the eudicotyledons
这些真双子叶植物
eudicotyledons include
真双子叶植物包括
most eudicotyledons
大多数真双子叶植物
eudicotyledons are
真双子叶植物是
eudicotyledons have
真双子叶植物有
studying eudicotyledons
研究真双子叶植物
eudicotyledons evolved
真双子叶植物进化
all eudicotyledons
所有真双子叶植物
eudicotyledons differ
真双子叶植物不同
eudicotyledons represent the largest and most diverse group of flowering plants on earth.
真双子叶植物是地球上最大、最多样化的开花植物类群。
the diversity of eudicotyledons includes thousands of species across numerous botanical families.
真双子叶植物的多样性包括众多科属中的数千个物种。
scientists study eudicotyledon phylogeny to understand the evolutionary relationships among flowering plants.
科学家研究真双子叶植物的系统发育以了解开花植物之间的进化关系。
eudicotyledon plants can be distinguished from other angiosperms by their specific seed structure.
真双子叶植物可以通过其特定的种子结构与其他被子植物区分开来。
the evolution of eudicotyledons began approximately 125 million years ago during the cretaceous period.
真双子叶植物的进化始于约1.25亿年前的白垩纪时期。
basal eudicotyledons represent the earliest-diverging lineages within this major plant group.
基部真双子叶植物代表了这一主要植物群中最早分化的谱系。
eudicotyledon genomes have been sequenced for many important crop plants and model organisms.
许多重要农作物和模式植物的真双子叶植物基因组已被测序。
the fossil record of eudicotyledons provides valuable evidence for understanding plant evolution.
真双子叶植物的化石记录为了解植物进化提供了重要证据。
core eudicotyledons comprise the majority of species within this taxonomically diverse group.
核心真双子叶植物包含了这一分类多样化群中的大部分物种。
eudicotyledon flowers typically possess four or five distinct petals in their floral structure.
真双子叶植物的花通常具有四片或五片明显的花瓣。
the leaf morphology of eudicotyledons shows remarkable variation across different species.
真双子叶植物的叶片形态在不同物种间表现出显著变化。
eudicotyledon vascular bundles are typically arranged in a characteristic ring pattern within the stem.
真双子叶植物的维管束在茎内通常呈典型的环状排列。
many economically important crops belong to the eudicotyledon group of flowering plants.
许多重要经济作物属于真双子叶植物这一开花植物类群。
eudicotyledons dominate the vegetation in most terrestrial ecosystems worldwide.
真双子叶植物在全球大多数陆地生态系统中占主导地位。
the classification of eudicotyledons continues to be refined through molecular phylogenetic studies.
真双子叶植物的分类通过分子系统发育研究不断完善。
the eudicotyledons
这些真双子叶植物
eudicotyledons include
真双子叶植物包括
most eudicotyledons
大多数真双子叶植物
eudicotyledons are
真双子叶植物是
eudicotyledons have
真双子叶植物有
studying eudicotyledons
研究真双子叶植物
eudicotyledons evolved
真双子叶植物进化
all eudicotyledons
所有真双子叶植物
eudicotyledons differ
真双子叶植物不同
eudicotyledons represent the largest and most diverse group of flowering plants on earth.
真双子叶植物是地球上最大、最多样化的开花植物类群。
the diversity of eudicotyledons includes thousands of species across numerous botanical families.
真双子叶植物的多样性包括众多科属中的数千个物种。
scientists study eudicotyledon phylogeny to understand the evolutionary relationships among flowering plants.
科学家研究真双子叶植物的系统发育以了解开花植物之间的进化关系。
eudicotyledon plants can be distinguished from other angiosperms by their specific seed structure.
真双子叶植物可以通过其特定的种子结构与其他被子植物区分开来。
the evolution of eudicotyledons began approximately 125 million years ago during the cretaceous period.
真双子叶植物的进化始于约1.25亿年前的白垩纪时期。
basal eudicotyledons represent the earliest-diverging lineages within this major plant group.
基部真双子叶植物代表了这一主要植物群中最早分化的谱系。
eudicotyledon genomes have been sequenced for many important crop plants and model organisms.
许多重要农作物和模式植物的真双子叶植物基因组已被测序。
the fossil record of eudicotyledons provides valuable evidence for understanding plant evolution.
真双子叶植物的化石记录为了解植物进化提供了重要证据。
core eudicotyledons comprise the majority of species within this taxonomically diverse group.
核心真双子叶植物包含了这一分类多样化群中的大部分物种。
eudicotyledon flowers typically possess four or five distinct petals in their floral structure.
真双子叶植物的花通常具有四片或五片明显的花瓣。
the leaf morphology of eudicotyledons shows remarkable variation across different species.
真双子叶植物的叶片形态在不同物种间表现出显著变化。
eudicotyledon vascular bundles are typically arranged in a characteristic ring pattern within the stem.
真双子叶植物的维管束在茎内通常呈典型的环状排列。
many economically important crops belong to the eudicotyledon group of flowering plants.
许多重要经济作物属于真双子叶植物这一开花植物类群。
eudicotyledons dominate the vegetation in most terrestrial ecosystems worldwide.
真双子叶植物在全球大多数陆地生态系统中占主导地位。
the classification of eudicotyledons continues to be refined through molecular phylogenetic studies.
真双子叶植物的分类通过分子系统发育研究不断完善。
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