all triploblasts
所有三胚層動物
most triploblasts
大多數三胚層動物
some triploblasts
一些三胚層動物
these triploblasts
這些三胚層動物
triploblasts include
三胚層動物包括
triploblasts have
三胚層動物有
triploblasts are
三胚層動物是
triploblasts develop
三胚層動物發育
in triploblasts
在三胚層動物中
true triploblasts
真正的三胚層動物
triploblastic animals possess three distinct germ layers during embryonic development.
三胚層動物在胚胎發育期間具有三個不同的胚層。
most complex organisms are triploblastic, including vertebrates and arthropods.
大多數複雜的生物都是三胚層動物,包括脊椎動物和節肢動物。
the evolution of triploblastic symmetry marked a significant advancement in animal complexity.
三胚層對稱性的演化標誌著動物複雜性的重大進步。
scientists classify triploblastic organisms into several major phyla based on body plans.
科學家根據身體結構將三胚層生物分類為幾個主要門。
triploblastic embryos develop specialized tissues from ectoderm, mesoderm, and endoderm.
三胚層胚胎從外胚層、中胚層和內胚層發育出特化的組織。
the emergence of triploblastic life forms transformed marine ecosystems.
三胚層生物的出現改變了海洋生態系統。
comparative studies reveal diverse adaptations among triploblastic species.
比較研究揭示了三胚層物種之間多樣的適應性。
triploblastic body plans enable sophisticated organ systems and locomotion.
三胚層身體結構使複雜的器官系統和運動成為可能。
researchers study triploblastic development to understand tissue differentiation.
研究人員研究三胚層的發育以了解組織分化。
the genetic basis of triploblastic complexity interests many evolutionary biologists.
三胚層複雜性的遺傳基礎引起了許多進化生物學家的興趣。
triploblastic animals exhibit bilateral symmetry as a defining characteristic.
三胚層動物以雙側對稱作為其特徵。
fossil evidence suggests triploblastic organisms appeared during the ediacaran period.
化石證據表明三胚層生物在埃迪卡拉紀出現。
understanding triploblastic classification helps reconstruct evolutionary relationships.
了解三胚層分類有助於重建進化關係。
the three germ layers in triploblastic embryos give rise to all body tissues.
三胚層胚胎中的三個胚層產生了所有身體組織。
triploblastic diversity encompasses countless species from worms to mammals.
三胚層的多樣性涵蓋了從蠕蟲到哺乳動物的無數物種。
all triploblasts
所有三胚層動物
most triploblasts
大多數三胚層動物
some triploblasts
一些三胚層動物
these triploblasts
這些三胚層動物
triploblasts include
三胚層動物包括
triploblasts have
三胚層動物有
triploblasts are
三胚層動物是
triploblasts develop
三胚層動物發育
in triploblasts
在三胚層動物中
true triploblasts
真正的三胚層動物
triploblastic animals possess three distinct germ layers during embryonic development.
三胚層動物在胚胎發育期間具有三個不同的胚層。
most complex organisms are triploblastic, including vertebrates and arthropods.
大多數複雜的生物都是三胚層動物,包括脊椎動物和節肢動物。
the evolution of triploblastic symmetry marked a significant advancement in animal complexity.
三胚層對稱性的演化標誌著動物複雜性的重大進步。
scientists classify triploblastic organisms into several major phyla based on body plans.
科學家根據身體結構將三胚層生物分類為幾個主要門。
triploblastic embryos develop specialized tissues from ectoderm, mesoderm, and endoderm.
三胚層胚胎從外胚層、中胚層和內胚層發育出特化的組織。
the emergence of triploblastic life forms transformed marine ecosystems.
三胚層生物的出現改變了海洋生態系統。
comparative studies reveal diverse adaptations among triploblastic species.
比較研究揭示了三胚層物種之間多樣的適應性。
triploblastic body plans enable sophisticated organ systems and locomotion.
三胚層身體結構使複雜的器官系統和運動成為可能。
researchers study triploblastic development to understand tissue differentiation.
研究人員研究三胚層的發育以了解組織分化。
the genetic basis of triploblastic complexity interests many evolutionary biologists.
三胚層複雜性的遺傳基礎引起了許多進化生物學家的興趣。
triploblastic animals exhibit bilateral symmetry as a defining characteristic.
三胚層動物以雙側對稱作為其特徵。
fossil evidence suggests triploblastic organisms appeared during the ediacaran period.
化石證據表明三胚層生物在埃迪卡拉紀出現。
understanding triploblastic classification helps reconstruct evolutionary relationships.
了解三胚層分類有助於重建進化關係。
the three germ layers in triploblastic embryos give rise to all body tissues.
三胚層胚胎中的三個胚層產生了所有身體組織。
triploblastic diversity encompasses countless species from worms to mammals.
三胚層的多樣性涵蓋了從蠕蟲到哺乳動物的無數物種。
探索常見搜尋詞彙