eudicots include
真双子叶植物包括
eudicots are
真双子叶植物是
eudicots have
真双子叶植物具有
the eudicots
真双子叶植物
eudicots typically
真双子叶植物通常
eudicots differ
真双子叶植物不同
most eudicots
大多数真双子叶植物
eudicots evolved
真双子叶植物进化
eudicots and monocots
真双子叶植物和单子叶植物
eudicots represent
真双子叶植物代表
eudicots represent the largest clade of flowering plants, comprising over 70% of all known plant species.
双子叶植物是开花植物中最大的分支,包含已知植物物种的70%以上。
researchers have sequenced the genome of several eudicot model organisms to study plant development.
研究人员已经测序了多个双子叶植物模式生物的基因组,以研究植物发育。
the evolutionary history of eudicots dates back to approximately 140 million years ago during the cretaceous period.
双子叶植物的进化历史可以追溯到大约1.4亿年前的白垩纪时期。
eudicot species exhibit remarkable diversity in flower structure, ranging from simple to highly complex forms.
双子叶植物物种在花结构上表现出显著的多样性,从简单到高度复杂的形式都有。
taxonomists continue to refine the classification of eudicot families based on molecular phylogenetic studies.
分类学家基于分子系统发育研究不断完善双子叶植物科的分类。
the radiation of eudicots coincided with the diversification of insect pollinators during the mesozoic era.
双子叶植物的辐射与中生代昆虫传粉者的多样化同时发生。
comparative studies of eudicot leaves reveal significant variation in venation patterns and stomatal distribution.
对双子叶植物叶片的比较研究揭示了叶脉模式和气孔分布的显著差异。
eudicot crops such as tomatoes, potatoes, and beans form the foundation of global agricultural production.
番茄、土豆和豆类等双子叶植物作物构成了全球农业生产的基础。
conservation biologists are working to protect endangered eudicot species in tropical biodiversity hotspots.
保护生物学家正在努力保护热带生物多样性热点地区中濒危的双子叶植物物种。
the morphological characteristics of eudicots include typically pentamerous flowers and reticulate leaf venation.
双子叶植物的形态特征通常包括五基数花和网状叶脉。
paleobotanists have discovered fossil evidence documenting the early diversification of eudicots in ancient ecosystems.
古植物学家发现了记录古代生态系统中双子叶植物早期多样化的化石证据。
eudicot seedlings can be distinguished from monocots by their characteristic two-seed-leaf germination pattern.
双子叶植物幼苗可以通过其独特的双子叶发芽模式与单子叶植物区分开来。
molecular clock analyses have helped scientists estimate the timing of major eudicot divergence events.
分子钟分析帮助科学家确定了双子叶植物主要分化事件的时间。
eudicots include
真双子叶植物包括
eudicots are
真双子叶植物是
eudicots have
真双子叶植物具有
the eudicots
真双子叶植物
eudicots typically
真双子叶植物通常
eudicots differ
真双子叶植物不同
most eudicots
大多数真双子叶植物
eudicots evolved
真双子叶植物进化
eudicots and monocots
真双子叶植物和单子叶植物
eudicots represent
真双子叶植物代表
eudicots represent the largest clade of flowering plants, comprising over 70% of all known plant species.
双子叶植物是开花植物中最大的分支,包含已知植物物种的70%以上。
researchers have sequenced the genome of several eudicot model organisms to study plant development.
研究人员已经测序了多个双子叶植物模式生物的基因组,以研究植物发育。
the evolutionary history of eudicots dates back to approximately 140 million years ago during the cretaceous period.
双子叶植物的进化历史可以追溯到大约1.4亿年前的白垩纪时期。
eudicot species exhibit remarkable diversity in flower structure, ranging from simple to highly complex forms.
双子叶植物物种在花结构上表现出显著的多样性,从简单到高度复杂的形式都有。
taxonomists continue to refine the classification of eudicot families based on molecular phylogenetic studies.
分类学家基于分子系统发育研究不断完善双子叶植物科的分类。
the radiation of eudicots coincided with the diversification of insect pollinators during the mesozoic era.
双子叶植物的辐射与中生代昆虫传粉者的多样化同时发生。
comparative studies of eudicot leaves reveal significant variation in venation patterns and stomatal distribution.
对双子叶植物叶片的比较研究揭示了叶脉模式和气孔分布的显著差异。
eudicot crops such as tomatoes, potatoes, and beans form the foundation of global agricultural production.
番茄、土豆和豆类等双子叶植物作物构成了全球农业生产的基础。
conservation biologists are working to protect endangered eudicot species in tropical biodiversity hotspots.
保护生物学家正在努力保护热带生物多样性热点地区中濒危的双子叶植物物种。
the morphological characteristics of eudicots include typically pentamerous flowers and reticulate leaf venation.
双子叶植物的形态特征通常包括五基数花和网状叶脉。
paleobotanists have discovered fossil evidence documenting the early diversification of eudicots in ancient ecosystems.
古植物学家发现了记录古代生态系统中双子叶植物早期多样化的化石证据。
eudicot seedlings can be distinguished from monocots by their characteristic two-seed-leaf germination pattern.
双子叶植物幼苗可以通过其独特的双子叶发芽模式与单子叶植物区分开来。
molecular clock analyses have helped scientists estimate the timing of major eudicot divergence events.
分子钟分析帮助科学家确定了双子叶植物主要分化事件的时间。
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