lophotrochozoan species
刺胞動物門物種
lophotrochozoan evolution
刺胞動物門演化
studying lophotrochozoa
研究刺胞動物門
lophotrochozoan anatomy
刺胞動物門解剖學
lophotrochozoan development
刺胞動物門發育
lophotrochozoan classification
刺胞動物門分類
the lophotrochozoa
刺胞動物門
lophotrochozoan phylogeny
刺胞動物門系統發生學
lophotrochozoan relationships
刺胞動物門關係
lophotrochozoan organisms
刺胞動物門生物
lophotrochozoa is a major clade of protostome animals that includes mollusks and annelids.
輪蟲動物門是原口動物的一個主要演化支,包括軟體動物和環節動物。
scientists study lophotrochozoan development to understand how these complex body plans evolved.
科學家研究輪蟲動物門的發育,以了解這些複雜的身體構造是如何演化的。
the lophotrochozoan fossil record provides important clues about early animal evolution.
輪蟲動物門的化石記錄提供了關於早期動物演化的關鍵線索。
molecular studies have revealed unexpected relationships among lophotrochozoan taxa.
分子研究揭示了輪蟲動物門各類群之間意想不到的關係。
many lophotrochozoan species exhibit trochophore larvae during their development.
許多輪蟲動物門的物種在其發育過程中會出現擔輪幼蟲。
the lophotrochozoan body plan is characterized by bilateral symmetry and three germ layers.
輪蟲動物門的身體構造特徵是雙側對稱和三個胚層。
researchers use phylogenetic analysis to determine lophotrochozoan evolutionary relationships.
研究人員使用系統發生學分析來確定輪蟲動物門的演化關係。
lophotrochozoan diversity includes both marine and terrestrial habitats.
輪蟲動物門的多樣性包括海洋和陸地兩種棲息地。
the lophotrochozoan phylum annelida comprises segmented worms with great ecological importance.
輪蟲動物門的環節動物門包含許多重要的生態環節動物。
understanding lophotrochozoan genetics helps explain the origins of animal complexity.
了解輪蟲動物門的遺傳學有助於解釋動物複雜性的起源。
lophotrochozoan larvae often display distinctive feeding structures.
輪蟲動物門的幼蟲通常會展示出獨特的攝食結構。
the lophotrochozoan lineage diverged early in animal evolutionary history.
輪蟲動物門的演化支在動物演化歷史早期就已經分離。
lophotrochozoan species
刺胞動物門物種
lophotrochozoan evolution
刺胞動物門演化
studying lophotrochozoa
研究刺胞動物門
lophotrochozoan anatomy
刺胞動物門解剖學
lophotrochozoan development
刺胞動物門發育
lophotrochozoan classification
刺胞動物門分類
the lophotrochozoa
刺胞動物門
lophotrochozoan phylogeny
刺胞動物門系統發生學
lophotrochozoan relationships
刺胞動物門關係
lophotrochozoan organisms
刺胞動物門生物
lophotrochozoa is a major clade of protostome animals that includes mollusks and annelids.
輪蟲動物門是原口動物的一個主要演化支,包括軟體動物和環節動物。
scientists study lophotrochozoan development to understand how these complex body plans evolved.
科學家研究輪蟲動物門的發育,以了解這些複雜的身體構造是如何演化的。
the lophotrochozoan fossil record provides important clues about early animal evolution.
輪蟲動物門的化石記錄提供了關於早期動物演化的關鍵線索。
molecular studies have revealed unexpected relationships among lophotrochozoan taxa.
分子研究揭示了輪蟲動物門各類群之間意想不到的關係。
many lophotrochozoan species exhibit trochophore larvae during their development.
許多輪蟲動物門的物種在其發育過程中會出現擔輪幼蟲。
the lophotrochozoan body plan is characterized by bilateral symmetry and three germ layers.
輪蟲動物門的身體構造特徵是雙側對稱和三個胚層。
researchers use phylogenetic analysis to determine lophotrochozoan evolutionary relationships.
研究人員使用系統發生學分析來確定輪蟲動物門的演化關係。
lophotrochozoan diversity includes both marine and terrestrial habitats.
輪蟲動物門的多樣性包括海洋和陸地兩種棲息地。
the lophotrochozoan phylum annelida comprises segmented worms with great ecological importance.
輪蟲動物門的環節動物門包含許多重要的生態環節動物。
understanding lophotrochozoan genetics helps explain the origins of animal complexity.
了解輪蟲動物門的遺傳學有助於解釋動物複雜性的起源。
lophotrochozoan larvae often display distinctive feeding structures.
輪蟲動物門的幼蟲通常會展示出獨特的攝食結構。
the lophotrochozoan lineage diverged early in animal evolutionary history.
輪蟲動物門的演化支在動物演化歷史早期就已經分離。
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