真體腔腔
eucoelom function
真體腔功能
eucoelom lining
真體腔襯裡
the earthworm possesses a true eucoelom that functions as a hydrostatic skeleton.
蚯蚓具有真正的歐氏體腔,可作為水靜力骨骼。
eucoelomate animals have a fluid-filled body cavity lined with mesoderm.
歐氏體腔動物具有由中胚層襯裡的充滿流體的體腔。
during embryonic development, the eucoelom forms from mesodermal pouches.
在胚胎發育期間,歐氏體腔由中胚層囊形成。
the presence of a eucoelom allows for greater organ development and protection.
歐氏體腔的存在允許更大的器官發育和保護。
arthropods and mollusks represent advanced eucoelomate phyla in the animal kingdom.
節肢動物和軟體動物在動物王國中代表了高階的歐氏體腔門。
scientists study eucoelom formation to understand evolutionary biology.
科學家研究歐氏體腔的形成以理解進化生物學。
the eucoelom provides cushioning and insulation for internal organs.
歐氏體腔為內部器官提供緩衝和絕緣。
comparison of pseudocoelom and eucoelom reveals significant anatomical differences.
偽體腔與歐氏體腔的比較揭示了顯著的解剖學差異。
eucoelom development is a key characteristic distinguishing protostomes and deuterostomes.
歐氏體腔的發育是區分原口動物和後口動物的關鍵特徵。
the evolutionary advantage of a true eucoelom includes improved circulation and locomotion.
真正的歐氏體腔的進化優勢包括改進的循環和運動。
researchers examined the eucoelom structure using advanced microscopy techniques.
研究人員使用先進的顯微技術檢查歐氏體腔結構。
segmentation in annelids is closely associated with their eucoelom organization.
環節動物的分節與其歐氏體腔組織密切相關。
the function of the eucoelom involves facilitating complex physiological processes.
歐氏體腔的功能涉及促進複雜的生理過程。
many marine invertebrates exhibit a well-developed eucoelom with specialized compartments.
許多海洋無脊椎動物具有高度發達的歐氏體腔,並具有專門的隔室。
understanding eucoelom characteristics helps classify organisms within the animal kingdom.
了解歐氏體腔的特徵有助於在動物王國中對生物進行分類。
eucoelom formation
真體腔形成
eucoelom development
真體腔發育
true eucoelom
真體腔
eucoelom cavity
真體腔腔
eucoelomate animals
真體腔動物
eucoelom structure
真體腔結構
having eucoelom
具有真體腔
eucoelomic cavity
真體腔腔
eucoelom function
真體腔功能
eucoelom lining
真體腔襯裡
the earthworm possesses a true eucoelom that functions as a hydrostatic skeleton.
蚯蚓具有真正的歐氏體腔,可作為水靜力骨骼。
eucoelomate animals have a fluid-filled body cavity lined with mesoderm.
歐氏體腔動物具有由中胚層襯裡的充滿流體的體腔。
during embryonic development, the eucoelom forms from mesodermal pouches.
在胚胎發育期間,歐氏體腔由中胚層囊形成。
the presence of a eucoelom allows for greater organ development and protection.
歐氏體腔的存在允許更大的器官發育和保護。
arthropods and mollusks represent advanced eucoelomate phyla in the animal kingdom.
節肢動物和軟體動物在動物王國中代表了高階的歐氏體腔門。
scientists study eucoelom formation to understand evolutionary biology.
科學家研究歐氏體腔的形成以理解進化生物學。
the eucoelom provides cushioning and insulation for internal organs.
歐氏體腔為內部器官提供緩衝和絕緣。
comparison of pseudocoelom and eucoelom reveals significant anatomical differences.
偽體腔與歐氏體腔的比較揭示了顯著的解剖學差異。
eucoelom development is a key characteristic distinguishing protostomes and deuterostomes.
歐氏體腔的發育是區分原口動物和後口動物的關鍵特徵。
the evolutionary advantage of a true eucoelom includes improved circulation and locomotion.
真正的歐氏體腔的進化優勢包括改進的循環和運動。
researchers examined the eucoelom structure using advanced microscopy techniques.
研究人員使用先進的顯微技術檢查歐氏體腔結構。
segmentation in annelids is closely associated with their eucoelom organization.
環節動物的分節與其歐氏體腔組織密切相關。
the function of the eucoelom involves facilitating complex physiological processes.
歐氏體腔的功能涉及促進複雜的生理過程。
many marine invertebrates exhibit a well-developed eucoelom with specialized compartments.
許多海洋無脊椎動物具有高度發達的歐氏體腔,並具有專門的隔室。
understanding eucoelom characteristics helps classify organisms within the animal kingdom.
了解歐氏體腔的特徵有助於在動物王國中對生物進行分類。
探索常見搜尋詞彙