endopterygotes metamorphose
内生翅类昆虫变态
endopterygotes undergo complete
内生翅类昆虫经历完全变态
the endopterygotes include
内生翅类昆虫包括
all endopterygotes
所有内生翅类昆虫
endopterygote insects
内生翅类昆虫
endopterygotes are characterized
内生翅类昆虫的特征是
these endopterygotes
这些内生翅类昆虫
endopterygotes belong to
内生翅类昆虫属于
major endopterygotes
主要的内生翅类昆虫
endopterygotes demonstrate
内生翅类昆虫表现出
endopterygotes undergo complete metamorphosis with distinct larval, pupal, and adult stages.
完全变态发育的昆虫包括明显的幼虫、蛹和成虫阶段。
the order endopterygota includes beetles, butterflies, and flies as well-known examples.
内翅类昆虫纲包括甲虫、蝴蝶和苍蝇等著名例子。
endopterygote development is characterized by internal wing pads that form during the larval stage.
内翅类昆虫的发育特征是在幼虫阶段形成内部的翅芽。
most endopterygotes have larvae that look completely different from the adult insects.
大多数内翅类昆虫的幼虫与成虫在外观上完全不同。
in endopterygotes, the wings develop inside the body during the immature stages.
在内翅类昆虫中,翅膀在幼虫阶段在体内发育。
endopterygote metamorphosis involves a dramatic transformation from larva to adult.
内翅类昆虫的变态发育包括从幼虫到成虫的显著转变。
primitive endopterygotes like earwigs show intermediate characteristics between hemimetabolous and holometabolous insects.
像蠼螋这样的原始内翅类昆虫表现出介于不完全变态和完全变态昆虫之间的中间特征。
advanced endopterygotes such as butterflies exhibit highly specialized larval and adult forms.
像蝴蝶这样的高级内翅类昆虫表现出高度特化的幼虫和成虫形态。
the evolutionary success of endopterygotes is largely due to their complete metamorphosis.
内翅类昆虫的进化成功在很大程度上归功于它们的完全变态。
endopterygote larvae often occupy different ecological niches than the adults.
内翅类昆虫的幼虫通常占据与成虫不同的生态位。
the nervous system of endopterygotes undergoes significant reorganization during metamorphosis.
内翅类昆虫的神经系统在变态过程中经历显著的重组。
many endopterygote species are important pollinators in various ecosystems.
许多内翅类昆虫物种在各种生态系统中是重要的传粉者。
endopterygotes metamorphose
内生翅类昆虫变态
endopterygotes undergo complete
内生翅类昆虫经历完全变态
the endopterygotes include
内生翅类昆虫包括
all endopterygotes
所有内生翅类昆虫
endopterygote insects
内生翅类昆虫
endopterygotes are characterized
内生翅类昆虫的特征是
these endopterygotes
这些内生翅类昆虫
endopterygotes belong to
内生翅类昆虫属于
major endopterygotes
主要的内生翅类昆虫
endopterygotes demonstrate
内生翅类昆虫表现出
endopterygotes undergo complete metamorphosis with distinct larval, pupal, and adult stages.
完全变态发育的昆虫包括明显的幼虫、蛹和成虫阶段。
the order endopterygota includes beetles, butterflies, and flies as well-known examples.
内翅类昆虫纲包括甲虫、蝴蝶和苍蝇等著名例子。
endopterygote development is characterized by internal wing pads that form during the larval stage.
内翅类昆虫的发育特征是在幼虫阶段形成内部的翅芽。
most endopterygotes have larvae that look completely different from the adult insects.
大多数内翅类昆虫的幼虫与成虫在外观上完全不同。
in endopterygotes, the wings develop inside the body during the immature stages.
在内翅类昆虫中,翅膀在幼虫阶段在体内发育。
endopterygote metamorphosis involves a dramatic transformation from larva to adult.
内翅类昆虫的变态发育包括从幼虫到成虫的显著转变。
primitive endopterygotes like earwigs show intermediate characteristics between hemimetabolous and holometabolous insects.
像蠼螋这样的原始内翅类昆虫表现出介于不完全变态和完全变态昆虫之间的中间特征。
advanced endopterygotes such as butterflies exhibit highly specialized larval and adult forms.
像蝴蝶这样的高级内翅类昆虫表现出高度特化的幼虫和成虫形态。
the evolutionary success of endopterygotes is largely due to their complete metamorphosis.
内翅类昆虫的进化成功在很大程度上归功于它们的完全变态。
endopterygote larvae often occupy different ecological niches than the adults.
内翅类昆虫的幼虫通常占据与成虫不同的生态位。
the nervous system of endopterygotes undergoes significant reorganization during metamorphosis.
内翅类昆虫的神经系统在变态过程中经历显著的重组。
many endopterygote species are important pollinators in various ecosystems.
许多内翅类昆虫物种在各种生态系统中是重要的传粉者。
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